diff options
Diffstat (limited to 'examples')
-rw-r--r-- | examples/OBD2/application-generated.cpp | 2 | ||||
-rw-r--r-- | examples/agl-vcar/application-generated.cpp | 12 | ||||
-rw-r--r-- | examples/basic/application-generated.cpp | 4 | ||||
-rw-r--r-- | examples/engine/application-generated.cpp | 8 | ||||
-rw-r--r-- | examples/hvac/application-generated.cpp | 4 | ||||
-rw-r--r-- | examples/j1939/application-generated.cpp | 14 | ||||
-rwxr-xr-x | examples/j1939/j1939_openxc.json | 66738 | ||||
-rw-r--r-- | examples/tests/application-generated.cpp | 28 | ||||
-rw-r--r-- | examples/toyota/auris/application-generated.cpp | 12 |
9 files changed, 66780 insertions, 42 deletions
diff --git a/examples/OBD2/application-generated.cpp b/examples/OBD2/application-generated.cpp index f5788d9b..5bed7599 100644 --- a/examples/OBD2/application-generated.cpp +++ b/examples/OBD2/application-generated.cpp @@ -269,7 +269,7 @@ application_t::application_t() { for(std::shared_ptr<message_set_t> cms: message_set_) { - std::vector<std::shared_ptr<message_definition_t>> messages_definition = cms->get_messages_definition(); + vect_ptr_msg_def_t messages_definition = cms->get_messages_definition(); for(std::shared_ptr<message_definition_t> cmd : messages_definition) { cmd->set_parent(cms); diff --git a/examples/agl-vcar/application-generated.cpp b/examples/agl-vcar/application-generated.cpp index f4d2635d..e04c3356 100644 --- a/examples/agl-vcar/application-generated.cpp +++ b/examples/agl-vcar/application-generated.cpp @@ -499,7 +499,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x3D9,"",8,2050,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x3D9,"", 8, 2050, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "engine.speed",// generic_name @@ -569,7 +569,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x3E9,"",8,2,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x3E9,"", 8, 2, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "vehicle.average.speed",// generic_name @@ -595,7 +595,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x4D1,"",8,2,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x4D1,"", 8, 2, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "engine.oil.temp",// generic_name @@ -643,7 +643,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x620,"",8,2,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x620,"", 8, 2, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "doors.boot.open",// generic_name @@ -757,7 +757,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x799,"",8,2,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x799,"", 8, 2, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "windows.front_left.open",// generic_name @@ -1111,7 +1111,7 @@ application_t::application_t() { for(std::shared_ptr<message_set_t> cms: message_set_) { - std::vector<std::shared_ptr<message_definition_t>> messages_definition = cms->get_messages_definition(); + vect_ptr_msg_def_t messages_definition = cms->get_messages_definition(); for(std::shared_ptr<message_definition_t> cmd : messages_definition) { cmd->set_parent(cms); diff --git a/examples/basic/application-generated.cpp b/examples/basic/application-generated.cpp index 19857603..bf321067 100644 --- a/examples/basic/application-generated.cpp +++ b/examples/basic/application-generated.cpp @@ -34,7 +34,7 @@ application_t::application_t() , message_set_{ {std::make_shared<message_set_t>(message_set_t{0,"example", { // beginning message_definition_ vector - {std::make_shared<message_definition_t>(message_definition_t{"hs",0x128,"ECM_z_5D2",0,false,message_format_t::STANDARD,frequency_clock_t(5.00000f),true, + {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x128,"ECM_z_5D2", 0, false, message_format_t::STANDARD, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "engine_speed",// generic_name @@ -200,7 +200,7 @@ application_t::application_t() { for(std::shared_ptr<message_set_t> cms: message_set_) { - std::vector<std::shared_ptr<message_definition_t>> messages_definition = cms->get_messages_definition(); + vect_ptr_msg_def_t messages_definition = cms->get_messages_definition(); for(std::shared_ptr<message_definition_t> cmd : messages_definition) { cmd->set_parent(cms); diff --git a/examples/engine/application-generated.cpp b/examples/engine/application-generated.cpp index bc66b5ec..4f6dd702 100644 --- a/examples/engine/application-generated.cpp +++ b/examples/engine/application-generated.cpp @@ -7,7 +7,7 @@ application_t::application_t() , message_set_{ {std::make_shared<message_set_t>(message_set_t{0,"example", { // beginning message_definition_ vector - {std::make_shared<message_definition_t>(message_definition_t{"hs",0x3D9,"",0,false,message_format_t::STANDARD,frequency_clock_t(5.00000f),true, + {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x3D9,"", 0, false, message_format_t::STANDARD, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "engine.speed",// generic_name @@ -77,7 +77,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x3E9,"",0,false,message_format_t::STANDARD,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x3E9,"", 0, false, message_format_t::STANDARD, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "vehicle.average.speed",// generic_name @@ -103,7 +103,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x4D1,"",0,false,message_format_t::STANDARD,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x4D1,"", 0, false, message_format_t::STANDARD, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "engine.oil.temp",// generic_name @@ -161,7 +161,7 @@ application_t::application_t() { for(std::shared_ptr<message_set_t> cms: message_set_) { - std::vector<std::shared_ptr<message_definition_t>> messages_definition = cms->get_messages_definition(); + vect_ptr_msg_def_t messages_definition = cms->get_messages_definition(); for(std::shared_ptr<message_definition_t> cmd : messages_definition) { cmd->set_parent(cms); diff --git a/examples/hvac/application-generated.cpp b/examples/hvac/application-generated.cpp index a716654e..0086abb5 100644 --- a/examples/hvac/application-generated.cpp +++ b/examples/hvac/application-generated.cpp @@ -7,7 +7,7 @@ application_t::application_t() , message_set_{ {std::make_shared<message_set_t>(message_set_t{0,"example", { // beginning message_definition_ vector - {std::make_shared<message_definition_t>(message_definition_t{"ls",0x30,"",0,false,message_format_t::STANDARD,frequency_clock_t(5.00000f),true, + {std::make_shared<message_definition_t>(message_definition_t{"ls", 0x30,"", 0, false, message_format_t::STANDARD, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "hvac.fan.speed",// generic_name @@ -109,7 +109,7 @@ application_t::application_t() { for(std::shared_ptr<message_set_t> cms: message_set_) { - std::vector<std::shared_ptr<message_definition_t>> messages_definition = cms->get_messages_definition(); + vect_ptr_msg_def_t messages_definition = cms->get_messages_definition(); for(std::shared_ptr<message_definition_t> cmd : messages_definition) { cmd->set_parent(cms); diff --git a/examples/j1939/application-generated.cpp b/examples/j1939/application-generated.cpp index 1b07b5bc..e0b633b5 100644 --- a/examples/j1939/application-generated.cpp +++ b/examples/j1939/application-generated.cpp @@ -7,7 +7,7 @@ application_t::application_t() , message_set_{ {std::make_shared<message_set_t>(message_set_t{0,"Virtual J1939", { // beginning message_definition_ vector - {std::make_shared<message_definition_t>(message_definition_t{"j1939",61442,"ETC1",8,false,message_format_t::J1939,frequency_clock_t(5.00000f),true, + {std::make_shared<message_definition_t>(message_definition_t{"j1939", 61442,"ETC1", 8, false, message_format_t::J1939, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "Eng.Momentary.Overspeed.Enable",// generic_name @@ -281,7 +281,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"j1939",61444,"EEC1",8,false,message_format_t::J1939,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"j1939", 61444,"EEC1", 8, false, message_format_t::J1939, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "Actl.Eng.Prcnt.Trque.High.Resolution",// generic_name @@ -491,7 +491,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"j1939",61449,"VDC2",8,false,message_format_t::J1939,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"j1939", 61449,"VDC2", 8, false, message_format_t::J1939, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "Lateral.Acceleration",// generic_name @@ -631,7 +631,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"j1939",65215,"EBC2",8,false,message_format_t::J1939,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"j1939", 65215,"EBC2", 8, false, message_format_t::J1939, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "Front.Axle.Speed",// generic_name @@ -789,7 +789,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"j1939",65253,"HOURS",8,false,message_format_t::J1939,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"j1939", 65253,"HOURS", 8, false, message_format_t::J1939, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "Eng.Total.Hours.Of.Operation",// generic_name @@ -837,7 +837,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"j1939",65262,"ET1",8,false,message_format_t::J1939,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"j1939", 65262,"ET1", 8, false, message_format_t::J1939, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "Eng.Coolant.Temp",// generic_name @@ -983,7 +983,7 @@ application_t::application_t() { for(std::shared_ptr<message_set_t> cms: message_set_) { - std::vector<std::shared_ptr<message_definition_t>> messages_definition = cms->get_messages_definition(); + vect_ptr_msg_def_t messages_definition = cms->get_messages_definition(); for(std::shared_ptr<message_definition_t> cmd : messages_definition) { cmd->set_parent(cms); diff --git a/examples/j1939/j1939_openxc.json b/examples/j1939/j1939_openxc.json new file mode 100755 index 00000000..8c59a2f5 --- /dev/null +++ b/examples/j1939/j1939_openxc.json @@ -0,0 +1,66738 @@ + +{ "name": "J1939", + "extra_sources": [], + "initializers": [], + "loopers": [], + "buses": {}, + "commands": [], + "messages": { + "0": { + "comment": "This is a message for not used signals, created by Vector CANdb++ DBC OLE DB Provider.", + "length": 0, + "name": "VECTOR__INDEPENDENT_SIG_MSG", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trailer.Weight" : { + "generic_name": "Trailer.Weight", + "bit_position": -1, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "Total mass of freight-carrying vehicle designed to be pulled by truck, including the weight of the contents.", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting" : { + "generic_name": "Reference.Tire.Press.Setting", + "bit_position": -1, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "Reference value of the tire pressure setting as basis for the tire pressure monitoring", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press" : { + "generic_name": "Reference.Tire.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "Reference value of the tire pressure as basis for the tire pressure monitoring", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press.Threshold.Detection" : { + "generic_name": "Tire.Press.Threshold.Detection", + "bit_position": -1, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Air.Leakage.Rate" : { + "generic_name": "Tire.Air.Leakage.Rate", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "C.TIWheel.End.Electrical.Fault" : { + "generic_name": "C.TIWheel.End.Electrical.Fault", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status" : { + "generic_name": "C.TITire.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.Sensor.Status" : { + "generic_name": "C.TIWheel.Sensor.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "Tire.Temp" : { + "generic_name": "Tire.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the surface of the tire sidewall.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press" : { + "generic_name": "Tire.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61485": { + "comment": "The acceleration sensor message shall provide a measurement of the vehicle's acceleration in the lateral, longitudinal,and vertical axes.", + "length": 7, + "name": "AccelerationSensor", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Spprt.Vrbl.Trns.Rpttn.Rt.Fr.Acclrtn.Snsr" : { + "generic_name": "Spprt.Vrbl.Trns.Rpttn.Rt.Fr.Acclrtn.Snsr", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates which acceleration transmission rate are supported by the ECU in addition to the required 10 ms transmission", + "is_big_endian": false, + "is_signed": false, + "states": { + "MsTransRate": [1] + } + }, + "Vrtcl.Acclrtn.Ex.Rnge.Figure.Of.Merit" : { + "generic_name": "Vrtcl.Acclrtn.Ex.Rnge.Figure.Of.Merit", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Figure of merit for vertical acceleration measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "VrtclAcclrtnIsFllyFnctnlDtIsWth": [0], + "VrtclcclrtnIsDgrddDtIsSspctDTEn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Lngtdnl.Acclrtn.Ex.Rng.Fgure.Of.Merit" : { + "generic_name": "Lngtdnl.Acclrtn.Ex.Rng.Fgure.Of.Merit", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Figure of merit for longitudinal acceleration measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LngtdnlAcclrtnIsFllyFnctnlDtIsW": [0], + "LngtdnlAcclrtnIsDgrddDtIsSspctD": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Ltrl.Acclrtn.Ex.Range.Figure.Of.Merit" : { + "generic_name": "Ltrl.Acclrtn.Ex.Range.Figure.Of.Merit", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Figure of merit for lateral acceleration measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LtrlAcclrtnIsFllyFnctnlDtIsWthn": [0], + "LtrlAcclrtnIsDgrddDtIsSspctDTEn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Vertical.Acceleration.Ex.Range" : { + "generic_name": "Vertical.Acceleration.Ex.Range", + "bit_position": 31, + "bit_size": 16, + "factor": 0.01, + "offset": -320, + "min_value": -320, + "max_value": 322.55, + "comment": "Indicates vertical acceleration of the vehicle and the effect of gravity.", + "unit": "m/s/s", + "is_big_endian": false, + "is_signed": false + }, + "Lateral.Acceleration.Ex.Range" : { + "generic_name": "Lateral.Acceleration.Ex.Range", + "bit_position": -1, + "bit_size": 16, + "factor": 0.01, + "offset": -320, + "min_value": -320, + "max_value": 322.55, + "comment": "Indicates lateral acceleration of the vehicle.", + "unit": "m/s/s", + "is_big_endian": false, + "is_signed": false + }, + "Longitudinal.Acceleration.Ex.Range" : { + "generic_name": "Longitudinal.Acceleration.Ex.Range", + "bit_position": 15, + "bit_size": 16, + "factor": 0.01, + "offset": -320, + "min_value": -320, + "max_value": 322.55, + "comment": "Indicates longitudinal acceleration of the vehicle.", + "unit": "m/s/s", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64746": { + "comment": "Vehicle Electrical Power #4", + "length": 8, + "name": "VEP4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Hybrd.Battery.Pack.Remaining.Charge" : { + "generic_name": "Hybrd.Battery.Pack.Remaining.Charge", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Indicates the hybrid battery pack remaining charge.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61481": { + "comment": "Slope Sensor Information 2", + "length": 8, + "name": "SSI2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Rll.And.Ptch.Ex.Rng.Msurement.Latency" : { + "generic_name": "Rll.And.Ptch.Ex.Rng.Msurement.Latency", + "bit_position": 55, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Time between start of sensor processing and CAN transmission", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Roll.Angle.Ex.Range.Figure.Of.Merit" : { + "generic_name": "Roll.Angle.Ex.Range.Figure.Of.Merit", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Figure of merit for roll angle measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "RllRtFllyFnctnlDtIsWthnSnsrSpcf": [0], + "RllRtDgrddDtIsSspctDTEnvrnmntlC": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Roll.Angle.Ex.Range.Compensation" : { + "generic_name": "Roll.Angle.Ex.Range.Compensation", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Compensated mode for the roll measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "On": [0], + "Off": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Pitch.Angle.Ex.Range.Figure.Of.Merit" : { + "generic_name": "Pitch.Angle.Ex.Range.Figure.Of.Merit", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Figure of merit for pitch angle measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PtchRtFllyFnctnlDtIsWthnSnsrSpc": [0], + "PtchRtDgrddDtIsSspctDTEnvrnmntl": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Pitch.Angle.Ex.Range.Compensation" : { + "generic_name": "Pitch.Angle.Ex.Range.Compensation", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Compensated mode for the pitch measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "On": [0], + "Off": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Roll.Angle.Ex.Range" : { + "generic_name": "Roll.Angle.Ex.Range", + "bit_position": 23, + "bit_size": 24, + "factor": 0.000030517578125, + "offset": -250, + "min_value": -250, + "max_value": 250.9999, + "comment": "The angle between the vehicle y-axis and the ground plane.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Pitch.Angle.Ex.Range" : { + "generic_name": "Pitch.Angle.Ex.Range", + "bit_position": -1, + "bit_size": 24, + "factor": 0.000030517578125, + "offset": -250, + "min_value": -250, + "max_value": 250.9999, + "comment": "The angle between the vehicle x-axis and the ground plane.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64790": { + "comment": "Occupant Classification System Information", + "length": 8, + "name": "OCSI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Occpnt.Clssfcation.System10.Status" : { + "generic_name": "Occpnt.Clssfcation.System10.Status", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of Occupant Classification System for seat position 10.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Empty": [0], + "Occupied": [1], + "ErrrClssfctonCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Occpnt.Clssfication.System9.Status" : { + "generic_name": "Occpnt.Clssfication.System9.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of Occupant Classification System for seat position 9.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Empty": [0], + "Occupied": [1], + "ErrrClssfctonCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Occpnt.Clssfication.System8.Status" : { + "generic_name": "Occpnt.Clssfication.System8.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of Occupant Classification System for seat position 8.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Empty": [0], + "Occupied": [1], + "ErrrClssfctonCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Occpnt.Clssfication.System7.Status" : { + "generic_name": "Occpnt.Clssfication.System7.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of Occupant Classification System for seat position 7.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Empty": [0], + "Occupied": [1], + "ErrrClssfctonCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Occpnt.Clssfication.System6.Status" : { + "generic_name": "Occpnt.Clssfication.System6.Status", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of Occupant Classification System for seat position 6.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Empty": [0], + "Occupied": [1], + "ErrrClssfctonCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Occpnt.Clssfication.System5.Status" : { + "generic_name": "Occpnt.Clssfication.System5.Status", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of Occupant Classification System for seat position 5.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Empty": [0], + "Occupied": [1], + "ErrrClssfctonCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Occpnt.Clssfication.System4.Status" : { + "generic_name": "Occpnt.Clssfication.System4.Status", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of Occupant Classification System for seat position 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Empty": [0], + "Occupied": [1], + "ErrrClssfctonCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Occpnt.Clssfication.System3.Status" : { + "generic_name": "Occpnt.Clssfication.System3.Status", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of Occupant Classification System for seat position 3.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Empty": [0], + "Occupied": [1], + "ErrrClssfctonCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Pssngr.Occpnt.Clssfctn.Systm.Status" : { + "generic_name": "Pssngr.Occpnt.Clssfctn.Systm.Status", + "bit_position": 2, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "State of Occupant Classification System for passenger.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Empty": [0], + "Child": [1], + "SmallAdult": [2], + "Adult": [3], + "LargeAdult": [4], + "ErrrClssfctnOfOccpntCnntBDtrmnd": [5], + "NotAvailable": [7] + } + }, + "Drvr.Occpnt.Clssfcton.System.Status" : { + "generic_name": "Drvr.Occpnt.Clssfcton.System.Status", + "bit_position": -1, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "State of Occupant Classification System for driver.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Empty": [0], + "Child": [1], + "SmallAdult": [2], + "Adult": [3], + "LargeAdult": [4], + "Reserved": [5], + "ErrrClssfctnOfOccpntCnntBDtrmnd": [6], + "NotAvailable": [7] + } + } + } + }, + "38910": { + "comment": "Noise Control Status", + "length": 8, + "name": "NCS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Cab.Noise.Ctrl.Tuning.Status" : { + "generic_name": "Cab.Noise.Ctrl.Tuning.Status", + "bit_position": 1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter returns the current status of tuning function of the Cab Noise Control system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ManualTuningMode": [0], + "ManualTuningModeCmdComplete": [1], + "ManualTuningModeSavingData": [2], + "MnlTnngDndRqrsScrtyVerification": [7], + "AutomaticTuningMode": [8], + "AutomaticTuningModeCmdComplete": [9], + "AutomaticTuningModeSavingData": [10], + "Reserved": [13], + "TuningModeError": [14], + "NotAvailable_NotTuning_NotRqed": [15] + } + }, + "Cab.Noise.Ctrl.Status" : { + "generic_name": "Cab.Noise.Ctrl.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter returns the current status of the Cab Noise Control system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CabNoiseCtrlSystemONLine": [0], + "CabNoiseCtrlSystemOFFLine": [1], + "ErrorIndicator": [2], + "NotAvailable_NotRqed": [3] + } + } + } + }, + "39166": { + "comment": "Noise Control 1", + "length": 8, + "name": "NC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Cab.Noise.Ctrl.Tuning.State" : { + "generic_name": "Cab.Noise.Ctrl.Tuning.State", + "bit_position": 1, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Command values for the Tuning State of the Cab Noise Control System.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ActvtMnlTnngWtFrSaveAndExitCmds": [0], + "ActvtAtmtcTnngWtFrSvAndExitCmds": [1], + "ActvtAtmtcTnngSttSvngPrmtrsExtO": [2], + "RmnInTningSaveCurrentParameters": [3], + "ExitTuningNotSavingParameters": [4], + "ExitTuningSavingParameters": [5], + "Reserved": [6], + "DontCareNOTCmded": [7] + } + }, + "Cab.Noise.Ctrl.State" : { + "generic_name": "Cab.Noise.Ctrl.State", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to change the state of the Cab Noise Control System to on-line or off-line", + "is_big_endian": false, + "is_signed": false, + "states": { + "TakeCabNoiseCtrlSystemOffLine": [0], + "BringCabNoiseCtrlSystemOnLine": [1], + "Reserved": [2], + "DontCare_NotCmded": [3] + } + } + } + }, + "61484": { + "comment": "Magnet Status Information 2", + "length": 8, + "name": "MSI2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Drop.Relay.Ctrl" : { + "generic_name": "Drop.Relay.Ctrl", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to Engage and Disengage the Drop Relay controlling a Steady-State Magnet.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OffDisableDropRelayRq": [0], + "OnEnableDropRelayRq": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Lift.Relay.Ctrl" : { + "generic_name": "Lift.Relay.Ctrl", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to Engage and Disengage the Lift Relay controlling a Steady-State Magnet.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OffDisableLiftRelayRq": [0], + "OnEnableLiftRelayRq": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Material.Drop.Active.Status" : { + "generic_name": "Material.Drop.Active.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The status of Material Drop Relay.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Material.Lift.Active.Status" : { + "generic_name": "Material.Lift.Active.Status", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The status of Material Lift Relay.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Gnrator.Current.Boost.Active.Status" : { + "generic_name": "Gnrator.Current.Boost.Active.Status", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of generator current boost relay that can boost the generator output current for picking-up material operations.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Material.Drop.Switch" : { + "generic_name": "Material.Drop.Switch", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This is a switch that can be used to enable the drop functionality of the Material Handler machine.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DontDrop": [0], + "Drop": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Material.Lift.Switch" : { + "generic_name": "Material.Lift.Switch", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This is a switch that can be used to enable the lift functionality of the Material Handler machine.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DontLift": [0], + "Lift": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Magnet.Reverse.Current" : { + "generic_name": "Magnet.Reverse.Current", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "A reverse current being supplied to the electric magnet to reduce the forward current generated magnet field as quick as", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Magnet.Forward.Current" : { + "generic_name": "Magnet.Forward.Current", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The forward current being supplied by the generator to the electric magnet to create a magnet field to lift material.", + "unit": "Amps", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64786": { + "comment": "Magnet Status Information 1", + "length": 8, + "name": "MSI1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Gnerator.Duty.Cycle.Exceeded.Status" : { + "generic_name": "Gnerator.Duty.Cycle.Exceeded.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The status of the duty cycle of the generator usage, indicating if the generator has been on for too much time within a", + "is_big_endian": false, + "is_signed": false, + "states": { + "DutyCycleNotExceed": [0], + "DutyCycleExceed": [1], + "Error": [2], + "NotAvaiable": [3] + } + }, + "Voltage.Monitor.Active.Status" : { + "generic_name": "Voltage.Monitor.Active.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of Voltage Monitor Relay.", + "is_big_endian": false, + "is_signed": false, + "states": { + "MonitorIsOff": [0], + "MonitorIsOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Genset.Enable.Active.Status" : { + "generic_name": "Genset.Enable.Active.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the Genset Enable Relay that enables or disables the Genset.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotEnabled": [0], + "Enabled": [1], + "Error": [2], + "NotAvaialble": [3] + } + }, + "Reverse.Current.Range.Setting" : { + "generic_name": "Reverse.Current.Range.Setting", + "bit_position": 7, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "The operator setting for the Reverse Current.", + "is_big_endian": false, + "is_signed": false, + "states": { + "1": [0], + "2": [1], + "3": [2], + "4": [3], + "5": [4], + "6": [5], + "7": [6], + "8": [7], + "9": [8], + "10": [9], + "11": [10], + "12": [11], + "13": [12], + "14": [13], + "15": [14], + "16": [15], + "11101NotUsed": [16], + "Error": [30], + "NotAvailable": [31] + } + }, + "Genset.Softstart.Active.Status" : { + "generic_name": "Genset.Softstart.Active.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The Genset Softstart Active Status refers to the status of the genset softstart relay.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Grapple_.Magnet.Selection.Switch" : { + "generic_name": "Grapple_.Magnet.Selection.Switch", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This is a switch that can be used to select either the Grapple or Magnet function of the material handler machine.", + "is_big_endian": false, + "is_signed": false, + "states": { + "GrappleSelected": [0], + "MagnetSelected": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Gnst.Systm.Otpt.Voltage.Range.Status" : { + "generic_name": "Gnst.Systm.Otpt.Voltage.Range.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of generator voltage in or out of desired operating range.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OutOfRange": [0], + "InRange": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Generator.Overheat.Status" : { + "generic_name": "Generator.Overheat.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The Status of Generator being Overheated.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOverheat": [0], + "Overheat": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "64787": { + "comment": "Magnet System Configuration Information", + "length": 8, + "name": "MSCI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Magnet.Rated.Power" : { + "generic_name": "Magnet.Rated.Power", + "bit_position": 7, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "The rated power that the magnet can accept during material holding operations.", + "unit": "kW", + "is_big_endian": false, + "is_signed": false + }, + "Magnet.Boost.Time" : { + "generic_name": "Magnet.Boost.Time", + "bit_position": -1, + "bit_size": 8, + "factor": 0.25, + "offset": 0, + "min_value": 0, + "max_value": 62.5, + "comment": "The duration of time after the activation of the magnet circuit that a relatively high current is sent to the magnet for", + "unit": "s", + "is_big_endian": false, + "is_signed": false + } + } + }, + "38654": { + "comment": "Low Voltage Disconnect Set Operating Mode", + "length": 8, + "name": "LVDSOM", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Lw.Vltg.Dscnnct.Dsred.Operating.Mode" : { + "generic_name": "Lw.Vltg.Dscnnct.Dsred.Operating.Mode", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Desired Operating Mode of the LVD.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Automatic": [0], + "0011Reserved": [1], + "ManualDisconnect": [4], + "ManualConnect": [5], + "1110Reserved": [6], + "NoChange": [15] + } + } + } + }, + "64769": { + "comment": "Low Voltage Disconnect Status", + "length": 8, + "name": "LVDS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Low.Voltage.Disconnect.Temp" : { + "generic_name": "Low.Voltage.Disconnect.Temp", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Internal temperature of the LVD.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Lw.Vltg.Disconnect.Vout.Output.State" : { + "generic_name": "Lw.Vltg.Disconnect.Vout.Output.State", + "bit_position": 19, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "State of the Vout Output from the LVD.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OutputOffDisconnected": [0], + "OutputOnConnected": [1], + "DscnnctAlrmExprdOtptOffDscnnctd": [2], + "DisconnectPendingAlarmActive": [3], + "ConnectPendingAlarmActive": [4], + "1101Reserved": [5], + "OutputFault": [14], + "NotAvailableNotInstalled": [15] + } + }, + "Lw.Voltage.Disconnect.Output1.State" : { + "generic_name": "Lw.Voltage.Disconnect.Output1.State", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "State of the Output #1 from the LVD.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OutputOffDisconnected": [0], + "OutputOnConnected": [1], + "DscnnctAlrmExprdOtptOffDscnnctd": [2], + "DisconnectPendingAlarmActive": [3], + "ConnectPendingAlarmActive": [4], + "1101Reserved": [5], + "OutputFault": [14], + "NotAvailableNotInstalled": [15] + } + }, + "Lw.Voltage.Disconnect.Output2.State" : { + "generic_name": "Lw.Voltage.Disconnect.Output2.State", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "State of the Output #2 from the LVD.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OutputOffDisconnected": [0], + "OutputOnConnected": [1], + "DscnnctAlrmExprdOtptOffDscnnctd": [2], + "DisconnectPendingAlarmActive": [3], + "ConnectPendingAlarmActive": [4], + "1101Reserved": [5], + "OutputFault": [14], + "NotAvailableNotInstalled": [15] + } + }, + "Lw.Voltage.Disconnect.Output3.State" : { + "generic_name": "Lw.Voltage.Disconnect.Output3.State", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "State of the Output #3 from the LVD.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OutputOffDisconnected": [0], + "OutputOnConnected": [1], + "DscnnctAlrmExprdOtptOffDscnnctd": [2], + "DisconnectPendingAlarmActive": [3], + "ConnectPendingAlarmActive": [4], + "1101Reserved": [5], + "OutputFault": [14], + "NotAvailableNotInstalled": [15] + } + }, + "Lw.Vltg.Dscnnct.Crrnt.Operating.Mode" : { + "generic_name": "Lw.Vltg.Dscnnct.Crrnt.Operating.Mode", + "bit_position": 3, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Current operating mode of the LVD.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Automatic": [0], + "0011Reserved": [1], + "ManualDisconnectViaJ1939Rq": [4], + "ManualConnectViaJ1939Rq": [5], + "0111Reserved": [6], + "MnalDisconnectViaHardwiredInput": [8], + "ManualConnectViaHardwiredInput": [9], + "1110Reserved": [10], + "NotAvailable": [15] + } + }, + "Lw.Vltg.Dscnnct.Manual.Connect.State" : { + "generic_name": "Lw.Vltg.Dscnnct.Manual.Connect.State", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of the Manual Connect hardwired input to the LVD.", + "is_big_endian": false, + "is_signed": false, + "states": { + "InputOff": [0], + "InputOn": [1], + "Error": [2], + "NotInstalled": [3] + } + }, + "Lw.Vltg.Dscnnct.Mnl.Disconnect.State" : { + "generic_name": "Lw.Vltg.Dscnnct.Mnl.Disconnect.State", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of the Manual Disconnect hardwired input to the LVD.", + "is_big_endian": false, + "is_signed": false, + "states": { + "InputOff": [0], + "InputOn": [1], + "Error": [2], + "NotInstalled": [3] + } + } + } + }, + "64750": { + "comment": "Land Leveling System Reference Elevation Data", + "length": 8, + "name": "LLRE", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Bld.Rference.Elevation.Offset.Right" : { + "generic_name": "Bld.Rference.Elevation.Offset.Right", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": -32000, + "min_value": -32000, + "max_value": 32255, + "comment": "Indicates the blade's right elevation offset with respect to the reference elevation.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Bld.Reference.Elevation.Offset.Left" : { + "generic_name": "Bld.Reference.Elevation.Offset.Left", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": -32000, + "min_value": -32000, + "max_value": 32255, + "comment": "Indicates the blade's left elevation offset with respect to the reference elevation.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Blade.Elevation.Deviation.Right" : { + "generic_name": "Blade.Elevation.Deviation.Right", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": -32000, + "min_value": -32000, + "max_value": 32255, + "comment": "Indicate the blade's right elevation deviation with respect to the reference elevation.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Blade.Elevation.Deviation.Left" : { + "generic_name": "Blade.Elevation.Deviation.Left", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": -32000, + "min_value": -32000, + "max_value": 32255, + "comment": "Indicate the blade's left elevation deviation with respect to the reference elevation.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "39422": { + "comment": "Joystick Lamp Command Message", + "length": 8, + "name": "JLCM", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Joystick3.Lamp10.Cmd" : { + "generic_name": "Joystick3.Lamp10.Cmd", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 3 to switch on/off/blinking lamp 10.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick3.Lamp9.Cmd" : { + "generic_name": "Joystick3.Lamp9.Cmd", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 3 to switch on/off/blinking lamp 9.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick3.Lamp8.Cmd" : { + "generic_name": "Joystick3.Lamp8.Cmd", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 3 to switch on/off/blinking lamp 8.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick3.Lamp7.Cmd" : { + "generic_name": "Joystick3.Lamp7.Cmd", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 3 to switch on/off/blinking lamp 7.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick3.Lamp6.Cmd" : { + "generic_name": "Joystick3.Lamp6.Cmd", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 3 to switch on/off/blinking lamp 6.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick3.Lamp5.Cmd" : { + "generic_name": "Joystick3.Lamp5.Cmd", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 3 to switch on/off/blinking lamp 5.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick3.Lamp4.Cmd" : { + "generic_name": "Joystick3.Lamp4.Cmd", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 3 to switch on/off/blinking lamp 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick3.Lamp3.Cmd" : { + "generic_name": "Joystick3.Lamp3.Cmd", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 3 to switch on/off/blinking lamp 3.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick3.Lamp2.Cmd" : { + "generic_name": "Joystick3.Lamp2.Cmd", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 3 to switch on/off/blinking lamp 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick3.Lamp1.Cmd" : { + "generic_name": "Joystick3.Lamp1.Cmd", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 3 to switch on/off/blinking lamp 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick2.Lamp10.Cmd" : { + "generic_name": "Joystick2.Lamp10.Cmd", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 2 to switch on/off/blinking lamp 10.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick2.Lamp9.Cmd" : { + "generic_name": "Joystick2.Lamp9.Cmd", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 2 to switch on/off/blinking lamp 9.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick2.Lamp8.Cmd" : { + "generic_name": "Joystick2.Lamp8.Cmd", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 2 to switch on/off/blinking lamp 8.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick2.Lamp7.Cmd" : { + "generic_name": "Joystick2.Lamp7.Cmd", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 2 to switch on/off/blinking lamp 7.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick2.Lamp6.Cmd" : { + "generic_name": "Joystick2.Lamp6.Cmd", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 2 to switch on/off/blinking lamp 6.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick2.Lamp5.Cmd" : { + "generic_name": "Joystick2.Lamp5.Cmd", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 2 to switch on/off/blinking lamp 5.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick2.Lamp4.Cmd" : { + "generic_name": "Joystick2.Lamp4.Cmd", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 2 to switch on/off/blinking lamp 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick2.Lamp3.Cmd" : { + "generic_name": "Joystick2.Lamp3.Cmd", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 2 to switch on/off/blinking lamp 3.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick2.Lamp2.Cmd" : { + "generic_name": "Joystick2.Lamp2.Cmd", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 2 to switch on/off/blinking lamp 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick2.Lamp1.Cmd" : { + "generic_name": "Joystick2.Lamp1.Cmd", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 2 to switch on/off/blinking lamp 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick1.Lamp10.Cmd" : { + "generic_name": "Joystick1.Lamp10.Cmd", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 1 to switch on/off/blinking lamp 10.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick1.Lamp9.Cmd" : { + "generic_name": "Joystick1.Lamp9.Cmd", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 1 to switch on/off/blinking lamp 9.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick1.Lamp8.Cmd" : { + "generic_name": "Joystick1.Lamp8.Cmd", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 1 to switch on/off/blinking lamp 8.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick1.Lamp7.Cmd" : { + "generic_name": "Joystick1.Lamp7.Cmd", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 1 to switch on/off/blinking lamp 7.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick1.Lamp6.Cmd" : { + "generic_name": "Joystick1.Lamp6.Cmd", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 1 to switch on/off/blinking lamp 6.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick1.Lamp5.Cmd" : { + "generic_name": "Joystick1.Lamp5.Cmd", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 1 to switch on/off/blinking lamp 5.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick1.Lamp4.Cmd" : { + "generic_name": "Joystick1.Lamp4.Cmd", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 1 to switch on/off/blinking lamp 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick1.Lamp3.Cmd" : { + "generic_name": "Joystick1.Lamp3.Cmd", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 1 to switch on/off/blinking lamp 3.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick1.Lamp2.Cmd" : { + "generic_name": "Joystick1.Lamp2.Cmd", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 1 to switch on/off/blinking lamp 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Joystick1.Lamp1.Cmd" : { + "generic_name": "Joystick1.Lamp1.Cmd", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Tells joystick 1 to switch on/off/blinking lamp 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Blinking": [2], + "NotAvailableNotInstalled": [3] + } + } + } + }, + "64744": { + "comment": "Intake Valve Actuation Control", 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"signals" : { + "Eng.Turbo.Wastegate.Actuator2.Cmd" : { + "generic_name": "Eng.Turbo.Wastegate.Actuator2.Cmd", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The command to a Turbocharger Wastegate actuator 2, normalized to percent, where 0% nominally represents fully", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo.Wastegate.Actuator1.Cmd" : { + "generic_name": "Eng.Turbo.Wastegate.Actuator1.Cmd", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The ccommand to a Turbocharger Wastegate actuator 1, normalized to percent, where 0% nominally represents fully", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64753": { + "comment": "Engine Turbocharger Wastegate Actuator Information", + "length": 8, + "name": "EngTrbWstgteActuatorInformation", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Trb.Wstgt.Acttr2.Opration.Status" : { + "generic_name": "Eng.Trb.Wstgt.Acttr2.Opration.Status", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Used to identify the status of Engine Turbocharger Wastegate Actuator 2", + "is_big_endian": false, + "is_signed": false, + "states": { + "Normal": [0], + "Alarm": [1], + "AlarmHighSeverity": [2], + "DerateActive": [3], + "CtrlledShutdownActive": [4], + "UnCtrlledShutdownActive": [5], + "1101ReservedForFutureAssignment": [6], + "Error": [14] + } + }, + "Eng.Trb.Wstgt.Acttr1.Opration.Status" : { + "generic_name": "Eng.Trb.Wstgt.Acttr1.Opration.Status", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Used to identify the status of Engine Turbocharger Wastegate Actuator 1", + "is_big_endian": false, + "is_signed": false, + "states": { + "Normal": [0], + "Alarm": [1], + "AlarmHighSeverity": [2], + "DerateActive": [3], + "CtrlledShutdownActive": [4], + "UnCtrlledShutdownActive": [5], + "1101ReservedForFutureAssignment": [6], + "Error": [14] + } + }, + "Eng.Trb.Wstgte.Actuator2.Temp.Status" : { + "generic_name": "Eng.Trb.Wstgte.Actuator2.Temp.Status", + "bit_position": 4, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Used to identify the status of the Engine Turbocharger Wastegate Actuator 2 drive circuitry temperature.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HighMostSevere": [0], + "HighLeastSevere": [1], + "InRange": [2], + "LowLeastSevere": [3], + "LowMostSevere": [4], + "NotDefined": [5], + "Error": [6], + "NotAvailable": [7] + } + }, + "Eng.Trb.Wstgt.Acttr2.Preliminary.FMI" : { + "generic_name": "Eng.Trb.Wstgt.Acttr2.Preliminary.FMI", + "bit_position": -1, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the Engine Turbocharger Wastegate Actuator 2 by the", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64755": { + "comment": "Engine Turbocharger Compressor Bypass Information", + "length": 8, + "name": "EngTrbCmprssorBypassInformation", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Trb.Cmprssr.Bypss.Acttr2.Oprtn.Stts" : { + "generic_name": "Eng.Trb.Cmprssr.Bypss.Acttr2.Oprtn.Stts", + "bit_position": 27, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Used to identify the status of Engine Turbocharger Compressor Bypass Actuator 2", + "is_big_endian": false, + "is_signed": false, + "states": { + "Normal": [0], + "Alarm": [1], + "AlarmHighSeverity": [2], + "DerateActive": [3], + "CtrlledShutdownActive": [4], + "UnCtrlledShutdownActive": [5], + "1101ReservedForFutureAssignment": [6], + "Error": [14] + } + }, + "Eng.Trb.Cmprssr.Bypss.Acttr1.Oprtn.Stts" : { + "generic_name": "Eng.Trb.Cmprssr.Bypss.Acttr1.Oprtn.Stts", + "bit_position": 23, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Used to identify the status of Engine Turbocharger Compressor Bypass Actuator 1", + "is_big_endian": false, + "is_signed": false, + "states": { + "Normal": [0], + "Alarm": [1], + "AlarmHighSeverity": [2], + "DerateActive": [3], + "CtrlledShutdownActive": [4], + "UnCtrlledShutdownActive": [5], + "1101ReservedForFutureAssignment": [6], + "Error": [14] + } + }, + "Eng.Trb.Cmprssr.Bypss.Acttr2.Tmp.Stts" : { + "generic_name": "Eng.Trb.Cmprssr.Bypss.Acttr2.Tmp.Stts", + "bit_position": 20, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Used to identify the status of the Engine Turbocharger Compresssor Bypass Actuator 2 drive circuitry temperature.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HighMostSevere": [0], + "HighLeastSevere": [1], + "InRange": [2], + "LowLeastSevere": [3], + "LowMostSevere": [4], + "NotDefined": [5], + "Error": [6], + "NotAvailable": [7] + } + }, + "Eng.Trb.Cmprssr.Bypss.Acttr2.Prlmnry.FMI" : { + "generic_name": "Eng.Trb.Cmprssr.Bypss.Acttr2.Prlmnry.FMI", + "bit_position": 15, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the Engine Turbocharger Compressor Bypass Actuator 1 by the", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Dsrd.Trb.Cmprssr.Bypss.Acttr2.Pos" : { + "generic_name": "Eng.Dsrd.Trb.Cmprssr.Bypss.Acttr2.Pos", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The desired position of the Engine Turbocharger Compressor Bypass actuator 2 by the engine ECM, where 0%", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Trb.Cmprssr.Bypass.Actuator2.Pos" : { + "generic_name": "Eng.Trb.Cmprssr.Bypass.Actuator2.Pos", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Measures the position of the turbocharger compressor bypass actuator 2, where 0% represents bypass fully closed and", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "RprsntsBypssFllyOpnTypcllyCmprs": [4] + } + } + } + }, + "64754": { + "comment": "Engine Fuel/Throttle Valve Information", + "length": 8, + "name": "EngFelThrottleValveInformation", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Fuel.Valve2.Operation.Status" : { + "generic_name": "Eng.Fuel.Valve2.Operation.Status", + "bit_position": 59, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Used to identify the status of Engine Fuel Valve 2", + "is_big_endian": false, + "is_signed": false, + "states": { + "Normal": [0], + "Alarm": [1], + "AlarmHighSeverity": [2], + "DerateActive": [3], + "CtrlledShutdownActive": [4], + "UnCtrlledShutdownActive": [5], + "1101ReservedForFutureAssignment": [6], + "Error": [14] + } + }, + "Eng.Fuel.Valve1.Operation.Status" : { + "generic_name": "Eng.Fuel.Valve1.Operation.Status", + "bit_position": 55, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Used to identify the status of Engine Fuel Valve 1", + "is_big_endian": false, + "is_signed": false, + "states": { + "Normal": [0], + "Alarm": [1], + "AlarmHighSeverity": [2], + "DerateActive": [3], + "CtrlledShutdownActive": [4], + "UnCtrlledShutdownActive": [5], + "1101ReservedForFutureAssignment": [6], + "Error": [14] + } + }, + "Eng.Thrttle.Valve2.Operation.Status" : { + "generic_name": "Eng.Thrttle.Valve2.Operation.Status", + "bit_position": 51, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Used to identify the status of Engine Throttle Valve 2", + "is_big_endian": false, + "is_signed": false, + "states": { + "Normal": [0], + "Alarm": [1], + "AlarmHighSeverity": [2], + "DerateActive": [3], + "CtrlledShutdownActive": [4], + "UnCtrlledShutdownActive": [5], + "1101ReservedForFutureAssignment": [6], + "Error": [14] + } + }, + "Eng.Thrttle.Valve1.Operation.Status" : { + "generic_name": "Eng.Thrttle.Valve1.Operation.Status", + "bit_position": 47, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Used to identify the status of Engine Throttle Valve 1", + "is_big_endian": false, + "is_signed": false, + "states": { + "Normal": [0], + "Alarm": [1], + "AlarmHighSeverity": [2], + "DerateActive": [3], + "CtrlledShutdownActive": [4], + "UnCtrlledShutdownActive": [5], + "1101ReservedForFutureAssignment": [6], + "Error": [14], + "NotAvailable": [15] + } + }, + "Eng.Fuel.Valve2.Temp.Status" : { + "generic_name": "Eng.Fuel.Valve2.Temp.Status", + "bit_position": 44, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Used to identify the status of the Engine Fuel valve 2 drive circuitry temperature.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HighMostSevere": [0], + "HighLeastSevere": [1], + "InRange": [2], + "LowLeastSevere": [3], + "LowMostSevere": [4], + "NotDefined": [5], + "Error": [6], + "NotAvailable": [7] + } + }, + "Eng.Fuel.Valve2.Preliminary.FMI" : { + "generic_name": "Eng.Fuel.Valve2.Preliminary.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the Engine Fuel Valve 2 by the manufacturers software.", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Valve1.Temp.Status" : { + "generic_name": "Eng.Fuel.Valve1.Temp.Status", + "bit_position": 36, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Used to identify the status of the Engine Fuel valve 1 drive circuitry temperature.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HighMostSevere": [0], + "HighLeastSevere": [1], + "InRange": [2], + "LowLeastSevere": [3], + "LowMostSevere": [4], + "NotDefined": [5], + "Error": [6], + "NotAvailable": [7] + } + }, + "Eng.Fuel.Valve1.Preliminary.FMI" : { + "generic_name": "Eng.Fuel.Valve1.Preliminary.FMI", + "bit_position": 31, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the Engine Fuel Valve 1 by the manufacturers software.", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Throttle.Valve2.Temp.Status" : { + "generic_name": "Eng.Throttle.Valve2.Temp.Status", + "bit_position": 28, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Used to identify the status of the Engine Throttle Valve 2 drive circuitry temperature.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HighMostSevere": [0], + "HighLeastSevere": [1], + "InRange": [2], + "LowLeastSevere": [3], + "LowMostSevere": [4], + "NotDefined": [5], + "Error": [6], + "NotAvailable": [7] + } + }, + "Eng.Throttle.Valve2.Preliminary.FMI" : { + "generic_name": "Eng.Throttle.Valve2.Preliminary.FMI", + "bit_position": 23, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the Engine Throttle Valve 2 by the manufacturers software.", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Desired.Throttle.Valve2.Pos" : { + "generic_name": "Eng.Desired.Throttle.Valve2.Pos", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The desired position of the Throttle valve 2 that is regulating the fluid, usually air/fuel mixture to the engine as", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Throttle.Valve1.Temp.Status" : { + "generic_name": "Eng.Throttle.Valve1.Temp.Status", + "bit_position": 12, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Used to identify the status of the Engine Throttle Valve 1 drive circuitry temperature.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HighMostSevere": [0], + "HighLeastSevere": [1], + "InRange": [2], + "LowLeastSevere": [3], + "LowMostSevere": [4], + "NotDefined": [5], + "Error": [6], + "NotAvailable": [7] + } + }, + "Eng.Throttle.Valve1.Preliminary.FMI" : { + "generic_name": "Eng.Throttle.Valve1.Preliminary.FMI", + "bit_position": 7, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the appplicable J1939-73 FMI detected in the Engine Throttle Valve 1 by the manufacturers software.", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Desired.Throttle.Valve1.Pos" : { + "generic_name": "Eng.Desired.Throttle.Valve1.Pos", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The desired position of the Throttle valve 1 that is regulating the fluid, usually air/fuel mixture to the engine as", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64767": { + "comment": "Engine Temperature 5", + "length": 8, + "name": "ET5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhst.Gs.Rcrcltn2.Mxr.Intake.Temp" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltn2.Mxr.Intake.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The temperature of the EGR gas entering the intake of EGR2 system mixer.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Recirculation2.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Recirculation2.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of Recirculated Exhaust Gas of EGR2", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64776": { + "comment": "Engine oil message", + "length": 8, + "name": "EOM", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Oil.Relative.Dielectricity" : { + "generic_name": "Eng.Oil.Relative.Dielectricity", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0001220703125, + "offset": 0, + "min_value": 0, + "max_value": 7.844, + "comment": "Engine oil relative dielectricity used to describe the engine oil quality.", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Oil.Density" : { + "generic_name": "Eng.Oil.Density", + "bit_position": 15, + "bit_size": 16, + "factor": 0.00003052, + "offset": 0, + "min_value": 0, + "max_value": 1.961, + "comment": "Density of the engine oil", + "unit": "g/cc", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Oil.Viscosity" : { + "generic_name": "Eng.Oil.Viscosity", + "bit_position": -1, + "bit_size": 16, + "factor": 0.015625, + "offset": 0, + "min_value": 0, + "max_value": 1003.984375, + "comment": "Dynamic viscosity of the engine oil", + "unit": "Cp", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64763": { + "comment": "Engine Manifold Actuator Position", + "length": 8, + "name": "EMAP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhst.Mnfld.Bnk2.Flw.Blnc.Vlv.Acttr.Ps" : { + "generic_name": "Eng.Exhst.Mnfld.Bnk2.Flw.Blnc.Vlv.Acttr.Ps", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Actual percentage of maximum Engine Manifold Bank 2 Balance valve opening.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Mnfld.Bnk1.Flw.Blnc.Vlv.Acttr.Ps" : { + "generic_name": "Eng.Exhst.Mnfld.Bnk1.Flw.Blnc.Vlv.Acttr.Ps", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Actual percentage of maximum Engine Exhaust Manifold Bank 1 Balance valve opening.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "MeansMaxValveOpening": [4] + } + } + } + }, + "64764": { + "comment": "Engine Manifold Actuator Control", + "length": 8, + "name": "EMAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhst.Mnfld.Bnk2.Flw.Blnc.Vlv.Acttr.Ctrl" : { + "generic_name": "Eng.Exhst.Mnfld.Bnk2.Flw.Blnc.Vlv.Acttr.Ctrl", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Commanded percentage of maximum Engine Ehaust Manifold Bank 2 Balance valve opening.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "MeansMaxValveOpening": [4] + } + }, + "Eng.Exhst.Mnfld.Bnk1.Flw.Blnc.Vlv.Acttr.Ctrl" : { + "generic_name": "Eng.Exhst.Mnfld.Bnk1.Flw.Blnc.Vlv.Acttr.Ctrl", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Commanded percentage of maximum Engine Exhaust Manifold Bank 1 Balance valve opening.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64805": { + "comment": "Extended Joystick Message 9", + "length": 8, + "name": "EJM9", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Jystck9.Grip.XAxis.Detent.Pos.Status" : { + "generic_name": "Jystck9.Grip.XAxis.Detent.Pos.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck9.Grip.YAxis.Detent.Pos.Status" : { + "generic_name": "Jystck9.Grip.YAxis.Detent.Pos.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck9.Theta.Axis.Detent.Pos.Status" : { + "generic_name": "Jystck9.Theta.Axis.Detent.Pos.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Theta.Axis.Pos" : { + "generic_name": "Joystick9.Theta.Axis.Pos", + "bit_position": 37, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck9.Tht.Axs.Clckws.Pstv.Ps.Status" : { + "generic_name": "Jystck9.Tht.Axs.Clckws.Pstv.Ps.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck9.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts" : { + "generic_name": "Jystck9.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck9.Thta.Axis.Neutral.Pos.Status" : { + "generic_name": "Jystck9.Thta.Axis.Neutral.Pos.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Grip.YAxis.Pos" : { + "generic_name": "Joystick9.Grip.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck9.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts" : { + "generic_name": "Jystck9.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck9.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck9.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck9.Grp.YAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck9.Grp.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Grip.XAxis.Pos" : { + "generic_name": "Joystick9.Grip.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck9.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts" : { + "generic_name": "Jystck9.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck9.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck9.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck9.Grp.XAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck9.Grp.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64807": { + "comment": "Extended Joystick Message 8", + "length": 8, + "name": "EJM8", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Jystck8.Grip.XAxis.Detent.Pos.Status" : { + "generic_name": "Jystck8.Grip.XAxis.Detent.Pos.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck8.Grip.YAxis.Detent.Pos.Status" : { + "generic_name": "Jystck8.Grip.YAxis.Detent.Pos.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck8.Theta.Axis.Detent.Pos.Status" : { + "generic_name": "Jystck8.Theta.Axis.Detent.Pos.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Theta.Axis.Pos" : { + "generic_name": "Joystick8.Theta.Axis.Pos", + "bit_position": 37, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck8.Tht.Axs.Clckws.Pstv.Ps.Status" : { + "generic_name": "Jystck8.Tht.Axs.Clckws.Pstv.Ps.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck8.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts" : { + "generic_name": "Jystck8.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck8.Thta.Axis.Neutral.Pos.Status" : { + "generic_name": "Jystck8.Thta.Axis.Neutral.Pos.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Grip.YAxis.Pos" : { + "generic_name": "Joystick8.Grip.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck8.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts" : { + "generic_name": "Jystck8.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck8.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck8.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck8.Grp.YAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck8.Grp.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Grip.XAxis.Pos" : { + "generic_name": "Joystick8.Grip.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck8.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts" : { + "generic_name": "Jystck8.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck8.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck8.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck8.Grp.XAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck8.Grp.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64809": { + "comment": "Extended Joystick Message 7", + "length": 8, + "name": "EJM7", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Jystck7.Grip.XAxis.Detent.Pos.Status" : { + "generic_name": "Jystck7.Grip.XAxis.Detent.Pos.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck7.Grip.YAxis.Detent.Pos.Status" : { + "generic_name": "Jystck7.Grip.YAxis.Detent.Pos.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck7.Theta.Axis.Detent.Pos.Status" : { + "generic_name": "Jystck7.Theta.Axis.Detent.Pos.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Theta.Axis.Pos" : { + "generic_name": "Joystick7.Theta.Axis.Pos", + "bit_position": 37, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck7.Tht.Axs.Clckws.Pstv.Ps.Status" : { + "generic_name": "Jystck7.Tht.Axs.Clckws.Pstv.Ps.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck7.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts" : { + "generic_name": "Jystck7.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck7.Thta.Axis.Neutral.Pos.Status" : { + "generic_name": "Jystck7.Thta.Axis.Neutral.Pos.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Grip.YAxis.Pos" : { + "generic_name": "Joystick7.Grip.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck7.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts" : { + "generic_name": "Jystck7.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck7.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck7.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck7.Grp.YAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck7.Grp.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Grip.XAxis.Pos" : { + "generic_name": "Joystick7.Grip.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck7.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts" : { + "generic_name": "Jystck7.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck7.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck7.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck7.Grp.XAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck7.Grp.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64811": { + "comment": "Extended Joystick Message 6", + "length": 8, + "name": "EJM6", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Jystck6.Grip.XAxis.Detent.Pos.Status" : { + "generic_name": "Jystck6.Grip.XAxis.Detent.Pos.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck6.Grip.YAxis.Detent.Pos.Status" : { + "generic_name": "Jystck6.Grip.YAxis.Detent.Pos.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck6.Theta.Axis.Detent.Pos.Status" : { + "generic_name": "Jystck6.Theta.Axis.Detent.Pos.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Theta.Axis.Pos" : { + "generic_name": "Joystick6.Theta.Axis.Pos", + "bit_position": 37, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck6.Tht.Axs.Clckws.Pstv.Ps.Status" : { + "generic_name": "Jystck6.Tht.Axs.Clckws.Pstv.Ps.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck6.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts" : { + "generic_name": "Jystck6.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck6.Thta.Axis.Neutral.Pos.Status" : { + "generic_name": "Jystck6.Thta.Axis.Neutral.Pos.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Grip.YAxis.Pos" : { + "generic_name": "Joystick6.Grip.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck6.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts" : { + "generic_name": "Jystck6.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck6.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck6.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck6.Grp.YAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck6.Grp.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Grip.XAxis.Pos" : { + "generic_name": "Joystick6.Grip.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck6.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts" : { + "generic_name": "Jystck6.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck6.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck6.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck6.Grp.XAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck6.Grp.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64813": { + "comment": "Extended Joystick Message 5", + "length": 8, + "name": "EJM5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Jystck5.Grip.XAxis.Detent.Pos.Status" : { + "generic_name": "Jystck5.Grip.XAxis.Detent.Pos.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck5.Grip.YAxis.Detent.Pos.Status" : { + "generic_name": "Jystck5.Grip.YAxis.Detent.Pos.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck5.Theta.Axis.Detent.Pos.Status" : { + "generic_name": "Jystck5.Theta.Axis.Detent.Pos.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Theta.Axis.Pos" : { + "generic_name": "Joystick5.Theta.Axis.Pos", + "bit_position": 37, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck5.Tht.Axs.Clckws.Pstv.Ps.Status" : { + "generic_name": "Jystck5.Tht.Axs.Clckws.Pstv.Ps.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck5.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts" : { + "generic_name": "Jystck5.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck5.Thta.Axis.Neutral.Pos.Status" : { + "generic_name": "Jystck5.Thta.Axis.Neutral.Pos.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Grip.YAxis.Pos" : { + "generic_name": "Joystick5.Grip.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck5.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts" : { + "generic_name": "Jystck5.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck5.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck5.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck5.Grp.YAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck5.Grp.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Grip.XAxis.Pos" : { + "generic_name": "Joystick5.Grip.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck5.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts" : { + "generic_name": "Jystck5.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck5.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck5.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck5.Grp.XAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck5.Grp.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64815": { + "comment": "Extended Joystick Message 4", + "length": 8, + "name": "EJM4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Jystck4.Grip.XAxis.Detent.Pos.Status" : { + "generic_name": "Jystck4.Grip.XAxis.Detent.Pos.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck4.Grip.YAxis.Detent.Pos.Status" : { + "generic_name": "Jystck4.Grip.YAxis.Detent.Pos.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck4.Theta.Axis.Detent.Pos.Status" : { + "generic_name": "Jystck4.Theta.Axis.Detent.Pos.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Theta.Axis.Pos" : { + "generic_name": "Joystick4.Theta.Axis.Pos", + "bit_position": 37, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck4.Tht.Axs.Clckws.Pstv.Ps.Status" : { + "generic_name": "Jystck4.Tht.Axs.Clckws.Pstv.Ps.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck4.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts" : { + "generic_name": "Jystck4.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck4.Thta.Axis.Neutral.Pos.Status" : { + "generic_name": "Jystck4.Thta.Axis.Neutral.Pos.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Grip.YAxis.Pos" : { + "generic_name": "Joystick4.Grip.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck4.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts" : { + "generic_name": "Jystck4.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck4.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck4.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck4.Grp.YAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck4.Grp.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Grip.XAxis.Pos" : { + "generic_name": "Joystick4.Grip.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck4.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts" : { + "generic_name": "Jystck4.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck4.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck4.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck4.Grp.XAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck4.Grp.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64803": { + "comment": "Extended Joystick Message 10", + "length": 8, + "name": "EJM10", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Jystck10.Grp.XAxis.Detent.Pos.Status" : { + "generic_name": "Jystck10.Grp.XAxis.Detent.Pos.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck10.Grp.YAxis.Detent.Pos.Status" : { + "generic_name": "Jystck10.Grp.YAxis.Detent.Pos.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck10.Thta.Axis.Detent.Pos.Status" : { + "generic_name": "Jystck10.Thta.Axis.Detent.Pos.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Theta.Axis.Pos" : { + "generic_name": "Joystick10.Theta.Axis.Pos", + "bit_position": 37, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck10.Tht.Axs.Clckws.Pstv.Ps.Sttus" : { + "generic_name": "Jystck10.Tht.Axs.Clckws.Pstv.Ps.Sttus", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck10.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts" : { + "generic_name": "Jystck10.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck10.Tht.Axis.Neutral.Pos.Status" : { + "generic_name": "Jystck10.Tht.Axis.Neutral.Pos.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Grip.YAxis.Pos" : { + "generic_name": "Joystick10.Grip.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck10.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts" : { + "generic_name": "Jystck10.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck10.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Stts" : { + "generic_name": "Jystck10.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Stts", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck10.Grp.YAxs.Neutral.Pos.Status" : { + "generic_name": "Jystck10.Grp.YAxs.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Grip.XAxis.Pos" : { + "generic_name": "Joystick10.Grip.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck10.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts" : { + "generic_name": "Jystck10.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck10.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Stts" : { + "generic_name": "Jystck10.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Stts", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck10.Grp.XAxs.Neutral.Pos.Status" : { + "generic_name": "Jystck10.Grp.XAxs.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64752": { + "comment": "Engine Fuel/lube systems 2", + "length": 8, + "name": "EFS2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Fuel.Filter.Intake.Abs.Press" : { + "generic_name": "Eng.Fuel.Filter.Intake.Abs.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "Absolute pressure of fuel at the intake of the fuel filter (suction side) located between the fuel tank and the fuel supply", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64751": { + "comment": "Engine Fluid/Pressure 11", + "length": 8, + "name": "EFL_P11", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhst.Gs.Rcrcltn1.Intke.Abs.Press" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltn1.Intke.Abs.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "EGR intake absolute pressure measured before the EGR 1 valve.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64768": { + "comment": "Engine Fluid/Pressure 10", + "length": 8, + "name": "EFL_P10", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhst.Gs.Rcrcltn2.Intke.Abs.Press" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltn2.Intke.Abs.Press", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "EGR intake absolute pressure measured before the EGR 2 valve.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrcltn2.Otlet.Abs.Press" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltn2.Otlet.Abs.Press", + "bit_position": 23, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Absolute Pressure immediately after the EGR2 valve", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrcltion2.Intake.Press" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltion2.Intake.Press", + "bit_position": 15, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "EGR2 intake gauge pressure is measured after EGR2 cooler and before EGR2 valve", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrculation2.Diff.Press" : { + "generic_name": "Eng.Exhst.Gs.Rcrculation2.Diff.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 251.99, + "comment": "Differential Pressure across the Exhaust Gas Recirculation 2 (EGR2) system.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64765": { + "comment": "Electronic Engine Controller 9", + "length": 8, + "name": "EEC9", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Cmded.Eng.Fuel.Injection.Ctrl.Press" : { + "generic_name": "Cmded.Eng.Fuel.Injection.Ctrl.Press", + "bit_position": 47, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 251, + "comment": "Provides the commanded set point value for the engine fuel injection control pressure.", + "unit": "MPa", + "is_big_endian": false, + "is_signed": false + }, + "Cmded.Eng.Fuel.Rail.Press" : { + "generic_name": "Cmded.Eng.Fuel.Rail.Press", + "bit_position": 31, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 251, + "comment": "Provides the commanded set point value for the engine fuel rail pressure", + "unit": "MPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrculation2.Valve2.Pos" : { + "generic_name": "Eng.Exhst.Gs.Rcrculation2.Valve2.Pos", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The position of the second exhaust gas recirculation valve of EGR 2 expressed as a percentage of full travel.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcirculation2.Valve.Pos" : { + "generic_name": "Eng.Exhst.Gs.Rcirculation2.Valve.Pos", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Position of EGR2 valve expressed as a percentage of full travel.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64762": { + "comment": "Electronic Engine Controller 11", + "length": 8, + "name": "EEC11", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhst.Gs.Rcrclation2.Valve2.Ctrl" : { + "generic_name": "Eng.Exhst.Gs.Rcrclation2.Valve2.Ctrl", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Desired percentage of maximum Exhaust Gas Recirculation 2 (EGR2) valve 2 opening.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "MeansMaxOpening": [4] + } + }, + "Eng.Exhst.Gs.Rcrculation2.Valve.Ctrl" : { + "generic_name": "Eng.Exhst.Gs.Rcrculation2.Valve.Ctrl", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Desired percentage of maximum Exhaust Gas Recirculation 2 (EGR2) valve opening.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "MeansMaxOpening": [4] + } + } + } + }, + "64766": { + "comment": "Electronic Engine Controller 10", + "length": 8, + "name": "EEC10", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "E.GR2.Cooler.Bypass.Actuator.Pos" : { + "generic_name": "E.GR2.Cooler.Bypass.Actuator.Pos", + "bit_position": 39, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "EGR2 Cooler Bypass Actuator position, where 0% = Fully Closed (no gas flowing through the bypass), and 100% = Fully", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrcltn2.Clr.Efficiency" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltn2.Clr.Efficiency", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Exhaust Gas Recirculation 2 cooler efficiency is an indication of the cooler's ability to reduce the temperature of the", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrcltn2.Clr.Intk.Gs.Abs.Prss" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltn2.Clr.Intk.Gs.Abs.Prss", + "bit_position": 15, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Exhaust Gas Recirculation 2 gas absolute pressure is measured at EGR2 cooler intake.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrcltn2.Clr.Intake.Temp" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltn2.Clr.Intake.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Exhaust Gas Recirculation 2 (EGR2) Temperature measured at EGR2 cooler intake.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64743": { + "comment": "Engine Configuration 3", + "length": 8, + "name": "EC3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Frctn.Prcnt.Torque.At.Idle.Point7" : { + "generic_name": "Eng.Frctn.Prcnt.Torque.At.Idle.Point7", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The static portion of the friction torque at speed point 7 (SPN 533) of the engine torque map in the engine configuration", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Frctn.Prcnt.Torque.At.Idle.Point6" : { + "generic_name": "Eng.Frctn.Prcnt.Torque.At.Idle.Point6", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "For engine configuration map modes 1 and 2, this is the static portion of the friction torque at speed point 6 (SPN 532) of", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Frctn.Prcnt.Torque.At.Idle.Point5" : { + "generic_name": "Eng.Frctn.Prcnt.Torque.At.Idle.Point5", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The static portion of the friction torque at speed point 5 (SPN 531) of the engine torque map in the engine configuration", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Frctn.Prcnt.Torque.At.Idle.Point4" : { + "generic_name": "Eng.Frctn.Prcnt.Torque.At.Idle.Point4", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The static portion of the friction torque at speed point 4 (SPN 530) of the engine torque map in the engine configuration", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Frctn.Prcnt.Torque.At.Idle.Point3" : { + "generic_name": "Eng.Frctn.Prcnt.Torque.At.Idle.Point3", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The static portion of the friction torque at speed point 3 (SPN 529) of the engine torque map in the engine configuration", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Frctn.Prcnt.Torque.At.Idle.Point2" : { + "generic_name": "Eng.Frctn.Prcnt.Torque.At.Idle.Point2", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The static portion of the friction torque at speed point 2 (SPN 528) of the engine torque map in the engine configuration", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Frctn.Prcnt.Torque.At.Idle.Point1" : { + "generic_name": "Eng.Frctn.Prcnt.Torque.At.Idle.Point1", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The static portion of the friction torque at speed point 1 (SPN 188) of the engine torque map in the engine configuration", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64892": { + "comment": "Diesel Particulate Filter Control 1", + "length": 8, + "name": "DPFC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Frcd.Stts" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Frcd.Stts", + "bit_position": 52, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Indicates the forced execution status of diesel particulate filter regeneration.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotActive": [0], + "ActiveForcedBySwitch": [1], + "ActiveForcedByServiceTool": [2], + "ReservedForSAEAssignment": [6], + "notAvailable": [7] + } + }, + "Exhaust.System.High.Temp.Lamp.Cmd" : { + "generic_name": "Exhaust.System.High.Temp.Lamp.Cmd", + "bit_position": 49, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Command to control the exhaust system high temperature lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "OnSolid": [1], + "reservedForSAEAssignment": [6], + "notAvailable": [7] + } + }, + "Dsl.Prtclt.Fltr.Atmtc.Actv.Rgnrtn.Inttn.Cnfg" : { + "generic_name": "Dsl.Prtclt.Fltr.Atmtc.Actv.Rgnrtn.Inttn.Cnfg", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the configuration of diesel particulate filter active regeneration automatic initiation.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notEnabled": [0], + "enabled": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTVhcl.Spd.Blw.Allwd" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTVhcl.Spd.Blw.Allwd", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Speed", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTEng.Nt.Wrmd.Up" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTEng.Nt.Wrmd.Up", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition due to the engine not being warmed up.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTPrmnnt.Systm.Lckt" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTPrmnnt.Systm.Lckt", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition due to a permanent system lockout.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTTmprry.Systm.Lckt" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTTmprry.Systm.Lckt", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition due to a temporary system lockout.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTSystm.Tmt" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTSystm.Tmt", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition due to a system timeout.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTSystm.Flt.Actv" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTSystm.Flt.Actv", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition due to a system fault being active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTLw.Exhst.Gs.Tmp" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTLw.Exhst.Gs.Tmp", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition due to the exhaust gas temperature being too", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTPrkng.Brk.Nt.St" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTPrkng.Brk.Nt.St", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition due to the parking brake being not set.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTVhcl.Spd.Abv.Allwd" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTVhcl.Spd.Abv.Allwd", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Speed", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTOt.Of.Ntrl" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTOt.Of.Ntrl", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition due to the transmission being out of neutral.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTAccl.Pdl.Off.Idl" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTAccl.Pdl.Off.Idl", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition due to the accelerator pedal being off idle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTPTOActv" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTPTOActv", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition due to the PTO being active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTSrvc.Brk.Actv" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTSrvc.Brk.Actv", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition due to the service brake being active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTCltch.Dsnggd" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTCltch.Dsnggd", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition due to the clutch being disengaged.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTInhbt.Swtch" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.DTInhbt.Swtch", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition due to the Diesel Particulate Filter Regeneration", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.Stts" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtn.Inhbtd.Stts", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration inhibition.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notInhibited": [0], + "inhibited": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Diesel.Particulate.Filter.Status" : { + "generic_name": "Diesel.Particulate.Filter.Status", + "bit_position": 11, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Indicates the state of the diesel particulate filter regeneration need and urgency.", + "is_big_endian": false, + "is_signed": false, + "states": { + "RegenerationNotNeeded": [0], + "RegenerationNeededLowestLevel": [1], + "RegenerationNeededModerateLevel": [2], + "RegenerationNeededHighestLevel": [3], + "reservedForSAEAssignment": [6], + "notAvailable": [7] + } + }, + "Dsl.Prtclt.Fltr.Actv.Rgnrtion.Status" : { + "generic_name": "Dsl.Prtclt.Fltr.Actv.Rgnrtion.Status", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter active regeneration.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "rgnrtnNddAtmtcllyInttdActvRgnrt": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Pssv.Rgnrtion.Status" : { + "generic_name": "Dsl.Prtclt.Fltr.Pssv.Rgnrtion.Status", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of diesel particulate filter passive regeneration.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Diesel.Particulate.Filter.Lamp.Cmd" : { + "generic_name": "Diesel.Particulate.Filter.Lamp.Cmd", + "bit_position": -1, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Command to control the diesel particulate filter lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "OnSolid": [1], + "OnFastBlink": [4], + "reservedForSAEAssignment": [6], + "notAvailable": [7] + } + } + } + }, + "64760": { + "comment": "Diesel Particulate Filter 2 Soot 2", + "length": 8, + "name": "DPF2S2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Dsl.Prtclate.Filter2.Soot.Signal.Min" : { + "generic_name": "Dsl.Prtclate.Filter2.Soot.Signal.Min", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Minimum output signal level of the current soot measurement from diesel particulate filter 2 soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prtclate.Filter2.Soot.Signal.Max" : { + "generic_name": "Dsl.Prtclate.Filter2.Soot.Signal.Max", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Maximum output signal level of the current soot measurement from diesel particulate filter 2 soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prtclt.Fltr2.St.Sgnl.Stndrd.Dvton" : { + "generic_name": "Dsl.Prtclt.Fltr2.St.Sgnl.Stndrd.Dvton", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Standard deviation of the soot measurement from diesel particulate filter 2 soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64795": { + "comment": "Diesel Particulate Filter 2 Soot", + "length": 8, + "name": "DPF2S", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Dsl.Prtclt.Fltr2.St.Snsr.Prlmnary.FMI" : { + "generic_name": "Dsl.Prtclt.Fltr2.St.Snsr.Prlmnary.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the soot sensor signal by the manufacturer's sensor control", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prtclt.Flter2.Median.Soot.Signal" : { + "generic_name": "Dsl.Prtclt.Flter2.Median.Soot.Signal", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Median output signal level from diesel particulate filter 2 soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prtclte.Filter2.Mean.Soot.Signal" : { + "generic_name": "Dsl.Prtclte.Filter2.Mean.Soot.Signal", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Mean output signal level from diesel particulate filter 2 soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prticulate.Filter2.Soot.Density" : { + "generic_name": "Dsl.Prticulate.Filter2.Soot.Density", + "bit_position": 7, + "bit_size": 8, + "factor": 0.08, + "offset": 0, + "min_value": 0, + "max_value": 20, + "comment": "Soot density in diesel particulate filter 2.", + "unit": "g/L", + "is_big_endian": false, + "is_signed": false + }, + "Desel.Particulate.Filter2.Soot.Mass" : { + "generic_name": "Desel.Particulate.Filter2.Soot.Mass", + "bit_position": -1, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Soot mass in diesel particulate filter 2.", + "unit": "g", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64761": { + "comment": "Diesel Particulate Filter 1 Soot 2", + "length": 8, + "name": "DPF1S2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Dsl.Prtclate.Filter1.Soot.Signal.Min" : { + "generic_name": "Dsl.Prtclate.Filter1.Soot.Signal.Min", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Minimum output signal level of the current soot measurement from diesel particulate filter 1 soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prtclate.Filter1.Soot.Signal.Max" : { + "generic_name": "Dsl.Prtclate.Filter1.Soot.Signal.Max", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Maximum output signal level of the current soot measurement from diesel particulate filter 1 soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prtclt.Fltr1.St.Sgnl.Stndrd.Dvton" : { + "generic_name": "Dsl.Prtclt.Fltr1.St.Sgnl.Stndrd.Dvton", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Standard deviation of the soot measurement from diesel particulate filter 1 soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64796": { + "comment": "Diesel Particulate Filter 1 Soot", + "length": 8, + "name": "DPF1S", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Dsl.Prtclt.Fltr1.St.Snsr.Prlmnary.FMI" : { + "generic_name": "Dsl.Prtclt.Fltr1.St.Snsr.Prlmnary.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the soot sensor signal by the manufacturer's sensor control", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prtclt.Flter1.Median.Soot.Signal" : { + "generic_name": "Dsl.Prtclt.Flter1.Median.Soot.Signal", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Median output signal level from diesel particulate filter 1 soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prtclte.Filter1.Mean.Soot.Signal" : { + "generic_name": "Dsl.Prtclte.Filter1.Mean.Soot.Signal", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Mean output signal level from diesel particulate filter 1 soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prticulate.Filter1.Soot.Density" : { + "generic_name": "Dsl.Prticulate.Filter1.Soot.Density", + "bit_position": 7, + "bit_size": 8, + "factor": 0.08, + "offset": 0, + "min_value": 0, + "max_value": 20, + "comment": "Soot density in diesel particulate filter 1.", + "unit": "g/L", + "is_big_endian": false, + "is_signed": false + }, + "Desel.Particulate.Filter1.Soot.Mass" : { + "generic_name": "Desel.Particulate.Filter1.Soot.Mass", + "bit_position": -1, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Soot mass in diesel particulate filter 1.", + "unit": "g", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64772": { + "comment": "Direct Lamp Control Data 2", + "length": 8, + "name": "DLCD2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Vehicle.Battery.Charging.Lamp.Data" : { + "generic_name": "Vehicle.Battery.Charging.Lamp.Data", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Vehicle Battery Charging Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Vhicle.HVACRecirculation.Lamp.Data" : { + "generic_name": "Vhicle.HVACRecirculation.Lamp.Data", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Vehicle HVAC Recirculation Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Vehicle.Air.Press.Low.Lamp.Data" : { + "generic_name": "Vehicle.Air.Press.Low.Lamp.Data", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Vehicle Air Pressure Low Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Vehicle.Fuel.Level.Low.Lamp.Data" : { + "generic_name": "Vehicle.Fuel.Level.Low.Lamp.Data", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from theVehicle Fuel Level Low Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Vhicle.Battery.Voltage.Low.Lamp.Data" : { + "generic_name": "Vhicle.Battery.Voltage.Low.Lamp.Data", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Vehicle Battery Voltage Low Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "64773": { + "comment": "Direct Lamp Control Data 1", + "length": 8, + "name": "DLCD1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Wait.To.Start.Lamp.Data" : { + "generic_name": "Eng.Wait.To.Start.Lamp.Data", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Engine Wait To Start Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactive": [0], + "LampActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Fuel.Filter.Restricted.Lamp.Data" : { + "generic_name": "Eng.Fuel.Filter.Restricted.Lamp.Data", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Vehicle Fuel Filter Restricted Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Air.Filter.Restriction.Lamp.Data" : { + "generic_name": "Eng.Air.Filter.Restriction.Lamp.Data", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Engine Air Filter Restriction Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Idle.Management.Active.Lamp.Data" : { + "generic_name": "Eng.Idle.Management.Active.Lamp.Data", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Engine Idle Management Active Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Coolant.Level.Low.Lamp.Data" : { + "generic_name": "Eng.Coolant.Level.Low.Lamp.Data", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Engine Coolant Level Low Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Coolant.Temp.High.Lamp.Data" : { + "generic_name": "Eng.Coolant.Temp.High.Lamp.Data", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Engine Coolant Temperature High Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Oil.Press.Low.Lamp.Data" : { + "generic_name": "Eng.Oil.Press.Low.Lamp.Data", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Engine Oil Pressure Low Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Cmprssn.Brk.Enbl.Swtch.Indctr.Lmp.Dta" : { + "generic_name": "Cmprssn.Brk.Enbl.Swtch.Indctr.Lmp.Dta", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Compression Brake Enable Switch Indicator Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Brake.Active.Lamp.Data" : { + "generic_name": "Eng.Brake.Active.Lamp.Data", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Engine Brake Active Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "O.BDMalfunction.Indicator.Lamp.Data" : { + "generic_name": "O.BDMalfunction.Indicator.Lamp.Data", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the OBD Malfunction Indicator Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Red.Stop.Lamp.Data" : { + "generic_name": "Eng.Red.Stop.Lamp.Data", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Engine Red Stop Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Amber.Warning.Lamp.Data" : { + "generic_name": "Eng.Amber.Warning.Lamp.Data", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Engine Amber Warning Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Protect.Lamp.Data" : { + "generic_name": "Eng.Protect.Lamp.Data", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the Engine Protect Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampDeactivated": [0], + "LampActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "64774": { + "comment": "Direct Lamp Control Command 2", + "length": 8, + "name": "DLCC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Vehicle.Battery.Charging.Lamp.Cmd" : { + "generic_name": "Vehicle.Battery.Charging.Lamp.Cmd", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Vehicle Battery Charging Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Vehicle.HVACRecirculation.Lamp.Cmd" : { + "generic_name": "Vehicle.HVACRecirculation.Lamp.Cmd", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Vehicle HVAC Recirculation Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Vehicle.Air.Press.Low.Lamp.Cmd" : { + "generic_name": "Vehicle.Air.Press.Low.Lamp.Cmd", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Vehicle Air Pressure Low Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Vehicle.Fuel.Level.Low.Lamp.Cmd" : { + "generic_name": "Vehicle.Fuel.Level.Low.Lamp.Cmd", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Vehicle Fuel Level Low Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Vehicle.Battery.Voltage.Low.Lamp.Cmd" : { + "generic_name": "Vehicle.Battery.Voltage.Low.Lamp.Cmd", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Vehicle Battery Voltage Low Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + } + } + }, + "41726": { + "comment": "DM32 provides the DTCs and associated timers", + "length": 8, + "name": "DM32", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "D.TCTime.Until.Derate" : { + "generic_name": "D.TCTime.Until.Derate", + "bit_position": 55, + "bit_size": 8, + "factor": 0.25, + "offset": 0, + "min_value": 0, + "max_value": 62.5, + "comment": "This timer provides the number of hours the malfunction has until the OBD required derate will occur", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "D.TCTotal.Previously.Active.Time" : { + "generic_name": "D.TCTotal.Previously.Active.Time", + "bit_position": 39, + "bit_size": 16, + "factor": 0.2, + "offset": 0, + "min_value": 0, + "max_value": 12851, + "comment": "This timer provides the number of hours the NOx malfunction has been confirmed and previously active", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "D.TCTotal.Active.Time" : { + "generic_name": "D.TCTotal.Active.Time", + "bit_position": 23, + "bit_size": 16, + "factor": 0.2, + "offset": 0, + "min_value": 0, + "max_value": 12851, + "comment": "This timer provides the total number of hours the DTC has been confirmed and active", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Failure.Mode.Identifier1" : { + "generic_name": "Failure.Mode.Identifier1", + "bit_position": 15, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "The FMI defines the type of failure detected in the subsystem identified by an SPN.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Above normal (most severe)": [0], + "Below normal (most severe)": [1], + "Data erratic": [2], + "Voltage above normal": [3], + "Voltage below normal": [4], + "Current below normal": [5], + "Current above normal": [6], + "Mechanical system not responding": [7], + "Abnormal frequency": [8], + "Abnormal update rate": [9], + "Abnormal rate of change": [10], + "Root cause not known": [11], + "Bad intelligent device": [12], + "Out of calibration": [13], + "Special intstructions": [14], + "Above normal (least severe)": [15], + "Above normal (moderately severe)": [16], + "Below normal (least severe)": [17], + "Below normal (moderately severe)": [18], + "Received network data in error": [19], + "Not available": [31] + } + }, + "S.PN1.High" : { + "generic_name": "S.PN1.High", + "bit_position": 20, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "SPN #1 (Conversion Version 4)", + "is_big_endian": false, + "is_signed": false + }, + "SPN1" : { + "generic_name": "SPN1", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65536, + "comment": "SPN #1 (Conversion Version 4)", + "is_big_endian": false, + "is_signed": false + } + } + }, + "43262": { + "comment": "Text Display", + "length": 8, + "name": "DISP1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Text.Display.Index" : { + "generic_name": "Text.Display.Index", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Text.Display.Instructions" : { + "generic_name": "Text.Display.Instructions", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter describes the status for the display how to show the information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ClrDsplyDsplydInfrmtnShldBDltdN": [0], + "HldDsplyPrsntlyDsplydInfrmtnShl": [1], + "AppndAtEndOfDsplyTrnsmttdInfrmt": [2], + "OvrwrtDsplyPrsntlyDsplydInfrmtn": [3], + "OvrwrtSbstrngAPrtnOfPrsntlyDspl": [4], + "HighlightSubstring": [5], + "BlinkSubstring": [6], + "1110Reserved": [7], + "NotApplicable": [15] + } + } + } + }, + "64880": { + "comment": "Door ramp control", + "length": 8, + "name": "DRC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Retract.Status.Of.Ramp5" : { + "generic_name": "Retract.Status.Of.Ramp5", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Retract status of ramp at doorway 5, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampRetracted": [0], + "rampEx": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Retract.Status.Of.Ramp4" : { + "generic_name": "Retract.Status.Of.Ramp4", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Retract status of ramp at doorway 4, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampRetracted": [0], + "rampEx": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Movement.Status.Of.Ramp5" : { + "generic_name": "Movement.Status.Of.Ramp5", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Movement status of ramp at doorway 5, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampNotBeingMoved": [0], + "rampBeingMoved": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Movement.Status.Of.Ramp4" : { + "generic_name": "Movement.Status.Of.Ramp4", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Movement status of ramp at doorway 4, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampNotBeingMoved": [0], + "rampBeingMoved": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Ramp5" : { + "generic_name": "Enable.Status.Of.Ramp5", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of ramp at doorway 5, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampDisabled": [0], + "rampEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Ramp4" : { + "generic_name": "Enable.Status.Of.Ramp4", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of ramp at doorway 4, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampDisabled": [0], + "rampEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Movement.Status.Of.Ramp3" : { + "generic_name": "Movement.Status.Of.Ramp3", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Movement status of ramp at doorway 3, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampNotBeingMoved": [0], + "rampBeingMoved": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Ramp3" : { + "generic_name": "Enable.Status.Of.Ramp3", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of ramp at doorway 3, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampDisabled": [0], + "rampEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Retract.Status.Of.Ramp3" : { + "generic_name": "Retract.Status.Of.Ramp3", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Retract status of ramp at doorway 3, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampRetracted": [0], + "rampEx": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Movement.Status.Of.Ramp2" : { + "generic_name": "Movement.Status.Of.Ramp2", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Movement status of ramp at doorway 2, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampNotBeingMoved": [0], + "rampBeingMoved": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Ramp2" : { + "generic_name": "Enable.Status.Of.Ramp2", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of ramp at doorway 2, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampDisabled": [0], + "rampEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Retract.Status.Of.Ramp2" : { + "generic_name": "Retract.Status.Of.Ramp2", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Retract status of ramp at doorway 2, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampRetracted": [0], + "rampEx": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Movement.Status.Of.Ramp1" : { + "generic_name": "Movement.Status.Of.Ramp1", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Movement status of ramp at doorway 1, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampNotBeingMoved": [0], + "rampBeingMoved": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Ramp1" : { + "generic_name": "Enable.Status.Of.Ramp1", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of ramp at doorway 1, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampDisabled": [0], + "rampEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Retract.Status.Of.Ramp1" : { + "generic_name": "Retract.Status.Of.Ramp1", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Retract status of ramp at doorway 1, counting from front to back on the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "rampRetracted": [0], + "rampEx": [1], + "error": [2], + "notAvailable": [3] + } + } + } + }, + "64895": { + "comment": "Engine Configuration 2", + "length": 8, + "name": "EC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Max.Crank.Attempts.Per.Start.Attempt" : { + "generic_name": "Max.Crank.Attempts.Per.Start.Attempt", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The number of cranking cycles that will be performed before ending the start attempt.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64916": { + "comment": "Electronic Engine Controller 7", + "length": 8, + "name": "EEC7", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhst.Gs.Rcrculation1.Valve2.Pos" : { + "generic_name": "Eng.Exhst.Gs.Rcrculation1.Valve2.Pos", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The position of the second exhaust gas recirculation valve expressed as a percentage of full travel.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcirculation1.Valve.Pos" : { + "generic_name": "Eng.Exhst.Gs.Rcirculation1.Valve.Pos", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The position of the exhaust gas recirculation valve expressed as a percentage of full travel.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Crnkcs.Brthr.Oil.Separator.Speed" : { + "generic_name": "Eng.Crnkcs.Brthr.Oil.Separator.Speed", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The speed of a rotating (centrifugal) crankcase oil separator.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Cmded.Eng.Intake.Manifold.Press" : { + "generic_name": "Cmded.Eng.Intake.Manifold.Press", + "bit_position": 47, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Provides the commanded set point value for the engine intake manifold pressure.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64879": { + "comment": "Electronic Engine Controller 8", + "length": 8, + "name": "EEC8", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhst.Gs.Rcrcltn1.Clr.Intk.Gs.Abs.Prss" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltn1.Clr.Intk.Gs.Abs.Prss", + "bit_position": 31, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Exhaust Gas Recirculation gas absolute pressure is measured at the EGR cooler intake.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrcltn1.Clr.Intake.Temp" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltn1.Clr.Intake.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Exhaust Gas Recirculation (EGR) Temperature measured at the EGR cooler intake.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrcltn1.Clr.Efficiency" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltn1.Clr.Efficiency", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Exhaust Gas Recirculation cooler efficiency is an indication of the cooler's ability to reduce the temperature of the exhaust", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrclation1.Valve2.Ctrl" : { + "generic_name": "Eng.Exhst.Gs.Rcrclation1.Valve2.Ctrl", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Desired percentage of maximum Exhaust Gas Recirculation (EGR) valve opening for valve 2.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "MeansMaxValveOpening": [4] + } + } + } + }, + "64904": { + "comment": "Engine Fluid Level/Pressure 5", + "length": 8, + "name": "EFL_P5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl4" : { + "generic_name": "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl4", + "bit_position": 47, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #4.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl3" : { + "generic_name": "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl3", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #3.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl2" : { + "generic_name": "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #2.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl1" : { + "generic_name": "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl1", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #1.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64903": { + "comment": "Engine Fluid Level/Pressure 6", + "length": 8, + "name": "EFL_P6", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl8" : { + "generic_name": "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl8", + "bit_position": 47, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #8.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl7" : { + "generic_name": "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl7", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #7.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl6" : { + "generic_name": "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl6", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #6.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl5" : { + "generic_name": "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl5", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #5.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64902": { + "comment": "Engine Fluid Level/Pressure 7", + "length": 8, + "name": "EFL_P7", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl12" : { + "generic_name": "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl12", + "bit_position": 47, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #12.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl11" : { + "generic_name": "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl11", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #11.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl10" : { + "generic_name": "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl10", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #10.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl9" : { + "generic_name": "Eng.Intk.Vlv.Actton.Oil.Press.For.Cyl9", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #9.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64901": { + "comment": "Engine Fluid Level/Pressure 8", + "length": 8, + "name": "EFL_P8", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl16" : { + "generic_name": "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl16", + "bit_position": 47, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #16.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl15" : { + "generic_name": "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl15", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #15.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl14" : { + "generic_name": "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl14", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #14.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl13" : { + "generic_name": "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl13", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #13.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64900": { + "comment": "Engine Fluid Level/Pressure 9", + "length": 8, + "name": "EFL_P9", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl20" : { + "generic_name": "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl20", + "bit_position": 47, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #20.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl19" : { + "generic_name": "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl19", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #19.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl18" : { + "generic_name": "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl18", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #18.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl17" : { + "generic_name": "Eng.Intk.Vlv.Acttn.Oil.Press.For.Cyl17", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The gage pressure of the oil in the hydraulic accumulator that powers the engine intake valve for cylinder #17.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64897": { + "comment": "EGR Cooler Bypass", + "length": 8, + "name": "EGRBV", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "E.GR1.Cooler.Bypass.Actuator.Postion" : { + "generic_name": "E.GR1.Cooler.Bypass.Actuator.Postion", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The parameter gives the % open of the EGR Cooler Bypass Actuator, where 0% = Fully Closed (no gas flowing through", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64887": { + "comment": "Engine Spark Voltage 1", + "length": 8, + "name": "ESV1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Spark.Plug4" : { + "generic_name": "Eng.Spark.Plug4", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #4", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug3" : { + "generic_name": "Eng.Spark.Plug3", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #3", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug2" : { + "generic_name": "Eng.Spark.Plug2", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #2", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug1" : { + "generic_name": "Eng.Spark.Plug1", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #1", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64886": { + "comment": "Engine Spark Voltage 2", + "length": 8, + "name": "ESV2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Spark.Plug8" : { + "generic_name": "Eng.Spark.Plug8", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #8", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug7" : { + "generic_name": "Eng.Spark.Plug7", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #7", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug6" : { + "generic_name": "Eng.Spark.Plug6", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #6", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug5" : { + "generic_name": "Eng.Spark.Plug5", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #5", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64885": { + "comment": "Engine Spark Voltage 3", + "length": 8, + "name": "ESV3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Spark.Plug12" : { + "generic_name": "Eng.Spark.Plug12", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #12", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug11" : { + "generic_name": "Eng.Spark.Plug11", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #11", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug10" : { + "generic_name": "Eng.Spark.Plug10", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #10", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug9" : { + "generic_name": "Eng.Spark.Plug9", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #9", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64884": { + "comment": "Engine Spark Voltage 4", + "length": 8, + "name": "ESV4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Spark.Plug16" : { + "generic_name": "Eng.Spark.Plug16", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #16", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug15" : { + "generic_name": "Eng.Spark.Plug15", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #15", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug14" : { + "generic_name": "Eng.Spark.Plug14", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #14", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug13" : { + "generic_name": "Eng.Spark.Plug13", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #13", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64883": { + "comment": "Engine Spark Voltage 5", + "length": 8, + "name": "ESV5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Spark.Plug20" : { + "generic_name": "Eng.Spark.Plug20", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #20", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug19" : { + "generic_name": "Eng.Spark.Plug19", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #19", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug18" : { + "generic_name": "Eng.Spark.Plug18", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #18", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug17" : { + "generic_name": "Eng.Spark.Plug17", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #17", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64882": { + "comment": "Engine Spark Voltage 6", + "length": 8, + "name": "ESV6", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Spark.Plug24" : { + "generic_name": "Eng.Spark.Plug24", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #24", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug23" : { + "generic_name": "Eng.Spark.Plug23", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #23", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug22" : { + "generic_name": "Eng.Spark.Plug22", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #22", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Spark.Plug21" : { + "generic_name": "Eng.Spark.Plug21", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The measured voltage of the spark event on Cylinder #21", + "unit": "Volts", + "is_big_endian": false, + "is_signed": false + } + } + }, + "43518": { + "comment": "Forward Lane Image Command", + "length": 8, + "name": "FLIC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Lane.Departure.Warning.Enable.Cmd" : { + "generic_name": "Lane.Departure.Warning.Enable.Cmd", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to enable/disable Lane Departure Indication", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisableLaneDepartureWarning": [0], + "EnableLaneDepartureWarning": [1], + "Reserved": [2], + "DonTCare": [3] + } + } + } + }, + "64906": { + "comment": "SAE J2012 DTC Display", + "length": 8, + "name": "J2012", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "J2012.DTCOccurrence.Count" : { + "generic_name": "J2012.DTCOccurrence.Count", + "bit_position": 48, + "bit_size": 7, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 127, + "comment": "Number of occurrences of the respective SAE J2012 DTC being conveyed.", + "is_big_endian": false, + "is_signed": false + }, + "J2012.DTCStatus" : { + "generic_name": "J2012.DTCStatus", + "bit_position": 47, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Indicates if the respective SAE J2012 DTC is active or previously active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DTCIsPreviouslyActive": [0], + "DTCIsActive": [1] + } + }, + "Number.Of.J2012.DTCs" : { + "generic_name": "Number.Of.J2012.DTCs", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The number J2012 DTCs being conveyed in PGN 64906.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61469": { + "comment": "Steering Angle Sensor Information", + "length": 8, + "name": "SAS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Message.Checksum" : { + "generic_name": "Message.Checksum", + "bit_position": 59, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "The message checksum is used to verify the signal path from the demanding device to the steering controller.", + "is_big_endian": false, + "is_signed": false + }, + "Message.Counter" : { + "generic_name": "Message.Counter", + "bit_position": 55, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "The message counter is to verify the signal path from the demanding device to the steering controller.", + "is_big_endian": false, + "is_signed": false + }, + "Steer.Angle.Sensor.Calibrated" : { + "generic_name": "Steer.Angle.Sensor.Calibrated", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the calibration status of the steering angle sensor.", + "is_big_endian": false, + "is_signed": false, + "states": { + "SASNotCalibrated": [0], + "SASCalibrated": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Steer.Angle.Sensor.Active.Mode" : { + "generic_name": "Steer.Angle.Sensor.Active.Mode", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the operational mode of the steering angle sensor.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ProgrammingModeActive": [0], + "NormalModeActive": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Steer.Wheel.Angle.Range" : { + "generic_name": "Steer.Wheel.Angle.Range", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0009765625, + "offset": -31.374, + "min_value": -31.374, + "max_value": 31.374, + "comment": "The signal indicates the range of the steering wheel angle the sensor element is capable to measure.", + "unit": "rad", + "is_big_endian": false, + "is_signed": false + }, + "Steer.Wheel.Angle.Range.Counter.Type" : { + "generic_name": "Steer.Wheel.Angle.Range.Counter.Type", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The signal indicates whether the steering wheel angle sensor is capable of absolute measuring of the number of steering", + "is_big_endian": false, + "is_signed": false, + "states": { + "RelativeNumberOfCounts": [0], + "AbsNumberOfCounts": [1], + "NotDefined": [2], + "SignalNotAvailable": [3] + } + }, + "Steer.Wheel.Angle.Range.Counter" : { + "generic_name": "Steer.Wheel.Angle.Range.Counter", + "bit_position": 15, + "bit_size": 6, + "factor": 1, + "offset": -32, + "min_value": -32, + "max_value": 29, + "comment": "The signal indicates the number of steering wheel angle range overflows if the operating range of steering wheel is", + "unit": "ranges", + "is_big_endian": false, + "is_signed": false + }, + "Steer.Wheel.Angle" : { + "generic_name": "Steer.Wheel.Angle", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0009765625, + "offset": -31.374, + "min_value": -31.374, + "max_value": 31.374, + "comment": "The main operator`s steering wheel angle (on the steering column, not the actual wheel angle).", + "unit": "rad", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64878": { + "comment": "Aftertreatment 1 SCR Service Information", + "length": 8, + "name": "SCR1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.SCRCtlyst.Cnvrsn.Effcncy" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Cnvrsn.Effcncy", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The SCR catalyst conversion efficiency percentage.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCmdd.Ctlyst.Rgnt.Cnsmptn" : { + "generic_name": "Aftrtrtmnt1.SCRCmdd.Ctlyst.Rgnt.Cnsmptn", + "bit_position": 15, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "This parameter transmits the amount of reagent that the emissions control system has requested to be used, averaged", + "unit": "L/h", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRAvrg.Ctlyst.Rgnt.Cnsmptn" : { + "generic_name": "Aftrtrtmnt1.SCRAvrg.Ctlyst.Rgnt.Cnsmptn", + "bit_position": -1, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Measured use of reagent by a Selective Catalytic Reduction system for exhaust emission control, averaged over the", + "unit": "L/h", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Dsl.Exhst.Fld.Tnk.Lw.Lvl.Indctr.Trvld.Dstnc" : { + "generic_name": "Aftrtrtmnt1.Dsl.Exhst.Fld.Tnk.Lw.Lvl.Indctr.Trvld.Dstnc", + "bit_position": 39, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The distance traveled while diesel exhaust fluid is low/empty or driver warning/inducement strategy is active.", + "unit": "km", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64899": { + "comment": "Transfer Case Information", + "length": 8, + "name": "TCI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Transfer.Case.Status" : { + "generic_name": "Transfer.Case.Status", + "bit_position": -1, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "This parameter describes the feedback from the transfer case controller .", + "is_big_endian": false, + "is_signed": false, + "states": { + "WheelHigh": [1], + "neutral": [2], + "WheelLow": [4], + "TrnsfrCsShftInPrgrssGrNtCnfrmed": [5], + "error": [6], + "notAvailable": [7] + } + } + } + }, + "64917": { + "comment": "Transmission Fluids 2", + "length": 8, + "name": "TRF2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trns.Trque.Converter.Oil.Outlet.Temp" : { + "generic_name": "Trns.Trque.Converter.Oil.Outlet.Temp", + "bit_position": 7, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of transmission torque converter outlet oil.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Overheat.Indicator" : { + "generic_name": "Trans.Overheat.Indicator", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal from transmission indicating that its fluid temperature is above normal acceptable limits, and as a result,", + "is_big_endian": false, + "is_signed": false, + "states": { + "TransOverheatIndicatorIsOff": [0], + "TrnsOvrhtIndctrIsOnContinuously": [1], + "TrnsOverheatIndicatorIsFlashing": [2], + "NotAvailable": [3] + } + }, + "Trans.Oil.Life.Remaining" : { + "generic_name": "Trans.Oil.Life.Remaining", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Signal which indicates the actual oil life remaining in percent.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Oil.Level.Switch" : { + "generic_name": "Trans.Oil.Level.Switch", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This switch indicates whether transmission oil level is full or empty.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Empty": [0], + "FullNotEmpty": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Oil.Filter.Restriction.Switch" : { + "generic_name": "Trans.Oil.Filter.Restriction.Switch", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This switch indicates whether the transmission oil filter is clogged.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoRestriction": [0], + "RestrictionExistsOnOilFilter": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "64905": { + "comment": "Vehicle Direction/Speed 2", + "length": 8, + "name": "VDS2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Vehicle.Roll" : { + "generic_name": "Vehicle.Roll", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "This parameter indicates the roll in degrees from level.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65207": { + "comment": "Engine Speed/Load Factor Information", + "length": 10, + "name": "LF", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Total.Eng.Cruise.Time" : { + "generic_name": "Total.Eng.Cruise.Time", + "bit_position": 47, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time that the engine has operated in the cruise hold state, excluding time in accelerator override, over the life of the engine.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Total.Drive.Average.Load.Factor" : { + "generic_name": "Total.Drive.Average.Load.Factor", + "bit_position": 39, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Average engine load factor while engine speed is greater than zero, vehicle speed is greater than or equal to 2 km/h, and", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Drive.Average.Load.Factor" : { + "generic_name": "Trip.Drive.Average.Load.Factor", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Average engine load factor while engine speed is greater than zero, vehicle speed is greater than or equal to 2 km/h, and", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Average.Eng.Speed" : { + "generic_name": "Trip.Average.Eng.Speed", + "bit_position": 15, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Average speed of the engine since the last trip reset.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Max.Eng.Speed" : { + "generic_name": "Trip.Max.Eng.Speed", + "bit_position": -1, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Maximum engine speed achieved since the last trip reset.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65088": { + "comment": "Lighting Data", + "length": 8, + "name": "LD", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Implement.Rear.Work.Light" : { + "generic_name": "Implement.Rear.Work.Light", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the implement rear work lamps.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Implement.Left.Forward.Work.Light" : { + "generic_name": "Implement.Left.Forward.Work.Light", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the forward facing work lights toward the left end of the implement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Implement.Right.Forward.Work.Light" : { + "generic_name": "Implement.Right.Forward.Work.Light", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the forward facing work lights toward the right end of the implement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Implement.Left.Facing.Work.Light" : { + "generic_name": "Implement.Left.Facing.Work.Light", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the work lights mounted on an implement to illuminate beyond left end of", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Implement.Right.Facing.Work.Light" : { + "generic_name": "Implement.Right.Facing.Work.Light", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the work lights mounted on an implement to illuminate beyond right end of", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Implement.OEMOption1.Light" : { + "generic_name": "Implement.OEMOption1.Light", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the implement OEM option 1 light.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Implement.OEMOption2.Light" : { + "generic_name": "Implement.OEMOption2.Light", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the implement OEM option 2 light.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Trctr.Front.High.Mounted.Work.Lights" : { + "generic_name": "Trctr.Front.High.Mounted.Work.Lights", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor front high mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Trctor.Front.Low.Mounted.Work.Lights" : { + "generic_name": "Trctor.Front.Low.Mounted.Work.Lights", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor front low mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Trctor.Side.High.Mounted.Work.Lights" : { + "generic_name": "Trctor.Side.High.Mounted.Work.Lights", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor side high mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Tractor.Side.Low.Mounted.Work.Lights" : { + "generic_name": "Tractor.Side.Low.Mounted.Work.Lights", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor side low mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Trctor.Rear.High.Mounted.Work.Lights" : { + "generic_name": "Trctor.Rear.High.Mounted.Work.Lights", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor rear high mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Tractor.Rear.Low.Mounted.Work.Lights" : { + "generic_name": "Tractor.Rear.Low.Mounted.Work.Lights", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor rear low mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Trctr.Underside.Mounted.Work.Lights" : { + "generic_name": "Trctr.Underside.Mounted.Work.Lights", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor underside mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Rear.Fog.Lights" : { + "generic_name": "Rear.Fog.Lights", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor and/or implement rear fog lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Tractor.Marker.Light" : { + "generic_name": "Tractor.Marker.Light", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor and attached implement marker lights, including front position", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Implement.Marker.Light" : { + "generic_name": "Implement.Marker.Light", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from an attached implement marker lights, including front position lights, rear tail", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Tractor.Clearance.Light" : { + "generic_name": "Tractor.Clearance.Light", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor high mounted clearance and center ID lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Implement.Clearance.Light" : { + "generic_name": "Implement.Clearance.Light", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from an attached implement high mounted clearance lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Left.Stop.Light" : { + "generic_name": "Left.Stop.Light", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor and attached implement left stop lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Right.Stop.Light" : { + "generic_name": "Right.Stop.Light", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor and attached implement right stop lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Center.Stop.Light" : { + "generic_name": "Center.Stop.Light", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor and attached implement center stop lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Back.Up.Light.And.Alarm.Horn" : { + "generic_name": "Back.Up.Light.And.Alarm.Horn", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the back up lights and/ or associated alarm.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Left.Turn.Signal.Lights" : { + "generic_name": "Left.Turn.Signal.Lights", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor and attached implement left turn signal lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Right.Turn.Signal.Lights" : { + "generic_name": "Right.Turn.Signal.Lights", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor and attached implement right turn signal lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Rotating.Beacon.Light" : { + "generic_name": "Rotating.Beacon.Light", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the beacon light on tractor or attached implements.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Tractor.Front.Fog.Lights" : { + "generic_name": "Tractor.Front.Fog.Lights", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor front fog lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "High.Beam.Head.Light.Data" : { + "generic_name": "High.Beam.Head.Light.Data", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor high beam head light lamps.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Low.Beam.Head.Light.Data" : { + "generic_name": "Low.Beam.Head.Light.Data", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor low beam head light lamps.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Alt.Beam.Head.Light.Data" : { + "generic_name": "Alt.Beam.Head.Light.Data", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the tractor alternate beam head light lamps.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + }, + "Running.Light" : { + "generic_name": "Running.Light", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides measured data from the vehicle's running lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivated": [0], + "Activated": [1], + "FaultDetected": [2], + "NotAvailable": [3] + } + } + } + }, + "65089": { + "comment": "Lighting Command", + "length": 8, + "name": "LC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Implement.Rear.Work.Light.Cmd" : { + "generic_name": "Implement.Rear.Work.Light.Cmd", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate implement rear work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Implment.Left.Forward.Work.Light.Cmd" : { + "generic_name": "Implment.Left.Forward.Work.Light.Cmd", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the forward facing work lights toward the left end of the implement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Implmnt.Right.Forward.Work.Light.Cmd" : { + "generic_name": "Implmnt.Right.Forward.Work.Light.Cmd", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the forward facing work lights toward the right end of the implement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Lighting.Data.Rq.Cmd" : { + "generic_name": "Lighting.Data.Rq.Cmd", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to provide a response of the light state", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Implement.Left.Facing.Work.Light.Cmd" : { + "generic_name": "Implement.Left.Facing.Work.Light.Cmd", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate work lights mounted on an implement to illuminate beyond left end of the implement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Implment.Right.Facing.Work.Light.Cmd" : { + "generic_name": "Implment.Right.Facing.Work.Light.Cmd", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate work lights mounted on an implement to illuminate beyond right end of the implement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Implement.OEMOption1.Light.Cmd" : { + "generic_name": "Implement.OEMOption1.Light.Cmd", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate an implement OEM option 1 light.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Implement.OEMOption2.Light.Cmd" : { + "generic_name": "Implement.OEMOption2.Light.Cmd", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate an implement OEM option 2 light.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Trctr.Frnt.Hgh.Munted.Work.Lights.Cmd" : { + "generic_name": "Trctr.Frnt.Hgh.Munted.Work.Lights.Cmd", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor front high mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Trctr.Frnt.Lw.Mounted.Work.Lights.Cmd" : { + "generic_name": "Trctr.Frnt.Lw.Mounted.Work.Lights.Cmd", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor front low mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Trctr.Sd.High.Mounted.Work.Lights.Cmd" : { + "generic_name": "Trctr.Sd.High.Mounted.Work.Lights.Cmd", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor side high mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Trctr.Sde.Low.Mounted.Work.Lights.Cmd" : { + "generic_name": "Trctr.Sde.Low.Mounted.Work.Lights.Cmd", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor side low mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Trctr.Rr.High.Mounted.Work.Lights.Cmd" : { + "generic_name": "Trctr.Rr.High.Mounted.Work.Lights.Cmd", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor rear high mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Trctr.Rar.Low.Mounted.Work.Lights.Cmd" : { + "generic_name": "Trctr.Rar.Low.Mounted.Work.Lights.Cmd", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor rear low mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Trctr.Undrsd.Mounted.Work.Lights.Cmd" : { + "generic_name": "Trctr.Undrsd.Mounted.Work.Lights.Cmd", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor underside mounted work lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Rear.Fog.Light.Cmd" : { + "generic_name": "Rear.Fog.Light.Cmd", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate tractor or implement rear fog lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Tractor.Marker.Light.Cmd" : { + "generic_name": "Tractor.Marker.Light.Cmd", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate tractor and implement front position lights, rear red tail lights, side amber running", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Implement.Marker.Light.Cmd" : { + "generic_name": "Implement.Marker.Light.Cmd", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate implement front position lights, rear red tail lights, side amber running lights, license", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Tractor.Clearance.Light.Cmd" : { + "generic_name": "Tractor.Clearance.Light.Cmd", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor high mounted clearance and center ID lights", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Implement.Clearance.Light.Cmd" : { + "generic_name": "Implement.Clearance.Light.Cmd", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the implement high mounted clearance and lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Left.Stop.Light.Cmd" : { + "generic_name": "Left.Stop.Light.Cmd", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor and implement left stop lights", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Right.Stop.Light.Cmd" : { + "generic_name": "Right.Stop.Light.Cmd", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor and implement right stop light", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Center.Stop.Light.Cmd" : { + "generic_name": "Center.Stop.Light.Cmd", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor and implement center stop light", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Back.Up.Light.And.Alarm.Horn.Cmd" : { + "generic_name": "Back.Up.Light.And.Alarm.Horn.Cmd", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the back up lights and/ or associated alarm if required", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Left.Turn.Signal.Lights.Cmd" : { + "generic_name": "Left.Turn.Signal.Lights.Cmd", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate left turn signal lights on the tractor and all connected implements", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Right.Turn.Signal.Lights.Cmd" : { + "generic_name": "Right.Turn.Signal.Lights.Cmd", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate right turn signal lights on the tractor and all connected implements", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Rotating.Beacon.Light.Cmd" : { + "generic_name": "Rotating.Beacon.Light.Cmd", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate slow moving vehicle indicator lights on tractor and/or implements.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Tractor.Front.Fog.Lights.Cmd" : { + "generic_name": "Tractor.Front.Fog.Lights.Cmd", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate tractor front fog lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "High.Beam.Head.Light.Cmd" : { + "generic_name": "High.Beam.Head.Light.Cmd", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor high beam head light lamps.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Low.Beam.Head.Light.Cmd" : { + "generic_name": "Low.Beam.Head.Light.Cmd", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor low beam head light lamps.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Alt.Beam.Head.Light.Cmd" : { + "generic_name": "Alt.Beam.Head.Light.Cmd", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor alternate head lights (only low beam is available on alternate head lights).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + }, + "Running.Light.Cmd" : { + "generic_name": "Running.Light.Cmd", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command to activate or de-activate the tractor or powered vehicle running lights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare": [3] + } + } + } + }, + "65138": { + "comment": "Laser Leveling System Blade Control", + "length": 8, + "name": "LBC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Blade.Ctrl.Mode" : { + "generic_name": "Blade.Ctrl.Mode", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Allows the user to select the type of blade control for the land leveling system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ManualMode": [0], + "AutomaticMode": [1], + "InactiveAutomaticMode": [2] + } + }, + "Blade.Duration.And.Direction" : { + "generic_name": "Blade.Duration.And.Direction", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": -3276.8, + "min_value": -3276.8, + "max_value": 3148.7, + "comment": "Used to indicate the duration and direction that the land leveling system blade moves.", + "unit": "sec", + "is_big_endian": false, + "is_signed": false + }, + "Land.Leveling.System.Enable.Status" : { + "generic_name": "Land.Leveling.System.Enable.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Communicate the enable/disable status of the Land Leveling System.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disabled": [0], + "Enabled": [1], + "Error": [2], + "NotAvailable_NotInstalled": [3] + } + }, + "Blade.Ctrl.Mode.Right" : { + "generic_name": "Blade.Ctrl.Mode.Right", + "bit_position": 27, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Indicate if the land leveling system's automatic control is active or inactive for the elevation sensor on the right side of the", + "is_big_endian": false, + "is_signed": false, + "states": { + "Manual": [0], + "Auto": [1], + "InactiveAuto": [2], + "1101Reserved": [3], + "Error": [14], + "NotAvailable": [15] + } + }, + "Blade.Ctrl.Mode.Left" : { + "generic_name": "Blade.Ctrl.Mode.Left", + "bit_position": 23, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Indicate if the land leveling system's automatic control is active or inactive for the elevation sensor on the left side of the", + "is_big_endian": false, + "is_signed": false, + "states": { + "Manual": [0], + "Auto": [1], + "InactiveAuto": [2], + "1101Reserved": [3], + "Error": [14], + "NotAvailable": [15] + } + } + } + }, + "65159": { + "comment": "Ignition Timing 6", + "length": 8, + "name": "IT6", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Actual.Ignt.Timing" : { + "generic_name": "Eng.Actual.Ignt.Timing", + "bit_position": 47, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The actual ignition timing at the current engine conditions.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Desired.Ignt.Timing3" : { + "generic_name": "Eng.Desired.Ignt.Timing3", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "A programmable timing value specific to the engine's application.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Desired.Ignt.Timing2" : { + "generic_name": "Eng.Desired.Ignt.Timing2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "A programmable timing value specific to the engine's application.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Desired.Ignt.Timing1" : { + "generic_name": "Eng.Desired.Ignt.Timing1", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "A programmable timing value specific to the engine's application.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65158": { + "comment": "Ignition Timing 5", + "length": 8, + "name": "IT5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl20.Ignt.Timing" : { + "generic_name": "Eng.Cyl20.Ignt.Timing", + "bit_position": 47, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl19.Ignt.Timing" : { + "generic_name": "Eng.Cyl19.Ignt.Timing", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl18.Ignt.Timing" : { + "generic_name": "Eng.Cyl18.Ignt.Timing", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl17.Ignt.Timing" : { + "generic_name": "Eng.Cyl17.Ignt.Timing", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65157": { + "comment": "Ignition Timing 4", + "length": 8, + "name": "IT4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl16.Ignt.Timing" : { + "generic_name": "Eng.Cyl16.Ignt.Timing", + "bit_position": 47, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl15.Ignt.Timing" : { + "generic_name": "Eng.Cyl15.Ignt.Timing", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl14.Ignt.Timing" : { + "generic_name": "Eng.Cyl14.Ignt.Timing", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl13.Ignt.Timing" : { + "generic_name": "Eng.Cyl13.Ignt.Timing", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65156": { + "comment": "Ignition Timing 3", + "length": 8, + "name": "IT3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl12.Ignt.Timing" : { + "generic_name": "Eng.Cyl12.Ignt.Timing", + "bit_position": 47, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl11.Ignt.Timing" : { + "generic_name": "Eng.Cyl11.Ignt.Timing", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl10.Ignt.Timing" : { + "generic_name": "Eng.Cyl10.Ignt.Timing", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl9.Ignt.Timing" : { + "generic_name": "Eng.Cyl9.Ignt.Timing", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65155": { + "comment": "Ignition Timing 2", + "length": 8, + "name": "IT2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl8.Ignt.Timing" : { + "generic_name": "Eng.Cyl8.Ignt.Timing", + "bit_position": 47, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl7.Ignt.Timing" : { + "generic_name": "Eng.Cyl7.Ignt.Timing", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl6.Ignt.Timing" : { + "generic_name": "Eng.Cyl6.Ignt.Timing", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl5.Ignt.Timing" : { + "generic_name": "Eng.Cyl5.Ignt.Timing", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65154": { + "comment": "Ignition Timing 1", + "length": 8, + "name": "IT1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl4.Ignt.Timing" : { + "generic_name": "Eng.Cyl4.Ignt.Timing", + "bit_position": 47, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl3.Ignt.Timing" : { + "generic_name": "Eng.Cyl3.Ignt.Timing", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl2.Ignt.Timing" : { + "generic_name": "Eng.Cyl2.Ignt.Timing", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl1.Ignt.Timing" : { + "generic_name": "Eng.Cyl1.Ignt.Timing", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The ignition timing of the cylinder.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65162": { + "comment": "Ignition Transformer Secondary Output 3", + "length": 8, + "name": "ISO3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl20.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl20.Ignt.Trans.Second.Output", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl19.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl19.Ignt.Trans.Second.Output", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl18.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl18.Ignt.Trans.Second.Output", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl17.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl17.Ignt.Trans.Second.Output", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65161": { + "comment": "Ignition Transformer Secondary Output 2", + "length": 8, + "name": "ISO2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl16.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl16.Ignt.Trans.Second.Output", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl15.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl15.Ignt.Trans.Second.Output", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl14.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl14.Ignt.Trans.Second.Output", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl13.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl13.Ignt.Trans.Second.Output", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl12.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl12.Ignt.Trans.Second.Output", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl11.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl11.Ignt.Trans.Second.Output", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl10.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl10.Ignt.Trans.Second.Output", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl9.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl9.Ignt.Trans.Second.Output", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65160": { + "comment": "Ignition Transformer Secondary Output 1", + "length": 8, + "name": "ISO1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl8.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl8.Ignt.Trans.Second.Output", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl7.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl7.Ignt.Trans.Second.Output", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl6.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl6.Ignt.Trans.Second.Output", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl5.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl5.Ignt.Trans.Second.Output", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl4.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl4.Ignt.Trans.Second.Output", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl3.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl3.Ignt.Trans.Second.Output", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl2.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl2.Ignt.Trans.Second.Output", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl1.Ignt.Trans.Second.Output" : { + "generic_name": "Eng.Cyl1.Ignt.Trans.Second.Output", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This parameter indicates the relative intensity of the secondary output voltage of the ignition transformer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64968": { + "comment": "Operator Primary Intermediate Speed Control state", + "length": 8, + "name": "ISCS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Oprtr.Prmry.Intrmdt.Spd.Slct.Stte" : { + "generic_name": "Eng.Oprtr.Prmry.Intrmdt.Spd.Slct.Stte", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "13 preprogrammed intermediate speed control settings are available for the controlling ECM to select.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CtrlSttIsISCFnctnltyIsNtRqdEngO": [0], + "thr1101CtrlSttIsISCSttng1Thru13": [1], + "SAEReserved": [14], + "NotAvailable": [15] + } + } + } + }, + "64970": { + "comment": "Intermediate Speed Control", + "length": 8, + "name": "ISC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Oprtr.Prmry.Intrmdt.Speed.Select" : { + "generic_name": "Eng.Oprtr.Prmry.Intrmdt.Speed.Select", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Allows the operator to select one of 13 preprogrammed Intermediate Speed Control settings.", + "is_big_endian": false, + "is_signed": false, + "states": { + "IndctsThtISCFnctnltyIsNtRqdEngO": [0], + "thr1101IndctsThtISCSttng1Thr13I": [1], + "ErrorCondition": [14], + "NotAvailable": [15] + } + } + } + }, + "65244": { + "comment": "Idle Operation", + "length": 8, + "name": "IO", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Total.Idle.Hours" : { + "generic_name": "Eng.Total.Idle.Hours", + "bit_position": 31, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Accumulated time of operation of the engine while under idle conditions.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Total.Idle.Fuel.Used" : { + "generic_name": "Eng.Total.Idle.Fuel.Used", + "bit_position": -1, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Accumulated amount of fuel used during vehicle operation while under idle conditions.", + "unit": "L", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65189": { + "comment": "Intake Manifold Information 2", + "length": 8, + "name": "IMT2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Intake.Manifold6.Temp" : { + "generic_name": "Eng.Intake.Manifold6.Temp", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of pre-combustion air found in intake manifold number 6 of engine air supply system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intake.Manifold5.Temp" : { + "generic_name": "Eng.Intake.Manifold5.Temp", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of pre-combustion air found in intake manifold number 5 of engine air supply system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intake.Manifold4.Temp" : { + "generic_name": "Eng.Intake.Manifold4.Temp", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of pre-combustion air found in intake manifold of engine air supply system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intake.Manifold3.Temp" : { + "generic_name": "Eng.Intake.Manifold3.Temp", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of pre-combustion air found in intake manifold of engine air supply system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intake.Manifold2.Temp" : { + "generic_name": "Eng.Intake.Manifold2.Temp", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of pre-combustion air found in intake manifold of engine air supply system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65190": { + "comment": "Intake Manifold Information 1", + "length": 8, + "name": "IMT1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Turbo4.Boost.Press" : { + "generic_name": "Eng.Turbo4.Boost.Press", + "bit_position": 47, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Gage pressure of air measured downstream of the compressor discharge side of the turbocharger.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo3.Boost.Press" : { + "generic_name": "Eng.Turbo3.Boost.Press", + "bit_position": 31, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Gage pressure of air measured downstream of the compressor discharge side of the turbocharger.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo2.Boost.Press" : { + "generic_name": "Eng.Turbo2.Boost.Press", + "bit_position": 15, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Gage pressure of air measured downstream of the compressor discharge side of the turbocharger.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo1.Boost.Press" : { + "generic_name": "Eng.Turbo1.Boost.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Gage pressure of air measured downstream of the compressor discharge side of the turbocharger.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64976": { + "comment": "Intake/Exhaust Conditions 2", + "length": 8, + "name": "IC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Air.Filter4.Diff.Press" : { + "generic_name": "Eng.Air.Filter4.Diff.Press", + "bit_position": 15, + "bit_size": 8, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 12.5, + "comment": "Change in engine air system pressure, measured across the fourth air filter, due to the filter and any accumulation of solid", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Air.Filter3.Diff.Press" : { + "generic_name": "Eng.Air.Filter3.Diff.Press", + "bit_position": 7, + "bit_size": 8, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 12.5, + "comment": "Change in engine air system pressure, measured across the third air filter, due to the filter and any accumulation of solid", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Air.Filter2.Diff.Press" : { + "generic_name": "Eng.Air.Filter2.Diff.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 12.5, + "comment": "Change in engine air system pressure, measured across the second air filter, due to the filter and any accumulation of", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intake.Manifold1.Abs.Press" : { + "generic_name": "Eng.Intake.Manifold1.Abs.Press", + "bit_position": 31, + "bit_size": 8, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 25.5, + "comment": "The absolute pressure measurement of the air intake manifold.The absolute pressure measurement of the air intake manifold.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intake.Manifold2.Abs.Press" : { + "generic_name": "Eng.Intake.Manifold2.Abs.Press", + "bit_position": 55, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "The absolute pressure measurement of the air intake manifold for bank 2 or the second air intake manifold.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intake.Manifold2.Press" : { + "generic_name": "Eng.Intake.Manifold2.Press", + "bit_position": 23, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "The gage pressure measurement of the air intake manifold for bank #2 or the second air intake manifold.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intake.Manifold1.Abs.Press.Hi.Res" : { + "generic_name": "Eng.Intake.Manifold1.Abs.Press.Hi.Res", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The absolute pressure measurement of the air intake manifold.The absolute pressure measurement of the air intake manifold.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65270": { + "comment": "Intake/Exhaust Conditions 1", + "length": 8, + "name": "IC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Coolant.Filter.Diff.Press" : { + "generic_name": "Eng.Coolant.Filter.Diff.Press", + "bit_position": 55, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Change in coolant pressure, measured across the filter, due to the filter and any accumulation of solid or semisolid matter", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Temp", + "bit_position": 39, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of combustion byproducts leaving the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Air.Filter1.Diff.Press" : { + "generic_name": "Eng.Air.Filter1.Diff.Press", + "bit_position": 31, + "bit_size": 8, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 12.5, + "comment": "Change in engine air system pressure, measured across the filter, due to the filter and any accumulation of solid foreign", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intake.Manifold1.Temp" : { + "generic_name": "Eng.Intake.Manifold1.Temp", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of pre-combustion air found in intake manifold of engine air supply system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intake.Manifold1.Press" : { + "generic_name": "Eng.Intake.Manifold1.Press", + "bit_position": 7, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "The gage pressure measurement of the air intake manifold.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Dsl.Prtclate.Filter.Intake.Press" : { + "generic_name": "Eng.Dsl.Prtclate.Filter.Intake.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Exhaust back pressure as a result of particle accumulation on filter media placed in the exhaust stream.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Air.Intake.Press" : { + "generic_name": "Eng.Air.Intake.Press", + "bit_position": 23, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "Absolute air pressure at input port to intake manifold or air box.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65133": { + "comment": "Heater Information", + "length": 8, + "name": "HTR", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Cab.Heating.Zone" : { + "generic_name": "Cab.Heating.Zone", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Parameter indicating whether the cab zone is being heated.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CabHeatingZoneOff": [0], + "CabHeatingZoneOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Heating.Zone" : { + "generic_name": "Eng.Heating.Zone", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Parameter indicating whether the engine zone is being heated.", + "is_big_endian": false, + "is_signed": false, + "states": { + "EngHeatingZoneOff": [0], + "EngHeatingZoneOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Cab.Ventilation" : { + "generic_name": "Cab.Ventilation", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the cab is being ventilated or not.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CabNotVentilated": [0], + "CabIsVentilated": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Aux.Heater.Mode" : { + "generic_name": "Aux.Heater.Mode", + "bit_position": 23, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "State of the auxiliary heater", + "is_big_endian": false, + "is_signed": false, + "states": { + "HeaterNotActive": [0], + "OffDTADRPrErpnRgltnsFrTrnsprtOf": [1], + "EconomyMode": [2], + "NormalMode": [3], + "1101NotDefined": [4], + "Error": [14], + "NotAvailable": [15] + } + }, + "Aux.Heater.Output.Power.Percent" : { + "generic_name": "Aux.Heater.Output.Power.Percent", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Current auxiliary heater output power, relative to the auxiliary heater maximum output power.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aux.Heater.Input.Air.Temp" : { + "generic_name": "Aux.Heater.Input.Air.Temp", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of the input air in an auxiliary heater system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aux.Heater.Output.Coolant.Temp" : { + "generic_name": "Aux.Heater.Output.Coolant.Temp", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of the auxiliary heater output coolant (I.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aux.Heater.Water.Pump.Status" : { + "generic_name": "Aux.Heater.Water.Pump.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Parameter indicating whether the auxiliary heater water pump is running", + "is_big_endian": false, + "is_signed": false, + "states": { + "WaterPumpIsNotRunning": [0], + "WaterPumpIsRunning": [1], + "Reserved": [2], + "NotAvailable": [3] + } + } + } + }, + "65134": { + "comment": "High Resolution Wheel Speed", + "length": 8, + "name": "HRW", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Rear.Axle.Right.Wheel.Speed" : { + "generic_name": "Rear.Axle.Right.Wheel.Speed", + "bit_position": 47, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 250.996, + "comment": "High resolution measurement of the speed of the right wheel on the rear axle.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Rear.Axle.Left.Wheel.Speed" : { + "generic_name": "Rear.Axle.Left.Wheel.Speed", + "bit_position": 31, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 250.996, + "comment": "High resolution measurement of the speed of the left wheel on the rear axle.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Front.Axle.Right.Wheel.Speed" : { + "generic_name": "Front.Axle.Right.Wheel.Speed", + "bit_position": 15, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 250.996, + "comment": "High resolution measurement of the speed of the right wheel on the front axle.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Front.Axle.Left.Wheel.Speed" : { + "generic_name": "Front.Axle.Left.Wheel.Speed", + "bit_position": -1, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 250.996, + "comment": "High resolution measurement of the speed of the left wheel on the front axle.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61448": { + "comment": "Hydraulic Pressure Governor Info", + "length": 8, + "name": "HPG", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Fire.Apparatus.Pump.Engagement" : { + "generic_name": "Fire.Apparatus.Pump.Engagement", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The measured status of the pump used to provide water in fire fighting apparatus for distribution of water through water", + "is_big_endian": false, + "is_signed": false, + "states": { + "PumpNotEngaged": [0], + "PumpEngaged": [1], + "Error": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Eng.Hyd.Press.Governor.Switch" : { + "generic_name": "Eng.Hyd.Press.Governor.Switch", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch that sets the mode of hydraulic governor", + "is_big_endian": false, + "is_signed": false, + "states": { + "PressModeInactive": [0], + "PressModeActive": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Eng.Hyd.Prss.Governor.Mode.Indicator" : { + "generic_name": "Eng.Hyd.Prss.Governor.Mode.Indicator", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Mode for governor operation is hydraulic pressure control.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disabled": [0], + "Enabled": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Hyd.Press" : { + "generic_name": "Hyd.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "Hydraulic pressure measured at the output of the hydraulic pump.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65253": { + "comment": "Engine Hours, Revolutions", + "length": 8, + "name": "HOURS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Total.Revolutions" : { + "generic_name": "Eng.Total.Revolutions", + "bit_position": 31, + "bit_size": 32, + "factor": 1000, + "offset": 0, + "min_value": 0, + "max_value": 4211081215000, + "comment": "Accumulated number of revolutions of engine crankshaft during its operation.", + "unit": "r", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Total.Hours.Of.Operation" : { + "generic_name": "Eng.Total.Hours.Of.Operation", + "bit_position": -1, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Accumulated time of operation of engine.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64998": { + "comment": "Hydraulic Braking System", + "length": 8, + "name": "HBS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Hyd.Brake.Fluid.Level.Switch" : { + "generic_name": "Hyd.Brake.Fluid.Level.Switch", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates whether the hydraulic fluid level in the reservoir(s) is sufficient.", + "is_big_endian": false, + "is_signed": false, + "states": { + "FluidLevelIsNotSufficient": [0], + "FluidLevelIsSufficient": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Hyd.Brake.System.Audible.Warning.Cmd" : { + "generic_name": "Hyd.Brake.System.Audible.Warning.Cmd", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which commands an audible warning by the hydraulic braking system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AudibleWarningOff": [0], + "AudibleWarningOn": [1], + "Reserved": [2], + "DontCare": [3] + } + }, + "Hyd.Brke.Press.Supply.State.Circuit2" : { + "generic_name": "Hyd.Brke.Press.Supply.State.Circuit2", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates whether the hydraulic brake pressure supply of circuit 2 is reliable; that is, able to support", + "is_big_endian": false, + "is_signed": false, + "states": { + "SupplyIsNotReliable": [0], + "SupplyIsReliable": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Hyd.Brke.Press.Supply.State.Circuit1" : { + "generic_name": "Hyd.Brke.Press.Supply.State.Circuit1", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates whether the hydraulic brake pressure supply of circuit 1 is reliable; that is, able to support", + "is_big_endian": false, + "is_signed": false, + "states": { + "SupplyIsNotReliable": [0], + "SupplyIsReliable": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Hyd.Brk.Press.Warning.State.Circuit2" : { + "generic_name": "Hyd.Brk.Press.Warning.State.Circuit2", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates whether the hydraulic brake pressure of circuit 2 is below the warning level", + "is_big_endian": false, + "is_signed": false, + "states": { + "PressLevelSufficient": [0], + "PressLevelBelowWarningLevel": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Hyd.Brk.Press.Warning.State.Circuit1" : { + "generic_name": "Hyd.Brk.Press.Warning.State.Circuit1", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates whether the hydraulic brake pressure of circuit 1 is below the warning level", + "is_big_endian": false, + "is_signed": false, + "states": { + "PressLevelSufficient": [0], + "PressLevelBelowWarningLevel": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Hyd.Brake.Press.Circuit2" : { + "generic_name": "Hyd.Brake.Press.Circuit2", + "bit_position": 7, + "bit_size": 8, + "factor": 100, + "offset": 0, + "min_value": 0, + "max_value": 25, + "comment": "Gage hydraulic pressure in circuit 2 of the hydraulic brake system", + "unit": "MPa", + "is_big_endian": false, + "is_signed": false + }, + "Hyd.Brake.Press.Circuit1" : { + "generic_name": "Hyd.Brake.Press.Circuit1", + "bit_position": -1, + "bit_size": 8, + "factor": 100, + "offset": 0, + "min_value": 0, + "max_value": 25, + "comment": "Gage hydraulic pressure in circuit 1 of the hydraulic brake system", + "unit": "MPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65208": { + "comment": "Trip Fuel Information (Gaseous)", + "length": 22, + "name": "GTFI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trip.Drive.Fuel.Economy" : { + "generic_name": "Trip.Drive.Fuel.Economy", + "bit_position": 159, + "bit_size": 16, + "factor": 0.001953125, + "offset": 0, + "min_value": 0, + "max_value": 125.5, + "comment": "Trip drive fuel economy is equal to the distance traveled by vehicle in the drive state (engine speed greater than zero,", + "unit": "km/kg", + "is_big_endian": false, + "is_signed": false + }, + "Trp.PTOGovernor.Nonmoving.Fuel.Used" : { + "generic_name": "Trp.PTOGovernor.Nonmoving.Fuel.Used", + "bit_position": 63, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel consumed while the PTO or remote PTO governors are in the hold state, the engine speed is greater than zero,", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Vehicle.Idle.Fuel.Used" : { + "generic_name": "Trip.Vehicle.Idle.Fuel.Used", + "bit_position": 95, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel consumed while neither the PTO or remote PTO governors are active, the engine speed is greater than zero,", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Cruise.Fuel.Used" : { + "generic_name": "Trip.Cruise.Fuel.Used", + "bit_position": 127, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel consumed while the engine is in the cruise hold state since the last trip reset.", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Drive.Fuel.Used" : { + "generic_name": "Trip.Drive.Fuel.Used", + "bit_position": -1, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel consumed while the engine speed is greater than zero, vehicle speed is greater than or equal to 2 km/h, and", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Trip.PTOGovernor.Moving.Fuel.Used" : { + "generic_name": "Trip.PTOGovernor.Moving.Fuel.Used", + "bit_position": 31, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel consumed while either the PTO or remote PTO governors are in the hold state, the engine speed is greater", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65163": { + "comment": "Gaseous Fuel Pressure", + "length": 8, + "name": "GFP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Fuel.Valve1.Outlet.Abs.Press" : { + "generic_name": "Eng.Fuel.Valve1.Outlet.Abs.Press", + "bit_position": 47, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Absolute Pressure of gas on outlet side of the first or only fuel system control valve.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Air.To.Fuel.Diff.Press" : { + "generic_name": "Eng.Air.To.Fuel.Diff.Press", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The differential pressure between the gaseous fuel and the air intake manifold.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Valve.Diff.Press" : { + "generic_name": "Eng.Fuel.Valve.Diff.Press", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The differential pressure between the intake and the outlet of a gaseous fuel valve.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Valve1.Intake.Abs.Press" : { + "generic_name": "Eng.Fuel.Valve1.Intake.Abs.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The absolute pressure of gas on the intake side of the first system control valve.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65153": { + "comment": "Fuel Information 2 (Gaseous)", + "length": 8, + "name": "GFI2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Fuel.Flow.Rate2" : { + "generic_name": "Eng.Fuel.Flow.Rate2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The rate at which the fuel is flowing through a fuel valve.", + "unit": "(m*m*m)/h", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Flow.Rate1" : { + "generic_name": "Eng.Fuel.Flow.Rate1", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The rate at which the fuel is flowing through a fuel valve.", + "unit": "(m*m*m)/h", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Rqed.Fuel.Valve2.Pos" : { + "generic_name": "Eng.Rqed.Fuel.Valve2.Pos", + "bit_position": 55, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The requested position of a gaseous fuel valve 2 that is metering the fuel flow to the engine, as requested by the Engine", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Rqed.Fuel.Valve1.Pos" : { + "generic_name": "Eng.Rqed.Fuel.Valve1.Pos", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The requested position of a gaseous fuel valve 1 that is metering the fuel flow to the engine.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Valve2.Pos" : { + "generic_name": "Eng.Fuel.Valve2.Pos", + "bit_position": 39, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The position of a gaseous fuel valve that is metering the fuel flow to the engine.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Valve1.Pos" : { + "generic_name": "Eng.Fuel.Valve1.Pos", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The position of a gaseous fuel valve that is metering the fuel flow to the engine.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65202": { + "comment": "Fuel Information 1 (Gaseous)", + "length": 8, + "name": "GFI1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Total.Eng.PTOGovernor.Fuel.Used" : { + "generic_name": "Total.Eng.PTOGovernor.Fuel.Used", + "bit_position": -1, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel used while the PTO or remote PTO governors are in the hold state and engine speed is above zero, over the", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Average.Fuel.Rate" : { + "generic_name": "Trip.Average.Fuel.Rate", + "bit_position": 31, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Average fuel rate, equal to trip fuel divided by trip time while the engine speed is above zero, since the last trip reset.", + "unit": "kg/h", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Specific.Gravity" : { + "generic_name": "Eng.Fuel.Specific.Gravity", + "bit_position": 47, + "bit_size": 16, + "factor": 0.0001, + "offset": 0, + "min_value": 0, + "max_value": 6.4255, + "comment": "This parameter conveys the specific gravity of the gaseous fuel being used by the engine.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65109": { + "comment": "Gaseous Fuel Properties", + "length": 8, + "name": "GFD", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Specific.Heat.Ratio" : { + "generic_name": "Specific.Heat.Ratio", + "bit_position": -1, + "bit_size": 16, + "factor": 0.001, + "offset": 0, + "min_value": 0, + "max_value": 64.255, + "comment": "The specific heat ratio of the fuel.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65199": { + "comment": "Fuel Consumption (Gaseous)", + "length": 8, + "name": "GFC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Total.Fuel.Used" : { + "generic_name": "Total.Fuel.Used", + "bit_position": 31, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel consumed (trip drive fuel + trip PTO moving fuel + trip PTO non-moving fuel + trip idle fuel) over the life of the engine.", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Fuel" : { + "generic_name": "Trip.Fuel", + "bit_position": -1, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel consumed (trip drive fuel + trip PTO moving fuel + trip PTO non-moving fuel + trip idle fuel) since the last trip reset.", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64924": { + "comment": "Sensor Electrical Power #2", + "length": 8, + "name": "SEP2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Sensor.Supply.Voltage6" : { + "generic_name": "Sensor.Supply.Voltage6", + "bit_position": 15, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Sensor ECU supply voltage 6", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Sensor.Supply.Voltage5" : { + "generic_name": "Sensor.Supply.Voltage5", + "bit_position": -1, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Sensor ECU supply voltage 5", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Sensor.Supply.Voltage8" : { + "generic_name": "Sensor.Supply.Voltage8", + "bit_position": 47, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Sensor ECU supply voltage 8", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Sensor.Supply.Voltage7" : { + "generic_name": "Sensor.Supply.Voltage7", + "bit_position": 31, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Sensor ECU supply voltage 7", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64925": { + "comment": "Sensor Electrical Power #1", + "length": 8, + "name": "SEP1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Sensor.Supply.Voltage4" : { + "generic_name": "Sensor.Supply.Voltage4", + "bit_position": 47, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Sensor ECU supply voltage 4", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Sensor.Supply.Voltage3" : { + "generic_name": "Sensor.Supply.Voltage3", + "bit_position": 31, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Sensor ECU supply voltage 3", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Sensor.Supply.Voltage2" : { + "generic_name": "Sensor.Supply.Voltage2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Sensor ECU supply voltage 2", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Sensor.Supply.Voltage1" : { + "generic_name": "Sensor.Supply.Voltage1", + "bit_position": -1, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Sensor ECU supply voltage 1", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64932": { + "comment": "PTO Drive Engagement", + "length": 8, + "name": "PTODE", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Enggmnt.Sttus.Trans.Input.Shaft.PTO1" : { + "generic_name": "Enggmnt.Sttus.Trans.Input.Shaft.PTO1", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports if this specific PTO drive is engaged.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DriveNotEngaged": [0], + "DriveIsEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enggmnt.Sttus.Trans.Input.Shaft.PTO2" : { + "generic_name": "Enggmnt.Sttus.Trans.Input.Shaft.PTO2", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports if this specific PTO drive is engaged.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DriveNotEngaged": [0], + "DriveIsEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enggmnt.Sttus.Trans.Output.Shaft.PTO" : { + "generic_name": "Enggmnt.Sttus.Trans.Output.Shaft.PTO", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports if this specific PTO drive is engaged.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DriveNotEngaged": [0], + "DriveIsEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enggmnt.Stts.Trnsfr.Cs.Otpt.Shaft.PTO" : { + "generic_name": "Enggmnt.Stts.Trnsfr.Cs.Otpt.Shaft.PTO", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports if this specific PTO drive is engaged.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DriveNotEngaged": [0], + "DriveIsEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enggmnt.Cnsnt.Trans.Input.Shaft.PTO1" : { + "generic_name": "Enggmnt.Cnsnt.Trans.Input.Shaft.PTO1", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the transmission controller's consent to engage the first or sole PTO drive mounted on the transmission case.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CnsntNtGvnPTODrvShldNtBeEngaged": [0], + "CnsentGivenPTODriveMayBeEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enggmnt.Cnsnt.Trans.Input.Shaft.PTO2" : { + "generic_name": "Enggmnt.Cnsnt.Trans.Input.Shaft.PTO2", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the transmission controller's consent to engage the second PTO drive mounted on the transmission case.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CnsntNtGvnPTODrvShldNtBeEngaged": [0], + "CnsentGivenPTODriveMayBeEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enggmnt.Cnsnt.Trans.Output.Shaft.PTO" : { + "generic_name": "Enggmnt.Cnsnt.Trans.Output.Shaft.PTO", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the transmission controller's consent to engage the PTO drive connected to the transmission output shaft.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CnsntNtGvnPTODrvShldNtBeEngaged": [0], + "CnsentGivenPTODriveMayBeEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enggmnt.Cnsnt.Trnsfr.Cs.Otpt.Shft.PTO" : { + "generic_name": "Enggmnt.Cnsnt.Trnsfr.Cs.Otpt.Shft.PTO", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the transmission controller's consent to engage the PTO drive connected to the transfer case output shaft.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CnsntNtGvnPTODrvShldNtBeEngaged": [0], + "CnsentGivenPTODriveMayBeEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enable.Switch.Trans.Input.Shaft.PTO1" : { + "generic_name": "Enable.Switch.Trans.Input.Shaft.PTO1", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the operator's switch or other input which indicates the desire for engaging the first PTO drive mounted on the", + "is_big_endian": false, + "is_signed": false, + "states": { + "EnblSwtchOffPTOOprtonNotDesired": [0], + "EnblSwtchOffPTOOperationDesired": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enable.Switch.Trans.Input.Shaft.PTO2" : { + "generic_name": "Enable.Switch.Trans.Input.Shaft.PTO2", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the operator's switch or other input which indicates the desire for engaging the second PTO drive mounted on", + "is_big_endian": false, + "is_signed": false, + "states": { + "EnblSwtchOffPTOOprtonNotDesired": [0], + "EnblSwtchOffPTOOperationDesired": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enable.Switch.Trans.Output.Shaft.PTO" : { + "generic_name": "Enable.Switch.Trans.Output.Shaft.PTO", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the operator's switch or other input which indicates the desire for engaging the PTO drive mounted on the", + "is_big_endian": false, + "is_signed": false, + "states": { + "EnblSwtchOffPTOOprtonNotDesired": [0], + "EnblSwtchOffPTOOperationDesired": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enbl.Swtch.Trnsfr.Cs.Output.Shaft.PTO" : { + "generic_name": "Enbl.Swtch.Trnsfr.Cs.Output.Shaft.PTO", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the operator's switch or other input which indicates the desire for engaging the PTO drive mounted on the output", + "is_big_endian": false, + "is_signed": false, + "states": { + "EnblSwtchOffPTOOprtonNotDesired": [0], + "EnblSwtchOffPTOOperationDesired": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enggmnt.Stts.PTOEng.Accssory.Drive2" : { + "generic_name": "Enggmnt.Stts.PTOEng.Accssory.Drive2", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Engagement status of the PTO engine accessory drive 2", + "is_big_endian": false, + "is_signed": false, + "states": { + "DriveNotEngaged": [0], + "DriveEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enggmnt.Stts.PTOEng.Accssory.Drive1" : { + "generic_name": "Enggmnt.Stts.PTOEng.Accssory.Drive1", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Engagement status of the PTO engine accessory drive 1", + "is_big_endian": false, + "is_signed": false, + "states": { + "DriveNotEngaged": [0], + "DriveEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enggmnt.Cnsnt.PTOEng.Accssry.Drive2" : { + "generic_name": "Enggmnt.Cnsnt.PTOEng.Accssry.Drive2", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Engagement Consent status for the PTO engine accessory drive 2", + "is_big_endian": false, + "is_signed": false, + "states": { + "CnsntNtGvnPTODrvMayNotBeEngaged": [0], + "CnsentGivenPTODriveMayBeEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enggmnt.Cnsnt.PTOEng.Accssry.Drive1" : { + "generic_name": "Enggmnt.Cnsnt.PTOEng.Accssry.Drive1", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Engagement consent status for the PTO engine accessory drive 1", + "is_big_endian": false, + "is_signed": false, + "states": { + "CnsntNtGvnPTODrvMayNotBeEngaged": [0], + "CnsentGivenPTODriveMayBeEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Engagement.Status.PTOEng.Flywheel" : { + "generic_name": "Engagement.Status.PTOEng.Flywheel", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Engagement status of the PTO Engine Flywheel", + "is_big_endian": false, + "is_signed": false, + "states": { + "DriveNotEngaged": [0], + "DriveEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Engagement.Consent.PTOEng.Flywheel" : { + "generic_name": "Engagement.Consent.PTOEng.Flywheel", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Engagement Consent status for the PTO Engine Flywheel", + "is_big_endian": false, + "is_signed": false, + "states": { + "CnsntNtGvnPTODrvMayNotBeEngaged": [0], + "CnsentGivenPTODriveMayBeEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enbl.Switch.PTOEng.Accessory.Drive2" : { + "generic_name": "Enbl.Switch.PTOEng.Accessory.Drive2", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the PTO engine accessory drive 2 enable switch", + "is_big_endian": false, + "is_signed": false, + "states": { + "EnblSwtchOffPTOOprtonNotDesired": [0], + "EnblSwitchOnPTOOperationDesired": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enbl.Switch.PTOEng.Accessory.Drive1" : { + "generic_name": "Enbl.Switch.PTOEng.Accessory.Drive1", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the PTO engine accessory drive 1 enable switch", + "is_big_endian": false, + "is_signed": false, + "states": { + "EnblSwtchOffPTOOprtonNotDesired": [0], + "EnblSwitchOnPTOOperationDesired": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Enable.Switch.PTOEng.Flywheel" : { + "generic_name": "Enable.Switch.PTOEng.Flywheel", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the PTO Engine Flywheel enable switch", + "is_big_endian": false, + "is_signed": false, + "states": { + "EnblSwtchOffPTOOprtonNotDesired": [0], + "EnblSwitchOnPTOOperationDesired": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "At.Least.One.PTOEngaged" : { + "generic_name": "At.Least.One.PTOEngaged", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that at least one PTO is engaged", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoPTODriveIsEngaged": [0], + "AtLeastOnePTODriveIsEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "64930": { + "comment": "Fuel Information 3 (Gaseous)", + "length": 8, + "name": "GFI3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Fuel.Valve2.Outlet.Abs.Press" : { + "generic_name": "Eng.Fuel.Valve2.Outlet.Abs.Press", + "bit_position": 47, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Absolute pressure of gas on outlet side of the second fuel system control valve.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Temp2" : { + "generic_name": "Eng.Fuel.Temp2", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature 2 of fuel (or gas).", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Gas2.Mass.Flow.Rate" : { + "generic_name": "Eng.Gas2.Mass.Flow.Rate", + "bit_position": 15, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Gas mass flow rate delivered to an engine through its second fuel control system, using standard convention for", + "unit": "kg/h", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Valve2.Intake.Abs.Press" : { + "generic_name": "Eng.Fuel.Valve2.Intake.Abs.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Absolute pressure of gas on intake side of the second fuel system control valve, using standard convention for", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64938": { + "comment": "Engine Fluid Level/Pressure 4", + "length": 8, + "name": "EFL_P4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Centrifugal.Oil.Filter.Speed" : { + "generic_name": "Eng.Centrifugal.Oil.Filter.Speed", + "bit_position": 23, + "bit_size": 16, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 257020, + "comment": "The speed of a rotating (centrifugal) engine oil filter.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Coolant.Pump.Diff.Press" : { + "generic_name": "Eng.Coolant.Pump.Diff.Press", + "bit_position": 15, + "bit_size": 8, + "factor": 1.64, + "offset": -7, + "min_value": -7, + "max_value": 403, + "comment": "The differential pressure measured across the input and output of the engine coolant pump.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Charge.Air.Cooler2.Intake.Press" : { + "generic_name": "Eng.Charge.Air.Cooler2.Intake.Press", + "bit_position": 7, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "Pressure of air at intake to 2nd charge air cooler, from multiple first stage turbochargers being cooled and feeding multiple", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Charge.Air.Cooler1.Intake.Press" : { + "generic_name": "Eng.Charge.Air.Cooler1.Intake.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "Pressure of air at intake to 1st or only charge air cooler, from multiple first stage turbochargers being cooled and feeding", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intercooler.Coolant.Level" : { + "generic_name": "Eng.Intercooler.Coolant.Level", + "bit_position": 39, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Ratio of volume of liquid found in an engine intercooler cooling system to total engine intercooler cooling system volume.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Charge.Air.Cooler.Outlet.Press" : { + "generic_name": "Eng.Charge.Air.Cooler.Outlet.Press", + "bit_position": 55, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "Measures pressure of air at outlet from charge air cooler", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Aftercooler.Coolant.Level" : { + "generic_name": "Eng.Aftercooler.Coolant.Level", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Ratio of aftercooler coolant system volume of liquid to total cooling system volume.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64931": { + "comment": "Electronic Engine Controller 6", + "length": 8, + "name": "EEC6", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Vrable.Geometry.Turbo.Actuator1" : { + "generic_name": "Eng.Vrable.Geometry.Turbo.Actuator1", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Actuator that controls the variable geometry turbocharger geometry.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Trb.Cmprssr.Bypss.Acttr1.Tmp.Stts" : { + "generic_name": "Eng.Trb.Cmprssr.Bypss.Acttr1.Tmp.Stts", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Used to identify the status of the Engine Turbocharger Compresssor Bypass Actuator 1 drive circuitry temperature.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HighMostSevere": [0], + "HighLeastSevere": [1], + "InRange": [2], + "LowLeastSevere": [3], + "LowMostSevere": [4], + "NotDefined": [5], + "Error": [6], + "NotAvailable": [7] + } + }, + "Eng.Trb.Cmprssr.Bypss.Acttr1.Prlmnry.FMI" : { + "generic_name": "Eng.Trb.Cmprssr.Bypss.Acttr1.Prlmnry.FMI", + "bit_position": 55, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the appplicable J1939-73 FMI detected in the Engine Turbocharger Compressor Bypass Actuator 1 by", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Trb.Cmprssr.Bypass.Actuator2.Cmd" : { + "generic_name": "Eng.Trb.Cmprssr.Bypass.Actuator2.Cmd", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The command to a compressor bypass actuator 2, normalized to percent, where 0% nominally represents fully closed and", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "RprsntsFllyOpnTypcllyTrbCmprssr": [4] + } + }, + "Eng.Trb.Cmprssr.Bypass.Actuator1.Pos" : { + "generic_name": "Eng.Trb.Cmprssr.Bypass.Actuator1.Pos", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Measures the position of the turbocharger compressor bypass actuator, where 0% represents bypass fully closed and", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "RprsntsBypssFllyOpnTypcllyCmprs": [4] + } + }, + "Eng.Trb.Cmprssr.Bypass.Actuator1.Cmd" : { + "generic_name": "Eng.Trb.Cmprssr.Bypass.Actuator1.Cmd", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The command to a compressor bypass actuator, normalized to percent, where 0% nominally represents fully closed and", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "RprsntsFllyOpnTypcllyTrbCmprssr": [4] + } + }, + "Eng.Dsrd.Trb.Cmprssr.Bypss.Acttr1.Pos" : { + "generic_name": "Eng.Dsrd.Trb.Cmprssr.Bypss.Acttr1.Pos", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The requested position of the Engine Turbocharger Compressor Bypass actuator by the engine ECM, where 0%", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64933": { + "comment": "Door Control 2", + "length": 8, + "name": "DC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Enable.Status.Of.Door10" : { + "generic_name": "Enable.Status.Of.Door10", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of bus door 10.", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorDisabled": [0], + "doorEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Open.Status.Of.Door10" : { + "generic_name": "Open.Status.Of.Door10", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Open status of bus door 10", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorClosed": [0], + "doorOpened": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Lock.Status.Of.Door10" : { + "generic_name": "Lock.Status.Of.Door10", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lock status of bus door 10", + "is_big_endian": false, + "is_signed": false, + "states": { + "unlocked": [0], + "locked": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Door9" : { + "generic_name": "Enable.Status.Of.Door9", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of bus door 9.", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorDisabled": [0], + "doorEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Open.Status.Of.Door9" : { + "generic_name": "Open.Status.Of.Door9", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Open status of bus door 9", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorClosed": [0], + "doorOpened": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Lock.Status.Of.Door9" : { + "generic_name": "Lock.Status.Of.Door9", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lock status of bus door 9", + "is_big_endian": false, + "is_signed": false, + "states": { + "unlocked": [0], + "locked": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Door8" : { + "generic_name": "Enable.Status.Of.Door8", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of bus door 8.", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorDisabled": [0], + "doorEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Open.Status.Of.Door8" : { + "generic_name": "Open.Status.Of.Door8", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Open status of bus door 8", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorClosed": [0], + "doorOpened": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Lock.Status.Of.Door8" : { + "generic_name": "Lock.Status.Of.Door8", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lock status of bus door 8", + "is_big_endian": false, + "is_signed": false, + "states": { + "unlocked": [0], + "locked": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Door7" : { + "generic_name": "Enable.Status.Of.Door7", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of bus door 7.", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorDisabled": [0], + "doorEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Open.Status.Of.Door7" : { + "generic_name": "Open.Status.Of.Door7", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Open status of bus door 7", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorClosed": [0], + "doorOpened": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Lock.Status.Of.Door7" : { + "generic_name": "Lock.Status.Of.Door7", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lock status of bus door 7", + "is_big_endian": false, + "is_signed": false, + "states": { + "unlocked": [0], + "locked": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Door6" : { + "generic_name": "Enable.Status.Of.Door6", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of bus door 6.", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorDisabled": [0], + "doorEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Open.Status.Of.Door6" : { + "generic_name": "Open.Status.Of.Door6", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Open status of bus door 6", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorClosed": [0], + "doorOpened": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Lock.Status.Of.Door6" : { + "generic_name": "Lock.Status.Of.Door6", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lock status of bus door 6", + "is_big_endian": false, + "is_signed": false, + "states": { + "unlocked": [0], + "locked": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Door5" : { + "generic_name": "Enable.Status.Of.Door5", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of bus door 5.", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorDisabled": [0], + "doorEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Open.Status.Of.Door5" : { + "generic_name": "Open.Status.Of.Door5", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Open status of bus door 5", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorClosed": [0], + "doorOpened": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Lock.Status.Of.Door5" : { + "generic_name": "Lock.Status.Of.Door5", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lock status of bus door 5", + "is_big_endian": false, + "is_signed": false, + "states": { + "unlocked": [0], + "locked": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Door4" : { + "generic_name": "Enable.Status.Of.Door4", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of bus door 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorDisabled": [0], + "doorEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Open.Status.Of.Door4" : { + "generic_name": "Open.Status.Of.Door4", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Open status of bus door 4", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorClosed": [0], + "doorOpened": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Lock.Status.Of.Door4" : { + "generic_name": "Lock.Status.Of.Door4", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lock status of bus door 4", + "is_big_endian": false, + "is_signed": false, + "states": { + "unlocked": [0], + "locked": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Door3" : { + "generic_name": "Enable.Status.Of.Door3", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of bus door 3.", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorDisabled": [0], + "doorEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Open.Status.Of.Door3" : { + "generic_name": "Open.Status.Of.Door3", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Open status of bus door 3", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorClosed": [0], + "doorOpened": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Lock.Status.Of.Door3" : { + "generic_name": "Lock.Status.Of.Door3", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lock status of bus door 3", + "is_big_endian": false, + "is_signed": false, + "states": { + "unlocked": [0], + "locked": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Door2" : { + "generic_name": "Enable.Status.Of.Door2", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of bus door 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorDisabled": [0], + "doorEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Open.Status.Of.Door2" : { + "generic_name": "Open.Status.Of.Door2", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Open status of bus door 2", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorClosed": [0], + "doorOpened": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Lock.Status.Of.Door2" : { + "generic_name": "Lock.Status.Of.Door2", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lock status of bus door 2", + "is_big_endian": false, + "is_signed": false, + "states": { + "unlocked": [0], + "locked": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Enable.Status.Of.Door1" : { + "generic_name": "Enable.Status.Of.Door1", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Enable status of bus door 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorDisabled": [0], + "doorEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Open.Status.Of.Door1" : { + "generic_name": "Open.Status.Of.Door1", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Open status of bus door 1", + "is_big_endian": false, + "is_signed": false, + "states": { + "doorClosed": [0], + "doorOpened": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Lock.Status.Of.Door1" : { + "generic_name": "Lock.Status.Of.Door1", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lock status of bus door 1", + "is_big_endian": false, + "is_signed": false, + "states": { + "unlocked": [0], + "locked": [1], + "error": [2], + "notAvailable": [3] + } + } + } + }, + "64923": { + "comment": "Aftertreatment 1 SCR Reagent Information", + "length": 8, + "name": "CRI1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tmp2.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tmp2.Prlmnry.FMI", + "bit_position": 23, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI that applies to the most significant failure of the catalyst temperature sensor.", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Prprts.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Prprts.Prlmnry.FMI", + "bit_position": 31, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI that applies to the most significant failure of the catalyst reagent properties", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Cndctvty" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Cndctvty", + "bit_position": 15, + "bit_size": 8, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 1250, + "comment": "A measure of the conductivity of the reagent or fluid at the sensor.", + "unit": "microSiemens/mm", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Cncntrtn" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Cncntrtn", + "bit_position": 7, + "bit_size": 8, + "factor": 0.25, + "offset": 0, + "min_value": 0, + "max_value": 62.5, + "comment": "A measure of the concentration of urea in water.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Reagent.Type" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Reagent.Type", + "bit_position": 39, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates what reagent is in the tank.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CtlystRgntIsUrCncntrtionTooHigh": [0], + "CtlystRgntIsUrCncntrationTooLow": [1], + "CatalystReagentIsDiesel": [2], + "CatalystReagentIsProperMixture": [3], + "to1100ReservedForSAEAssignment": [5], + "NtAblTDtrmneCatalystReagentType": [13], + "ErrrDtctdWthUrRgntTypeDetection": [14], + "NotAvailable": [15] + } + }, + "Aftrtrtmnt1.SCRCtlyst.Ragent.Temp2" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Ragent.Temp2", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of the catalyst reagent at the device measuring reagent quality", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61468": { + "comment": "Requested Generator Average Basic AC Quantities", + "length": 8, + "name": "RGAAQ", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Rqd.Gnrtr.Avrg.Lne.Line.ACRMSVoltage" : { + "generic_name": "Rqd.Gnrtr.Avrg.Lne.Line.ACRMSVoltage", + "bit_position": -1, + "bit_size": 32, + "factor": 0.0078125, + "offset": 0, + "min_value": 0, + "max_value": 32899071, + "comment": "The requested average AC RMS voltage to be delivered by the generator.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61466": { + "comment": "Engine Throttle / Fuel Actuator Control Command", + "length": 8, + "name": "TFAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Throttle.Actuator2.Ctrl.Cmd" : { + "generic_name": "Eng.Throttle.Actuator2.Ctrl.Cmd", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The control command to throttle actuator 2, normalized to percent, where 0% represents fully closed and 100%", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Throttle.Actuator1.Ctrl.Cmd" : { + "generic_name": "Eng.Throttle.Actuator1.Ctrl.Cmd", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The control command to throttle actuator 1, normalized to percent, where 0% represents fully closed and 100%", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Actuator2.Ctrl.Cmd" : { + "generic_name": "Eng.Fuel.Actuator2.Ctrl.Cmd", + "bit_position": 47, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The control command to fuel actuator 2, normalized to percent, where 0% represents fully closed and 100% represents", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Actuator1.Ctrl.Cmd" : { + "generic_name": "Eng.Fuel.Actuator1.Ctrl.Cmd", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The control command to fuel actuator 1, normalized to percent, where 0% represents fully closed and 100% represents", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61465": { + "comment": "Engine Knock Level #3", + "length": 8, + "name": "KL3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl24.Knock.Level" : { + "generic_name": "Eng.Cyl24.Knock.Level", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 24.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl23.Knock.Level" : { + "generic_name": "Eng.Cyl23.Knock.Level", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 23.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl22.Knock.Level" : { + "generic_name": "Eng.Cyl22.Knock.Level", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 22.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl21.Knock.Level" : { + "generic_name": "Eng.Cyl21.Knock.Level", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 21.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl20.Knock.Level" : { + "generic_name": "Eng.Cyl20.Knock.Level", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 20.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl19.Knock.Level" : { + "generic_name": "Eng.Cyl19.Knock.Level", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 19.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl18.Knock.Level" : { + "generic_name": "Eng.Cyl18.Knock.Level", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 18.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl17.Knock.Level" : { + "generic_name": "Eng.Cyl17.Knock.Level", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 17.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61464": { + "comment": "Engine Knock Level #2", + "length": 8, + "name": "KL2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl15.Knock.Level" : { + "generic_name": "Eng.Cyl15.Knock.Level", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 15.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl14.Knock.Level" : { + "generic_name": "Eng.Cyl14.Knock.Level", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 14.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl13.Knock.Level" : { + "generic_name": "Eng.Cyl13.Knock.Level", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 13.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl12.Knock.Level" : { + "generic_name": "Eng.Cyl12.Knock.Level", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 12.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl11.Knock.Level" : { + "generic_name": "Eng.Cyl11.Knock.Level", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 11.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl10.Knock.Level" : { + "generic_name": "Eng.Cyl10.Knock.Level", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 10.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl9.Knock.Level" : { + "generic_name": "Eng.Cyl9.Knock.Level", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 9.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl16.Knock.Level" : { + "generic_name": "Eng.Cyl16.Knock.Level", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 16.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61463": { + "comment": "Engine Knock Level #1", + "length": 8, + "name": "KL1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl8.Knock.Level" : { + "generic_name": "Eng.Cyl8.Knock.Level", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 8.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl7.Knock.Level" : { + "generic_name": "Eng.Cyl7.Knock.Level", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 7.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl6.Knock.Level" : { + "generic_name": "Eng.Cyl6.Knock.Level", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 6.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl5.Knock.Level" : { + "generic_name": "Eng.Cyl5.Knock.Level", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 5.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl4.Knock.Level" : { + "generic_name": "Eng.Cyl4.Knock.Level", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 4.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl3.Knock.Level" : { + "generic_name": "Eng.Cyl3.Knock.Level", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 3.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl2.Knock.Level" : { + "generic_name": "Eng.Cyl2.Knock.Level", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 2.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl1.Knock.Level" : { + "generic_name": "Eng.Cyl1.Knock.Level", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Used to indicate the level of knock for engine cylinder 1.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61462": { + "comment": "Cylinder Combustion Status", + "length": 8, + "name": "CCS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl9.Combustion.Status" : { + "generic_name": "Eng.Cyl9.Combustion.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #9", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl8.Combustion.Status" : { + "generic_name": "Eng.Cyl8.Combustion.Status", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #8", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl7.Combustion.Status" : { + "generic_name": "Eng.Cyl7.Combustion.Status", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #7", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl6.Combustion.Status" : { + "generic_name": "Eng.Cyl6.Combustion.Status", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #6", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl5.Combustion.Status" : { + "generic_name": "Eng.Cyl5.Combustion.Status", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #5", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl4.Combustion.Status" : { + "generic_name": "Eng.Cyl4.Combustion.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #4", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl3.Combustion.Status" : { + "generic_name": "Eng.Cyl3.Combustion.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #3", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl2.Combustion.Status" : { + "generic_name": "Eng.Cyl2.Combustion.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #2", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl24.Combustion.Status" : { + "generic_name": "Eng.Cyl24.Combustion.Status", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #24", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl23.Combustion.Status" : { + "generic_name": "Eng.Cyl23.Combustion.Status", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #23", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl22.Combustion.Status" : { + "generic_name": "Eng.Cyl22.Combustion.Status", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #22", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl21.Combustion.Status" : { + "generic_name": "Eng.Cyl21.Combustion.Status", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #21", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl20.Combustion.Status" : { + "generic_name": "Eng.Cyl20.Combustion.Status", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #20", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl1.Combustion.Status" : { + "generic_name": "Eng.Cyl1.Combustion.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #1", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl19.Combustion.Status" : { + "generic_name": "Eng.Cyl19.Combustion.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #19", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl18.Combustion.Status" : { + "generic_name": "Eng.Cyl18.Combustion.Status", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #18", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl17.Combustion.Status" : { + "generic_name": "Eng.Cyl17.Combustion.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #17", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl16.Combustion.Status" : { + "generic_name": "Eng.Cyl16.Combustion.Status", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #16", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl15.Combustion.Status" : { + "generic_name": "Eng.Cyl15.Combustion.Status", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #15", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl14.Combustion.Status" : { + "generic_name": "Eng.Cyl14.Combustion.Status", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #14", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl13.Combustion.Status" : { + "generic_name": "Eng.Cyl13.Combustion.Status", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #13", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl12.Combustion.Status" : { + "generic_name": "Eng.Cyl12.Combustion.Status", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #12", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl11.Combustion.Status" : { + "generic_name": "Eng.Cyl11.Combustion.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #11", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Cyl10.Combustion.Status" : { + "generic_name": "Eng.Cyl10.Combustion.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate state of combustion in engine cylinder #10", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCombustion": [0], + "CombustionExists": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "61461": { + "comment": "Requested Generator Total AC Reactive Power", + "length": 8, + "name": "RGTARP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Rq.Gen.Overall.Power.Factor.Lagging" : { + "generic_name": "Rq.Gen.Overall.Power.Factor.Lagging", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4, + "comment": "The requested lead/lag status for the generator average AC power factor", + "is_big_endian": false, + "is_signed": false, + "states": { + "Leading": [0], + "Lagging": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Rq.Generator.Overall.Power.Factor" : { + "generic_name": "Rq.Generator.Overall.Power.Factor", + "bit_position": 31, + "bit_size": 16, + "factor": 0.00006103515625, + "offset": -1, + "min_value": -1, + "max_value": 2.921814, + "comment": "The requested average power factor of the generator.", + "is_big_endian": false, + "is_signed": false + }, + "Rq.Generator.Total.ACReactive.Power" : { + "generic_name": "Rq.Generator.Total.ACReactive.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2000000000, + "comment": "The total reactive power requested to be delivered by the generator", + "unit": "VA", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61460": { + "comment": "Blade Information", + "length": 8, + "name": "BI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Rltv.Bld.Hght.And.Bld.Rttn.Angl.Msrmnt.Ltncy" : { + "generic_name": "Rltv.Bld.Hght.And.Bld.Rttn.Angl.Msrmnt.Ltncy", + "bit_position": 31, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "The estimated measurement latency of the measurement.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Rlative.Blade.Height.Figure.Of.Merit" : { + "generic_name": "Rlative.Blade.Height.Figure.Of.Merit", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Figure of merit for blade height measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "RltvBldHghtFllyFnctnlDtIsWthnSn": [0], + "RltvBldHghtDgrddDtIsSspctDTEnvr": [1], + "RelativeBladeHeightFailed": [2], + "RelativeBladeHeightNotAvailable": [3] + } + }, + "Blade.Rotation.Angle.Figure.Of.Merit" : { + "generic_name": "Blade.Rotation.Angle.Figure.Of.Merit", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Figure of merit for blade rotation measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "BldRttnAnglFllyFnctnlDtIsWthnSn": [0], + "BldRttnAnglDgrddDtIsSspctDTEnvr": [1], + "BldRttnAnglFldRllSnsrFldTOprtCr": [2], + "BladeRotationAngleNotAvailable": [3] + } + }, + "Blade.Rotation.Angle" : { + "generic_name": "Blade.Rotation.Angle", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The blade rotation angle measurement around the yaw (z-axis).", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Relative.Blade.Height" : { + "generic_name": "Relative.Blade.Height", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": -3200, + "min_value": -3200, + "max_value": 3225.5, + "comment": "The measured vertical distance from a fixed location on the machine blade to a ground-based reference.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "766": { + "comment": "ISO 11992: Towing vehicle message, electronic brake system #1/1", + "length": 8, + "name": "EBS11", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Retarder.Demand.Value" : { + "generic_name": "Retarder.Demand.Value", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The demanded value of the retarder on the towed vehicle(s) as a percentage of the absolute peak torque of retarder.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Park.Brake.Demand.Value" : { + "generic_name": "Park.Brake.Demand.Value", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The requested brake pressure value of the parking brake as a percentage of maximum.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Service.Brake.Demand.Value" : { + "generic_name": "Service.Brake.Demand.Value", + "bit_position": 15, + "bit_size": 16, + "factor": 0.01953125, + "offset": 0, + "min_value": 0, + "max_value": 1255, + "comment": "The requested brake pressure value of the service brake demanded by the driver.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Vehicle.Type" : { + "generic_name": "Vehicle.Type", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Information to identify a dolly axle within the road train.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Towing or towed vehicle": [0], + "Dolly axle": [1] + } + }, + "Brake.Light.Switch" : { + "generic_name": "Brake.Light.Switch", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates that the brake pedal is being pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Switch off": [0], + "Switch on": [1] + } + }, + "A.SREngine.Control.Active" : { + "generic_name": "A.SREngine.Control.Active", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates that ASR engine control is active/passive.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ASREngnCntrlPassiveButInstalled": [0], + "ASREngineControlActive": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "A.SRBreak.Control.Active" : { + "generic_name": "A.SRBreak.Control.Active", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates that ASR brake control is active/passive.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Passive, but installed": [0], + "Active": [1] + } + }, + "Vehicle.Retarder.Ctrl.Active" : { + "generic_name": "Vehicle.Retarder.Ctrl.Active", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the active/passive state in all cases when the installed retarder is applied by the driver's demand or by other systems (brakes).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Passive": [0], + "Active": [1] + } + }, + "Vehicle.ABSActive" : { + "generic_name": "Vehicle.ABSActive", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the ABS is active/passive.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Passiv, but installed": [0], + "Active": [1] + } + } + } + }, + "65225": { + "comment": "ISO 11992: Towing vehicle message, electronic brake system #1/2", + "length": 8, + "name": "EBS12", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Road.Curvature" : { + "generic_name": "Road.Curvature", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 251.992, + "comment": "Estimated value of the current road curvature for use by the adaptive cruise control system.", + "unit": "1/km", + "is_big_endian": false, + "is_signed": false + }, + "Pneumatic.Control.Line" : { + "generic_name": "Pneumatic.Control.Line", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates that the towing vehicle has a pneumatic control line for the towed vehicle service braking system", + "is_big_endian": false, + "is_signed": false, + "states": { + "Towing veh without pn ctrl line": [0], + "Towing veh with pn ctrl line": [1] + } + }, + "A.BSOffroad.Request" : { + "generic_name": "A.BSOffroad.Request", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Request to activate the ABS off-road function. The switch signal is independent of an actual ABS control situation.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ABS off-road switch off": [0], + "ABS off-road switch on": [1] + } + }, + "Two.El.Circuits.Brake.Demand" : { + "generic_name": "Two.El.Circuits.Brake.Demand", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates that the service brake demand value sent by the towing vehicle can be generated by one or two independent electrical braking circuit(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "One el. circuit brake available": [0], + "Two el. circuit brake available": [1] + } + }, + "Vehicle.Retarder.Ctrl.Active" : { + "generic_name": "Vehicle.Retarder.Ctrl.Active", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the active/passive state in all cases when the installed retarder is applied by the driver's demand or by other systems (brakes).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Passive": [0], + "Active": [1] + } + } + } + }, + "1022": { + "comment": "ISO 11992: Towed vehicle message, electronic brake system #2/1", + "length": 8, + "name": "EBS21", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Wheel.Speed.Diff.Main.Axle" : { + "generic_name": "Wheel.Speed.Diff.Main.Axle", + "bit_position": 39, + "bit_size": 16, + "factor": 0.00390625, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Difference between the wheel speed at the right side and and the left side of the main axle.", + "unit": "km/hr", + "is_big_endian": false, + "is_signed": false + }, + "Actual.Retarder.Perc.Torque" : { + "generic_name": "Actual.Retarder.Perc.Torque", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Actual torque of the retarder as negative percentage of maximum.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Wheel_.Based.Vehicle.Speed" : { + "generic_name": "Wheel_.Based.Vehicle.Speed", + "bit_position": 15, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 251, + "comment": "Actual speed of the vehicle (positive value for forward and backward speed) calculated as the average of the wheel speeds of one axle influenced by slip and filtered by a frequency range of 5 Hz to 20 Hz.", + "unit": "km/hr", + "is_big_endian": false, + "is_signed": false + }, + "Supply.Line.Braking.Request" : { + "generic_name": "Supply.Line.Braking.Request", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the trailer is requesting to be braked by the commercial vehicle by means of bleeding the pneumatic supply line.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No supply line braking request": [0], + "Supply line braking request": [1] + } + }, + "V.DCActive" : { + "generic_name": "V.DCActive", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates that Vehicle Dynamic Control (VDC) is active/passive.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Passive, but installed": [0], + "Active": [1] + } + }, + "Autom.Towed.Veh.Break.Active" : { + "generic_name": "Autom.Towed.Veh.Break.Active", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the automatic towed vehicle braking is active/passive.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Passive": [0], + "Active": [1] + } + }, + "Vehicle.Service.Brake.Active" : { + "generic_name": "Vehicle.Service.Brake.Active", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the service brake of the towed vehicle is active/passive, by observing the brake pressure.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Passive": [0], + "Active": [1] + } + }, + "Vehicle.Retarder.Ctrl.Active" : { + "generic_name": "Vehicle.Retarder.Ctrl.Active", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the active/passive state in all cases when the installed retarder is applied by the driver's demand or by other systems (brakes).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Passive": [0], + "Active": [1] + } + }, + "Vehicle.ABSActive" : { + "generic_name": "Vehicle.ABSActive", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the ABS is active/passive.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Passiv, but installed": [0], + "Active": [1] + } + } + } + }, + "65220": { + "comment": "ISO 11992: Towed vehicle message, electronic brake system #2/2", + "length": 8, + "name": "EBS22", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Reference.Retarder.Torque" : { + "generic_name": "Reference.Retarder.Torque", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "This parameter is the 100% reference value for all defined indicated retarder torque parameters.", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Axle.Load.Sum" : { + "generic_name": "Axle.Load.Sum", + "bit_position": 31, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "Sum of the static vertical loads of the vehicle axles.", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Supply.Line.Braking.Request" : { + "generic_name": "Supply.Line.Braking.Request", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the trailer is requesting to be braked by the commercial vehicle by means of bleeding the pneumatic supply line.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No supply line braking request": [0], + "Supply line braking request": [1] + } + }, + "Loading.Ramp.Approach.Assist" : { + "generic_name": "Loading.Ramp.Approach.Assist", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "The parameter indicates whether the loading ramp approach assistance is activated.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Assistance not active": [0], + "Assistance active": [1] + } + }, + "Spring.Brake.Engaged" : { + "generic_name": "Spring.Brake.Engaged", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the vehicle spring brake is engaged.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Vehicle spring brake is released": [0], + "Vehicle spring brake is engaged": [1] + } + }, + "Electr.Load.Prop.Func" : { + "generic_name": "Electr.Load.Prop.Func", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the vehicle is equipped with an electrical load proportional function.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Vehicle without el. load proport": [0], + "Vehicle with el. load proportion": [1] + } + }, + "Spring.Brake.Installed" : { + "generic_name": "Spring.Brake.Installed", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the vehicle has one or more axle(s) fitted with spring brakes.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Vehicle without spring brakes": [0], + "Vehicle with spring brakes": [1] + } + }, + "Vehicle.Type" : { + "generic_name": "Vehicle.Type", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Information to identify a dolly axle within the road train.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Towing or towed vehicle": [0], + "Dolly axle": [1] + } + }, + "Elec.Supply.Of.Non.Braking.Sys" : { + "generic_name": "Elec.Supply.Of.Non.Braking.Sys", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the status of the supply of non-braking systems.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Supply switched off": [0], + "Supply switched on": [1] + } + }, + "Amber.Warning.Signal.Req" : { + "generic_name": "Amber.Warning.Signal.Req", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Request from the towed vehicle to the commercial vehicle to activate the amber warning signal on the commercial vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No towed vehicle failure indicat": [0], + "Towed vehicle failure indicated": [1] + } + }, + "Red.Warning.Signal.Request" : { + "generic_name": "Red.Warning.Signal.Request", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Request from the towed vehicle to the commercial vehicle to activate the red warning signal on the commercial vehicle, which indicates certain specified failures within the braking equipment of the towed vehicles.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No towed vehicle failure indicat": [0], + "Towed vehicle failure indicated": [1] + } + }, + "Vehicle.Electr.Supply.Suff" : { + "generic_name": "Vehicle.Electr.Supply.Suff", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the actual supply voltage is sufficient/insufficient for proper brake function (including over voltage).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Vehicle el. supply insufficient": [0], + "Vehicle el. supply sufficient": [1] + } + }, + "Autom.Towed.Veh.Break.Active" : { + "generic_name": "Autom.Towed.Veh.Break.Active", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the automatic towed vehicle braking is active/passive.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Passive": [0], + "Active": [1] + } + }, + "Vehicle.Service.Brake.Active" : { + "generic_name": "Vehicle.Service.Brake.Active", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the service brake of the towed vehicle is active/passive, by observing the brake pressure.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Passive": [0], + "Active": [1] + } + }, + "Vehicle.Retarder.Ctrl.Active" : { + "generic_name": "Vehicle.Retarder.Ctrl.Active", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the active/passive state in all cases when the installed retarder is applied by the driver's demand or by other systems (brakes).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Passive": [0], + "Active": [1] + } + }, + "Vehicle.ABSActive" : { + "generic_name": "Vehicle.ABSActive", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the ABS is active/passive.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Passiv, but installed": [0], + "Active": [1] + } + } + } + }, + "65222": { + "comment": "ISO 11992: Towed vehicle message, electronic brake system #2/3", + "length": 8, + "name": "EBS23", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Pneumatic.Supply.Pressure" : { + "generic_name": "Pneumatic.Supply.Pressure", + "bit_position": 55, + "bit_size": 8, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 1250, + "comment": "Actual supply pressure of the reservoir of the braking system.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Brake.Temperature" : { + "generic_name": "Brake.Temperature", + "bit_position": 47, + "bit_size": 8, + "factor": 10, + "offset": 0, + "min_value": 0, + "max_value": 2500, + "comment": "Actual brake temperature.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Brake.Lining" : { + "generic_name": "Brake.Lining", + "bit_position": 39, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Actual relative value of brake lining of a specific brake.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Tyre.Pressure" : { + "generic_name": "Tyre.Pressure", + "bit_position": 31, + "bit_size": 8, + "factor": 10, + "offset": 0, + "min_value": 0, + "max_value": 2500, + "comment": "Actual tyre pressure without corrections.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tyre.Wheel.Ident.Temp2" : { + "generic_name": "Tyre.Wheel.Ident.Temp2", + "bit_position": 27, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Second part of identification number of the tyre or wheel (the number of axles).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Axle position not identified": [0], + "Axle position 1": [1], + "Axle position 2": [2], + "Axle position 3": [3], + "Axle position 4": [4], + "Axle position 5": [5], + "Axle position 6": [6], + "Axle position 7": [7], + "Axle position 8": [8], + "Axle position 9": [9], + "Axle position 10": [10], + "Axle position 11": [11], + "Axle position 12": [12], + "Axle position 13": [13], + "Axle position 14": [14], + "Axle position 15": [15] + } + }, + "Tyre.Wheel.Ident.Temp1" : { + "generic_name": "Tyre.Wheel.Ident.Temp1", + "bit_position": 23, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "First part of identification number of the tyre or wheel (position on each axle).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Wheel position not identified": [0], + "Wheel position 1": [1], + "Wheel position 2": [2], + "Wheel position 3": [3], + "Wheel position 4": [4], + "Wheel position 5": [5], + "Wheel position 6": [6], + "Wheel position 7": [7], + "Wheel position 8": [8], + "Wheel position 9": [9], + "Wheel position 10": [10], + "Wheel position 11": [11], + "Wheel position 12": [12], + "Wheel position 13": [13], + "Wheel position 14": [14], + "Wheel position 15": [15] + } + }, + "Tyre.Wheel.Ident.Pressure2" : { + "generic_name": "Tyre.Wheel.Ident.Pressure2", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Second part of identification number of the tyre or wheel (the number of axles).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Axle position not identified": [0], + "Axle position 1": [1], + "Axle position 2": [2], + "Axle position 3": [3], + "Axle position 4": [4], + "Axle position 5": [5], + "Axle position 6": [6], + "Axle position 7": [7], + "Axle position 8": [8], + "Axle position 9": [9], + "Axle position 10": [10], + "Axle position 11": [11], + "Axle position 12": [12], + "Axle position 13": [13], + "Axle position 14": [14], + "Axle position 15": [15] + } + }, + "Tyre.Wheel.Ident.Pressure1" : { + "generic_name": "Tyre.Wheel.Ident.Pressure1", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "First part of identification number of the tyre or wheel (position on each axle).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Wheel position not identified": [0], + "Wheel position 1": [1], + "Wheel position 2": [2], + "Wheel position 3": [3], + "Wheel position 4": [4], + "Wheel position 5": [5], + "Wheel position 6": [6], + "Wheel position 7": [7], + "Wheel position 8": [8], + "Wheel position 9": [9], + "Wheel position 10": [10], + "Wheel position 11": [11], + "Wheel position 12": [12], + "Wheel position 13": [13], + "Wheel position 14": [14], + "Wheel position 15": [15] + } + }, + "Tyre.Wheel.Ident.Lining2" : { + "generic_name": "Tyre.Wheel.Ident.Lining2", + "bit_position": 19, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Second part of identification number of the tyre or wheel (the number of axles).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Axle position not identified": [0], + "Axle position 1": [1], + "Axle position 2": [2], + "Axle position 3": [3], + "Axle position 4": [4], + "Axle position 5": [5], + "Axle position 6": [6], + "Axle position 7": [7], + "Axle position 8": [8], + "Axle position 9": [9], + "Axle position 10": [10], + "Axle position 11": [11], + "Axle position 12": [12], + "Axle position 13": [13], + "Axle position 14": [14], + "Axle position 15": [15] + } + }, + "Tyre.Wheel.Ident.Lining1" : { + "generic_name": "Tyre.Wheel.Ident.Lining1", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "First part of identification number of the tyre or wheel (position on each axle).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Wheel position not identified": [0], + "Wheel position 1": [1], + "Wheel position 2": [2], + "Wheel position 3": [3], + "Wheel position 4": [4], + "Wheel position 5": [5], + "Wheel position 6": [6], + "Wheel position 7": [7], + "Wheel position 8": [8], + "Wheel position 9": [9], + "Wheel position 10": [10], + "Wheel position 11": [11], + "Wheel position 12": [12], + "Wheel position 13": [13], + "Wheel position 14": [14], + "Wheel position 15": [15] + } + }, + "Vehicle.Pneum.Supply.Suff" : { + "generic_name": "Vehicle.Pneum.Supply.Suff", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the actual supply pressure of the reservoir of the braking system is insufficient or sufficient.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Pneumatic supply insufficient": [0], + "Pneumatic supply sufficient": [1] + } + }, + "Brake.Temperature.Status" : { + "generic_name": "Brake.Temperature.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates that the brake temperature is higher than a specific level.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Brake temperature out of range": [0], + "Brake temperature normal": [1] + } + }, + "Brake.Lining.Sufficient" : { + "generic_name": "Brake.Lining.Sufficient", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates that the brake lining is sufficient/insufficient.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Brake linings insufficient": [0], + "Brake linings sufficient": [1] + } + }, + "Tyre.Pressure.Sufficient" : { + "generic_name": "Tyre.Pressure.Sufficient", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates that the tyre pressure is insufficient", + "is_big_endian": false, + "is_signed": false, + "states": { + "Tyre pressure insufficient": [0], + "Tyre pressure sufficient": [1] + } + } + } + }, + "58110": { + "comment": "ISO 11992: Towing vehicle message, general purpose message #1/1GPM 11 replaces GFM 11 in ISO 11992:1998 part 3", + "length": 8, + "name": "GPM11", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "O.DDRequest" : { + "generic_name": "O.DDRequest", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to switch on or off the obstacle detection device (ODD).", + "is_big_endian": false, + "is_signed": false, + "states": { + "ODD off": [0], + "ODD on": [1], + "Take no action": [3] + } + }, + "Anti.Theft.Device.Req" : { + "generic_name": "Anti.Theft.Device.Req", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to activate the anti-theft device.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Anti-theft device off": [0], + "Anti-theft device on": [1], + "Take no action": [3] + } + }, + "Vehicle.Type" : { + "generic_name": "Vehicle.Type", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Information to identify a dolly axle within the road train.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Towing or towed vehicle": [0], + "Dolly axle": [1] + } + } + } + }, + "65117": { + "comment": "ISO 11992: Towing vehicle message, general purpose message #1/2", + "length": 8, + "name": "GPM12", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Max.Vehicle.Speed.Limit" : { + "generic_name": "Max.Vehicle.Speed.Limit", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Maximum vehicle velocity allowed.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Engine.Speed.Upper.Limit" : { + "generic_name": "Engine.Speed.Upper.Limit", + "bit_position": -1, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "The engine speed which cannot be exceeded.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Engine.Speed.Lower.Limit" : { + "generic_name": "Engine.Speed.Lower.Limit", + "bit_position": 15, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8191.875, + "comment": "The minimum engine speed which the engine is allowed to reach.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65119": { + "comment": "ISO 11992: Towing vehicle message, general purpose message #1/3", + "length": 8, + "name": "GPM13", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Engine.Torque.Mode" : { + "generic_name": "Engine.Torque.Mode", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "State signal which indicates which engine torque mode is currently generating, limiting, or controlling the torque", + "is_big_endian": false, + "is_signed": false, + "states": { + "Low idle governor/no request (de": [0], + "Accelerator pedal/operator selec": [1], + "Cruise control": [2], + "PTO governor": [3], + "Road speed governor": [4], + "ASR control": [5], + "Transmission control": [6], + "ABS control": [7], + "Torque limiting": [8], + "High speed governor": [9], + "Braking system": [10], + "Remote accelerator": [11], + "Not available": [15] + } + }, + "Vehicle.Speed" : { + "generic_name": "Vehicle.Speed", + "bit_position": 47, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 250.996, + "comment": "None", + "unit": "km/hr", + "is_big_endian": false, + "is_signed": false + }, + "Percent.Load.At.Current.Speed" : { + "generic_name": "Percent.Load.At.Current.Speed", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "The ratio of actual engine percent torque to maximum indicated torque available at the current engine speed, clipped to zero torque during engine braking.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Engine.Speed" : { + "generic_name": "Engine.Speed", + "bit_position": 23, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.88, + "comment": "Actual engine speed which is calculated over a minimum crankshaft angle of 720 degrees divided bythe number of cylinders.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Actual.Engine_.Perc.Torque" : { + "generic_name": "Actual.Engine_.Perc.Torque", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The calculated output torque of the engine.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Drivers.Demand.Engine_.Perc.Torque" : { + "generic_name": "Drivers.Demand.Engine_.Perc.Torque", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The torque output of the engine requested by the driver.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Engine.Running" : { + "generic_name": "Engine.Running", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates whether the engine is running.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Engine not running": [0], + "Engine running": [1] + } + }, + "Engine.Control.Allowed" : { + "generic_name": "Engine.Control.Allowed", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Switch signal which indicates that engine control is allowed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Engine control not allowed": [0], + "Engine control allowed": [1] + } + } + } + }, + "65121": { + "comment": "ISO 11992: Towing vehicle message, general purpose message #1/4", + "length": 8, + "name": "GPM14", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Clutch.Indptd.PTOFeedback" : { + "generic_name": "Clutch.Indptd.PTOFeedback", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the current state of the clutch independent power take off.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Not engaged": [0], + "Engaged": [1] + } + }, + "Accel.Pedal.Position" : { + "generic_name": "Accel.Pedal.Position", + "bit_position": 55, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The ratio of actual accelerator pedal position to maximum pedal position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Accel.Pedal.Low.Idle.Switch" : { + "generic_name": "Accel.Pedal.Low.Idle.Switch", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Switch signal which indicates whether the accelerator pedal low idle switch is opened or closed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Not in low idle condition": [0], + "In low idle condition": [1] + } + }, + "Starter.Active" : { + "generic_name": "Starter.Active", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates whether the starter is in use.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Starter not active": [0], + "Starter active": [1] + } + }, + "Torque.Conv.Oil.Temp" : { + "generic_name": "Torque.Conv.Oil.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature of the torque converter lubricant.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Torque.Convt.Oil.Temp.Warning" : { + "generic_name": "Torque.Convt.Oil.Temp.Warning", + "bit_position": 27, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 2, + "comment": "Signal which indicates that the torque converter oil temperature has reached its warning level.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No warning": [0], + "Prewarning": [1], + "Warning": [2] + } + }, + "P.TOControl.Allowed" : { + "generic_name": "P.TOControl.Allowed", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Switch signal which indicates that PTO control is allowed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PTO control not allowed": [0], + "PTO control allowed": [1] + } + }, + "Sec.Engine.Mtd.PTOFeedback" : { + "generic_name": "Sec.Engine.Mtd.PTOFeedback", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the current state of the second engine mounted power take off.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Limits not activated": [0], + "Limits activated": [1] + } + }, + "First.Engine.Mtd.PTOFeedback" : { + "generic_name": "First.Engine.Mtd.PTOFeedback", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the current state of the first engine mounted power take off.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Limits not activated": [0], + "Limits activated": [1] + } + }, + "Sec.Clutch.Dptd.PTOFeedback" : { + "generic_name": "Sec.Clutch.Dptd.PTOFeedback", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the current state of the second clutch dependent power take off.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Not engaged": [0], + "Engaged": [1] + } + }, + "First.Clutch.Dpdt.PTOFeedback" : { + "generic_name": "First.Clutch.Dpdt.PTOFeedback", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the current state of the first clutch dependent power take off.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Not engaged": [0], + "Engaged": [1] + } + }, + "Current.Gear" : { + "generic_name": "Current.Gear", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The gear currently engaged in the transmission or the last gear engaged while the transmission is in process of shifting to the new or selected gear.", + "is_big_endian": false, + "is_signed": false + }, + "Percent.Clutch.Slip" : { + "generic_name": "Percent.Clutch.Slip", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Parameter which represents the ratio of input shaft speed to current engine speed (in percent).", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65123": { + "comment": "ISO 11992: Towing vehicle message, general purpose message #1/5", + "length": 8, + "name": "GPM15", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Reference.Engine.Torque" : { + "generic_name": "Reference.Engine.Torque", + "bit_position": 39, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The 100 % reference value for all defined indicated engine torque parameters.", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Fuel.Level.Warning" : { + "generic_name": "Fuel.Level.Warning", + "bit_position": 36, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "This signal indicates the decrease of the fuel level to a certain minimum.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Fuel level warning off": [0], + "Fuel level warning on": [1] + } + }, + "Engine.Oil.Pressure.Warning" : { + "generic_name": "Engine.Oil.Pressure.Warning", + "bit_position": 34, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates that the engine oil pressure has reached its warning level.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No warning": [0], + "Warning": [1] + } + }, + "Engine.Coolant.Temp.Warning" : { + "generic_name": "Engine.Coolant.Temp.Warning", + "bit_position": 31, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 2, + "comment": "Signal which indicates that the engine coolant temperature has reached its warning level.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No warning": [0], + "Prewarning": [1], + "Warning": [2] + } + }, + "Engine.Oil.Pressure" : { + "generic_name": "Engine.Oil.Pressure", + "bit_position": 23, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Gauge pressure of the oil in the engine lubrication system as provided by the oil pump.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Engine.Coolant.Temperature" : { + "generic_name": "Engine.Coolant.Temperature", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "None", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Engine.Oil.Temperature" : { + "generic_name": "Engine.Oil.Temperature", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature of the engine lubricant.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65125": { + "comment": "ISO 11992: Towing vehicle message, general purpose message #1/6", + "length": 8, + "name": "GPM16", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Ambient.Air.Temperature" : { + "generic_name": "Ambient.Air.Temperature", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature of air surrounding vehicle.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "57854": { + "comment": "ISO 11992: Towed vehicle message, general purpose message #2/1GPM 21 replaces GFM 21 in ISO 11992:1998 part 3", + "length": 8, + "name": "GPM21", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Vehicle.Type" : { + "generic_name": "Vehicle.Type", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Information to identify a dolly axle within the road train.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Towing or towed vehicle": [0], + "Dolly axle": [1] + } + } + } + }, + "65224": { + "comment": "ISO 11992: Towed vehicle message, general purpose message #2/2GPM22 replaces GFM 24 in ISO 11992:1998 part 3", + "length": 8, + "name": "GPM22", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Body.Pressure" : { + "generic_name": "Body.Pressure", + "bit_position": 47, + "bit_size": 8, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 25, + "comment": "The actual pressure in a body on the towed vehicle.", + "unit": "bar", + "is_big_endian": false, + "is_signed": false + }, + "Body.Fluid.Level" : { + "generic_name": "Body.Fluid.Level", + "bit_position": 31, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "The actual fluid level in a body on the towed vehicle.", + "unit": "L", + "is_big_endian": false, + "is_signed": false + }, + "Thermal.Body.Temperature" : { + "generic_name": "Thermal.Body.Temperature", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The actual temperature in a thermal body on the towed vehicle.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Rear.Obstacle.Distance" : { + "generic_name": "Rear.Obstacle.Distance", + "bit_position": 15, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "The actual distance between the back of the towed vehicle and any obstacle.", + "unit": "cm", + "is_big_endian": false, + "is_signed": false + }, + "Anti.Theft.Device.Status" : { + "generic_name": "Anti.Theft.Device.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates that the anti-theft device is switched on or off.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Anti-theft device off": [0], + "Anti-theft device on": [1] + } + }, + "O.DDStatus" : { + "generic_name": "O.DDStatus", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates that an obstacle detection device (ODD) is active/inactive.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ODD inactive": [0], + "ODD active": [1] + } + } + } + }, + "65120": { + "comment": "ISO 11992: Towed vehicle message, general purpose message #2/3", + "length": 8, + "name": "GPM23", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Req.Engine.Speed.Upper.Lim" : { + "generic_name": "Req.Engine.Speed.Upper.Lim", + "bit_position": 15, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "The requested engine speed which is not to be exceeded.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Req.Engine.Speed.Lower.Lim" : { + "generic_name": "Req.Engine.Speed.Lower.Lim", + "bit_position": 31, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "The requested minimum engine speed which the engine is to allow.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Req.Engine.Torque.Limit" : { + "generic_name": "Req.Engine.Torque.Limit", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The requested engine torque that the engine is not allowed to exceed, indicated as a ratio of the reference engine torque.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Req.Engine.Speed.Limit" : { + "generic_name": "Req.Engine.Speed.Limit", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The requested vehicle speed which the vehicle is not allowed to exceed.", + "unit": "km/hr", + "is_big_endian": false, + "is_signed": false + }, + "Req.Engine.Speed" : { + "generic_name": "Req.Engine.Speed", + "bit_position": -1, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "This is the engine speed which the engine is expected to operate at.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65122": { + "comment": "ISO 11992: Towed vehicle message, general purpose message #2/4", + "length": 8, + "name": "GPM24", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Sec.Engine.Mtd.PTOSwitch" : { + "generic_name": "Sec.Engine.Mtd.PTOSwitch", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the state of the second engine mounted power take off switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Switched off": [0], + "Switched on": [1] + } + }, + "Sec.Clutch.Dpdt.PTOSwitch" : { + "generic_name": "Sec.Clutch.Dpdt.PTOSwitch", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the state of the second clutch dependent power take off switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Switched off": [0], + "Switched on": [1] + } + }, + "First.Clutch.Dpdt.PTOSwitch" : { + "generic_name": "First.Clutch.Dpdt.PTOSwitch", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the state of the first clutch dependent power take off switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Switched off": [0], + "Switched on": [1] + } + }, + "Operating.Panel.Active" : { + "generic_name": "Operating.Panel.Active", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates that the operating panel is active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Operating panel not active": [0], + "Operating panel active": [1] + } + }, + "Refuse.Packer.Step.Switch" : { + "generic_name": "Refuse.Packer.Step.Switch", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the state of the refuse packer step switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Switched off": [0], + "Switched on": [1] + } + }, + "Engine.Stop.Switch" : { + "generic_name": "Engine.Stop.Switch", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the state of the engine stop switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Switched off": [0], + "Switched on": [1] + } + }, + "Engine.Start.Switch" : { + "generic_name": "Engine.Start.Switch", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the state of the engine start switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Switched off": [0], + "Switched on": [1] + } + }, + "Starter.Lockout.Switch" : { + "generic_name": "Starter.Lockout.Switch", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the state of the starter lockout switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Switched off": [0], + "Switched on": [1] + } + }, + "Rqsted.Percent.Clutch.Slip" : { + "generic_name": "Rqsted.Percent.Clutch.Slip", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Command signal to influence the clutch.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "First.Engine.Mtd.PTOSwitch" : { + "generic_name": "First.Engine.Mtd.PTOSwitch", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the state of the first engine mounted power take off switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Switched off": [0], + "Switched on": [1] + } + }, + "Clutch.Indpdt.PTOSwitch" : { + "generic_name": "Clutch.Indpdt.PTOSwitch", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the state of the clutch independent power take off switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Switched off": [0], + "Switched on": [1] + } + } + } + }, + "65124": { + "comment": "ISO 11992: Towed vehicle message, general purpose message #2/5", + "length": 8, + "name": "GPM25", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trailer.Left.Side.Marker.Light" : { + "generic_name": "Trailer.Left.Side.Marker.Light", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer left-hand side marker light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Left.Reversing.Light" : { + "generic_name": "Trailer.Left.Reversing.Light", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer left-hand reversing light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Left.Rear.Wid.Ind.Light" : { + "generic_name": "Trailer.Left.Rear.Wid.Ind.Light", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer left-hand rear width indicator light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Left.Rear.Reg.Plt.Light" : { + "generic_name": "Trailer.Left.Rear.Reg.Plt.Light", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer left-hand rear registration-plate light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Left.Rear.Light" : { + "generic_name": "Trailer.Left.Rear.Light", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer left-hand rear light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Left.Rear.Fog.Light" : { + "generic_name": "Trailer.Left.Rear.Fog.Light", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer left-hand rear fog light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Left.Dir.Ind.Light" : { + "generic_name": "Trailer.Left.Dir.Ind.Light", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer left-hand direction indicator light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Left.Crn.Marker.Light" : { + "generic_name": "Trailer.Left.Crn.Marker.Light", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer left-hand corner marker light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Interior.Light" : { + "generic_name": "Trailer.Interior.Light", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer interior light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Work.Lamp" : { + "generic_name": "Trailer.Work.Lamp", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer work lamp(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Rotating.Ident.Light" : { + "generic_name": "Trailer.Rotating.Ident.Light", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer rotating identification light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Right.Stop.Light" : { + "generic_name": "Trailer.Right.Stop.Light", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer right-hand stop light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Right.Side.Mrk.Light" : { + "generic_name": "Trailer.Right.Side.Mrk.Light", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer right-hand side marker light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Right.Reversing.Light" : { + "generic_name": "Trailer.Right.Reversing.Light", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer right-hand reversing light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trail.Right.Rear.Wid.Ind.Light" : { + "generic_name": "Trail.Right.Rear.Wid.Ind.Light", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer right-hand rear width indicator light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Right.Rear.Reg.Plt.Light" : { + "generic_name": "Trailer.Right.Rear.Reg.Plt.Light", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer right-hand rear registration-plate light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Right.Rear.Light" : { + "generic_name": "Trailer.Right.Rear.Light", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer right-hand rear light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Right.Rear.Fog.Light" : { + "generic_name": "Trailer.Right.Rear.Fog.Light", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer right-hand rear fog light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Right.Dir.Ind.Light" : { + "generic_name": "Trailer.Right.Dir.Ind.Light", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer right-hand direction indicator light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Right.Crn.Marker.Light" : { + "generic_name": "Trailer.Right.Crn.Marker.Light", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer right-hand corner marker light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Rear.Warning.Light" : { + "generic_name": "Trailer.Rear.Warning.Light", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer rear warning light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + }, + "Trailer.Left.Stop.Light" : { + "generic_name": "Trailer.Left.Stop.Light", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal indicates the state of the trailer left-hand stop light(s).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp(s) not lit": [0], + "Lamp(s) lit": [1] + } + } + } + }, + "56318": { + "comment": "Reserved for ISO 15765", + "length": 8, + "name": "ISO15765_Funct", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "SN" : { + "generic_name": "SN", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "None", + "multiplex": "2", + "is_big_endian": false, + "is_signed": false + }, + "Separation.Time" : { + "generic_name": "Separation.Time", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "multiplex": "3", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Block.Size" : { + "generic_name": "Block.Size", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "multiplex": "3", + "is_big_endian": false, + "is_signed": false + }, + "Flow.Status" : { + "generic_name": "Flow.Status", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "None", + "multiplex": "3", + "is_big_endian": false, + "is_signed": false, + "states": { + "Continue To Send": [0], + "Wait ": [1], + "Overflow": [2] + } + }, + "First.Frame.Data.Length" : { + "generic_name": "First.Frame.Data.Length", + "bit_position": 7, + "bit_size": 12, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4095, + "comment": "None", + "multiplex": "1", + "unit": "Byte", + "is_big_endian": true, + "is_signed": false + }, + "Single.Frame.Data.Length" : { + "generic_name": "Single.Frame.Data.Length", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "None", + "multiplex": "0", + "unit": "Byte", + "is_big_endian": false, + "is_signed": false + }, + "Protocol.Ctrl.Information" : { + "generic_name": "Protocol.Ctrl.Information", + "bit_position": 3, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Part of Network Protocol Control Information (N_PCI) of a ISO 15765 message.", + "multiplex": "Multiplexor", + "is_big_endian": false, + "is_signed": false, + "states": { + "Single frame": [0], + "First frame": [1], + "Consecutive frame": [2], + "Flow control ": [3] + } + } + } + }, + "56062": { + "comment": "Reserved for ISO 15765", + "length": 8, + "name": "ISO15765_Phys", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "SN" : { + "generic_name": "SN", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "None", + "multiplex": "2", + "is_big_endian": false, + "is_signed": false + }, + "Separation.Time" : { + "generic_name": "Separation.Time", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "multiplex": "3", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Block.Size" : { + "generic_name": "Block.Size", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "multiplex": "3", + "is_big_endian": false, + "is_signed": false + }, + "Flow.Status" : { + "generic_name": "Flow.Status", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "None", + "multiplex": "3", + "is_big_endian": false, + "is_signed": false, + "states": { + "Continue To Send": [0], + "Wait ": [1], + "Overflow": [2] + } + }, + "First.Frame.Data.Length" : { + "generic_name": "First.Frame.Data.Length", + "bit_position": 7, + "bit_size": 12, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4095, + "comment": "None", + "multiplex": "1", + "unit": "Byte", + "is_big_endian": true, + "is_signed": false + }, + "Single.Frame.Data.Length" : { + "generic_name": "Single.Frame.Data.Length", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "None", + "multiplex": "0", + "unit": "Byte", + "is_big_endian": false, + "is_signed": false + }, + "Protocol.Ctrl.Information" : { + "generic_name": "Protocol.Ctrl.Information", + "bit_position": 3, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Part of Network Protocol Control Information (N_PCI) of a ISO 15765 message.", + "multiplex": "Multiplexor", + "is_big_endian": false, + "is_signed": false, + "states": { + "Single frame": [0], + "First frame": [1], + "Consecutive frame": [2], + "Flow control ": [3] + } + } + } + }, + "60926": { + "comment": "Used to access network interconnection ECU parametrics and database", + "length": 8, + "name": "Network", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Control.Byte" : { + "generic_name": "Control.Byte", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "MFDB_Request": [0], + "MFDB_Response": [1], + "MFDB_Add": [2], + "MFDB_Delete": [3], + "MFDB_Clear": [4], + "MFDB_SetMode": [5], + "MFDB_CreateEntry": [6] + } + }, + "Filter.Mode" : { + "generic_name": "Filter.Mode", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Filter mode for Network PG", + "is_big_endian": false, + "is_signed": false, + "states": { + "BlockSpecificPGNs": [0], + "PassSpecificPGNs": [1] + } + }, + "To.Port" : { + "generic_name": "To.Port", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Destination port for network PG", + "is_big_endian": false, + "is_signed": false + }, + "From.Port" : { + "generic_name": "From.Port", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Source port for Network PG", + "is_big_endian": false, + "is_signed": false + } + } + }, + "58622": { + "comment": "ISO 11992: Towing vehicle message, running gear equipment #1/1RGE11 replaces GFM 12 in ISO 11992:1998 part 3", + "length": 8, + "name": "RGE11", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Parking.And.Trailer.Air.Press" : { + "generic_name": "Parking.And.Trailer.Air.Press", + "bit_position": 39, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "The pneumatic pressure in the circuit or reservoir for the parking brake and the trailer supply.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Driven.Axle.Load" : { + "generic_name": "Driven.Axle.Load", + "bit_position": 23, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "Actual static vertical load on driven axle of the commercial vehicle. In case of more than one driven axle the value of the axle with the highest vertical load is transmitted.", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Aux.Equip.Supply.Pressure" : { + "generic_name": "Aux.Equip.Supply.Pressure", + "bit_position": 47, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "The pneumatic pressure in the auxiliary circuit.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Stop.Level.Change.Req" : { + "generic_name": "Stop.Level.Change.Req", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to stop immediately any change of the actual body height level.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No stop request": [0], + "Stop request": [1], + "Take no action": [3] + } + }, + "Ramp.Level.Storage.Req" : { + "generic_name": "Ramp.Level.Storage.Req", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to store the actual body height level as new programmed and memorised ramp levels 1 or 2 in the ECU", + "is_big_endian": false, + "is_signed": false, + "states": { + "Store ramp level 1": [0], + "Store ramp level 2": [1], + "Take no action": [3] + } + }, + "Level.Control.Req" : { + "generic_name": "Level.Control.Req", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to enable or disable the automatic level control.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disable level control": [0], + "Enable level control": [1], + "Take no action": [3] + } + }, + "Ramp.Level.Req" : { + "generic_name": "Ramp.Level.Req", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to control the body height to a level programmed and memorised in the ECU.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ramp level 1": [0], + "Ramp level 2": [1], + "Take no action": [3] + } + }, + "Steering.Axle.Locking.Req" : { + "generic_name": "Steering.Axle.Locking.Req", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to lock the steering axle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Unlock steering axle": [0], + "Lock steering axle": [1], + "Take no action": [3] + } + }, + "Lift.Axle2.Position.Req" : { + "generic_name": "Lift.Axle2.Position.Req", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to control the lift axle position / tag axle load condition.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Position down / tag axle laden": [0], + "Position up / tag axle unladen": [1], + "Take no action": [3] + } + }, + "Lift.Axle1.Position.Req" : { + "generic_name": "Lift.Axle1.Position.Req", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to control the lift axle position / tag axle load condition.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Position down / tag axle laden": [0], + "Position up / tag axle unladen": [1], + "Reserved": [2], + "Don't care/take no action": [3] + } + }, + "Traction.Help.Req" : { + "generic_name": "Traction.Help.Req", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to control the lift axle position / tag axle load condition to transfer more load on the driven axle of the commercial vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No traction help request": [0], + "Traction help request": [1], + "Take no action": [3] + } + }, + "Level.Change.Req.Rear.Axle" : { + "generic_name": "Level.Change.Req.Rear.Axle", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to control the body height [up (lifting)/down (lowering)] for the rear axle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Vehicle body up (lifting)": [0], + "Vehicle body down (lowering)": [1], + "Take no action": [2] + } + }, + "Level.Change.Req.Front.Axle" : { + "generic_name": "Level.Change.Req.Front.Axle", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to control the body height [up (lifting)/down (lowering)] for the front axle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Vehicle body up (lifting)": [0], + "Vehicle body down (lowering)": [1], + "Take no action": [2] + } + }, + "Ride.Height.Request" : { + "generic_name": "Ride.Height.Request", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to activate a normal ride body height. The normal levels 1 and 2 are trailer specific body heights.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Normal level 1": [0], + "Normal level 2": [1], + "Take no action": [2] + } + } + } + }, + "58878": { + "comment": "ISO 11992: Towed vehicle message, running gear equipment #2/1RGE21 replaces GFM 22 in ISO 11992:1998 part 3", + "length": 8, + "name": "RGE21", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Level.Control" : { + "generic_name": "Level.Control", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates that the automatic level control is enabled or disabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Level control disabled": [0], + "Level control enabled": [1] + } + }, + "Nominal.Veh.Body.Level.Rear.Axle" : { + "generic_name": "Nominal.Veh.Body.Level.Rear.Axle", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Actual nominal vehicle body height.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Nominal.Veh.Body.Level.Front.Axle" : { + "generic_name": "Nominal.Veh.Body.Level.Front.Axle", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Actual nominal vehicle body height.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Ramp.Level" : { + "generic_name": "Ramp.Level", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the level of the body height as an anser to 'ramp level request'.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Body not at requested ramp level": [0], + "Body at requested ramp level": [1] + } + }, + "Normal.Level" : { + "generic_name": "Normal.Level", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the normal levels of the vehicle independently of a specific request.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Normal level 1": [0], + "Normal level 2": [1], + "Not available": [3] + } + }, + "Stop.Level.Change.Acknowledge" : { + "generic_name": "Stop.Level.Change.Acknowledge", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the stop of any level change due to a 'stop request'.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No stop request": [0], + "Level change stopped": [1] + } + }, + "Level.Change.Rear.Axle" : { + "generic_name": "Level.Change.Rear.Axle", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the level change of the body height at the rear axle due to any external requests.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Body lifting/lowering not active": [0], + "Body lifting/lowering active": [1] + } + }, + "Level.Change.Front.Axle" : { + "generic_name": "Level.Change.Front.Axle", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the level change of the body height at the front axle due to any external requests.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Body lifting/lowering not active": [0], + "Body lifting/lowering active": [1] + } + }, + "Ramp.Level.Storage" : { + "generic_name": "Ramp.Level.Storage", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the storage of a new ramp level in the ECU.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No new storage request": [0], + "New ramp level stored": [1] + } + }, + "Steering.Axle.Locking" : { + "generic_name": "Steering.Axle.Locking", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the actual steering axle locking status.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Steering axle unlocked": [0], + "Steering axle locked": [1] + } + }, + "Lift.Axle2.Pos" : { + "generic_name": "Lift.Axle2.Pos", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the position / load condition of lift axle / tag axle #2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LiftAxlePosDown_TagAxleLaden": [0], + "LiftAxlePosUp_TagAxleUnladen": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Lift.Axle1.Pos" : { + "generic_name": "Lift.Axle1.Pos", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the position / load condition of lift axle / tag axle #1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LiftAxlePosDown_TagAxleLaden": [0], + "LiftAxlePosUp_TagAxleUnladen": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Ramp.Level.Position" : { + "generic_name": "Ramp.Level.Position", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the ramp level positions of the vehicle independently of a specific request.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ramp level 1": [0], + "Ramp level 2": [1], + "Not available": [3] + } + }, + "Traction.Help" : { + "generic_name": "Traction.Help", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates that a load transfer is active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Traction help inactive": [0], + "Traction help active": [1] + } + }, + "Level.Ctrl.Sys.Ride.Height.Level" : { + "generic_name": "Level.Ctrl.Sys.Ride.Height.Level", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal which indicates the body height position of the vehicle as an answer to 'ride height request'.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Vehicle body not at req. level": [0], + "Vehicle body at requested level": [1] + } + } + } + }, + "65116": { + "comment": "ISO 11992: Towed vehicle message, running gear equipment #2/2", + "length": 8, + "name": "RGE22", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Rel.Veh.Body.Level.Rear.Axle" : { + "generic_name": "Rel.Veh.Body.Level.Rear.Axle", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Actual relative vehicle body height.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Rel.Veh.Body.Level.Front.Axle" : { + "generic_name": "Rel.Veh.Body.Level.Front.Axle", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": -32000, + "min_value": -32000, + "max_value": 32255, + "comment": "Actual relative vehicle body height.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65118": { + "comment": "ISO 11992: Towed vehicle message, running gear equipment #2/3", + "length": 8, + "name": "RGE23", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Tyre.Press.Threshold.Detect" : { + "generic_name": "Tyre.Press.Threshold.Detect", + "bit_position": 39, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tyre.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Extreme over pressure": [0], + "Over pressure": [1], + "No warning pressure": [2], + "Under pressure": [3], + "Extreme under pressure": [4], + "Not defined": [5], + "Error indicator": [6], + "Not available": [7] + } + }, + "Tyre.Module.Power.Supply" : { + "generic_name": "Tyre.Module.Power.Supply", + "bit_position": 42, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "Signal indicating the power supply of the tyre module is sufficient to achieve the specified performance of the module.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Insufficient power supply": [0], + "Sufficient power supply": [1] + } + }, + "Tyre.Temperature" : { + "generic_name": "Tyre.Temperature", + "bit_position": 7, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "The temperature measured by the tyre module.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Air.Leakage.Detection" : { + "generic_name": "Air.Leakage.Detection", + "bit_position": 23, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss of a tyre.", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tyre.Wheel.Identification2" : { + "generic_name": "Tyre.Wheel.Identification2", + "bit_position": 3, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "First part of the identification number of the tyre or whee (number of axles).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Axle position not identified": [0], + "Axle position 1": [1], + "Axle position 2": [2], + "Axle position 3": [3], + "Axle position 4": [4], + "Axle position 5": [5], + "Axle position 6": [6], + "Axle position 7": [7], + "Axle position 8": [8], + "Axle position 9": [9], + "Axle position 10": [10], + "Axle position 11": [11], + "Axle position 12": [12], + "Axle position 13": [13], + "Axle position 14": [14], + "Axle position 15": [15] + } + }, + "Tyre.Wheel.Identification1" : { + "generic_name": "Tyre.Wheel.Identification1", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "First part of the identification number of the tyre or whee (position on each axle).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Wheel position not identified": [0], + "Wheel position 1": [1], + "Wheel position 2": [2], + "Wheel position 3": [3], + "Wheel position 4": [4], + "Wheel position 5": [5], + "Wheel position 6": [6], + "Wheel position 7": [7], + "Wheel position 8": [8], + "Wheel position 9": [9], + "Wheel position 10": [10], + "Wheel position 11": [11], + "Wheel position 12": [12], + "Wheel position 13": [13], + "Wheel position 14": [14], + "Wheel position 15": [15] + } + } + } + }, + "64952": { + "comment": "Diagnostic readiness 3", + "length": 8, + "name": "DM26", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "N.MHCConverting.Catalyst.Completed" : { + "generic_name": "N.MHCConverting.Catalyst.Completed", + "bit_position": 59, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "N.MHCConverting.Catalyst.Enabled" : { + "generic_name": "N.MHCConverting.Catalyst.Enabled", + "bit_position": 43, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "N.Ox.Converting.Catalyst.Adsorber.Completed" : { + "generic_name": "N.Ox.Converting.Catalyst.Adsorber.Completed", + "bit_position": 58, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "N.Ox.Converting.Catalyst.Adsorber.Enabled" : { + "generic_name": "N.Ox.Converting.Catalyst.Adsorber.Enabled", + "bit_position": 42, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "Diesel.Particulate.Filter.Completed" : { + "generic_name": "Diesel.Particulate.Filter.Completed", + "bit_position": 57, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "Diesel.Particulate.Filter.Enabled" : { + "generic_name": "Diesel.Particulate.Filter.Enabled", + "bit_position": 41, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "Boost.Pressure.Control.System.Completed" : { + "generic_name": "Boost.Pressure.Control.System.Completed", + "bit_position": 56, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "Boost.Pressure.Ctrl.System.Enabled" : { + "generic_name": "Boost.Pressure.Ctrl.System.Enabled", + "bit_position": 40, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "Misfire.Monitoring.Complete" : { + "generic_name": "Misfire.Monitoring.Complete", + "bit_position": 27, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "Misfire.Monitoring.Enabled" : { + "generic_name": "Misfire.Monitoring.Enabled", + "bit_position": 23, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "Fuel.System.Monitoring.Enabled" : { + "generic_name": "Fuel.System.Monitoring.Enabled", + "bit_position": 24, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "Comprehensive.Compt.Mon.Complete" : { + "generic_name": "Comprehensive.Compt.Mon.Complete", + "bit_position": 29, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "Comprehensive.Comp.Mon.Enabled" : { + "generic_name": "Comprehensive.Comp.Mon.Enabled", + "bit_position": 25, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "Second.Air.System.Mon.Complete" : { + "generic_name": "Second.Air.System.Mon.Complete", + "bit_position": 50, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "Second.Air.System.Mon.Enabled" : { + "generic_name": "Second.Air.System.Mon.Enabled", + "bit_position": 34, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "Oxygen.Sensor.Mon.Complete" : { + "generic_name": "Oxygen.Sensor.Mon.Complete", + "bit_position": 52, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "Oxygen.Sensor.Mon.Enabled" : { + "generic_name": "Oxygen.Sensor.Mon.Enabled", + "bit_position": 36, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "Oxygen.Sensor.Heater.Mon.Complete" : { + "generic_name": "Oxygen.Sensor.Heater.Mon.Complete", + "bit_position": 53, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "Oxygen.Sensor.Heater.Mon.Enabled" : { + "generic_name": "Oxygen.Sensor.Heater.Mon.Enabled", + "bit_position": 37, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "Heated.Catalyst.Mon.Complete" : { + "generic_name": "Heated.Catalyst.Mon.Complete", + "bit_position": 48, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "Heated.Catalyst.Mon.Enabled" : { + "generic_name": "Heated.Catalyst.Mon.Enabled", + "bit_position": 32, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "Evaporative.System.Mon.Complete" : { + "generic_name": "Evaporative.System.Mon.Complete", + "bit_position": 49, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "Evaporative.System.Mon.Enabled" : { + "generic_name": "Evaporative.System.Mon.Enabled", + "bit_position": 33, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "E.GRSystem.Monitoring.Complete" : { + "generic_name": "E.GRSystem.Monitoring.Complete", + "bit_position": 54, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "E.GRSystem.Monitoring.Enabled" : { + "generic_name": "E.GRSystem.Monitoring.Enabled", + "bit_position": 38, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "Cold.Start.Aid.System.Mon.Complete" : { + "generic_name": "Cold.Start.Aid.System.Mon.Complete", + "bit_position": 55, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "Cold.Start.Aid.System.Mon.Enabled" : { + "generic_name": "Cold.Start.Aid.System.Mon.Enabled", + "bit_position": 39, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledForRestOfCycle": [0], + "EnabledForCycle": [1] + } + }, + "Catalyst.Mon.Complete" : { + "generic_name": "Catalyst.Mon.Complete", + "bit_position": 47, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "Catalyst.Mon.Enabled" : { + "generic_name": "Catalyst.Mon.Enabled", + "bit_position": 31, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "A.CSystem.Refrigerant.Mon.Complete" : { + "generic_name": "A.CSystem.Refrigerant.Mon.Complete", + "bit_position": 51, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "A.CSystem.Refrigerant.Mon.Enabled" : { + "generic_name": "A.CSystem.Refrigerant.Mon.Enabled", + "bit_position": 35, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "Fuel.System.Monitoring.Complete" : { + "generic_name": "Fuel.System.Monitoring.Complete", + "bit_position": 28, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompleteCycleOrNotSupported": [0], + "NotCompleteCycle": [1] + } + }, + "Num.Of.Warm.Ups.Since.DTCs.Cleared" : { + "generic_name": "Num.Of.Warm.Ups.Since.DTCs.Cleared", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Time.Since.Engine.Start" : { + "generic_name": "Time.Since.Engine.Start", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "None", + "unit": "sec", + "is_big_endian": false, + "is_signed": false + } + } + }, + "54526": { + "comment": "Data security", + "length": 8, + "name": "DM18", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Security.Entity.Length.High" : { + "generic_name": "Security.Entity.Length.High", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "unit": "Byte", + "is_big_endian": false, + "is_signed": false + }, + "Security.Entity.Type" : { + "generic_name": "Security.Entity.Type", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "Data is Long Seed": [0], + "Data is Long Key": [1], + "Data is Session Key": [2], + "Data is Certificate": [3] + } + }, + "Security.Entity.Length" : { + "generic_name": "Security.Entity.Length", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1785, + "comment": "None", + "unit": "Byte", + "is_big_endian": false, + "is_signed": false + } + } + }, + "1278": { + "comment": "External Brake Request", + "length": 8, + "name": "XBR", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "X.BRMessage.Checksum" : { + "generic_name": "X.BRMessage.Checksum", + "bit_position": 59, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "The XBR message checksum is used to verify the signal path from the demanding device to the brake controller on", + "is_big_endian": false, + "is_signed": false + }, + "X.BRMessage.Counter" : { + "generic_name": "X.BRMessage.Counter", + "bit_position": 55, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "The XBR message counter is to verify the signal path from the demanding device to the brake controller on electronic", + "is_big_endian": false, + "is_signed": false + }, + "X.BRCtrl.Mode" : { + "generic_name": "X.BRCtrl.Mode", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The XBR Control Mode is used as an input to the brake system and defines how the external acceleration demand has to", + "is_big_endian": false, + "is_signed": false, + "states": { + "OverrideDisabled": [0], + "AccelerationControlWithAddMode": [1], + "AccelerationControlWithMaxMode": [2], + "NotDefined": [3] + } + }, + "X.BRPriority" : { + "generic_name": "X.BRPriority", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The XBR Priority is used as an input to the brake system to manage the priority of overlapping external and internal requests.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HghstPrrtyUsdFrEmrgncySttnsEgFr": [0], + "HighPriorityNotDefined": [1], + "MdmPrrtyUsdFrACCSystmsThsMdDsNt": [2], + "LwPrrtyUsdInOvrrdDsbldXBRCtrlMd": [3] + } + }, + "X.BREBIMode" : { + "generic_name": "X.BREBIMode", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The XBR EBI (Endurance Brake Integration) Mode is used as an input for the brake system to prescribe the use of", + "is_big_endian": false, + "is_signed": false, + "states": { + "NEndrnceBrakeIntegrationAllowed": [0], + "OnlyEnduranceBrakesAllowed": [1], + "EndranceBrakeIntegrationAllowed": [2], + "NotDefined": [3] + } + }, + "Extl.Acceleration.Demand" : { + "generic_name": "Extl.Acceleration.Demand", + "bit_position": -1, + "bit_size": 16, + "factor": 0.00048828125, + "offset": -15.687, + "min_value": -15.687, + "max_value": 15.687, + "comment": "Parameter provided to the brake system from external sources.", + "unit": "m/s/s", + "is_big_endian": false, + "is_signed": false + }, + "X.BRUrgency" : { + "generic_name": "X.BRUrgency", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The idea of the urgency value is to adjust the endurance brake integration behavior in the EBS system according to the", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "SttnNtCrtclLwRtrdrDynmcsArTlrtd": [0], + "LwRtrdrDynmcsShllBFllyCmpnstdBy": [4] + } + } + } + }, + "65279": { + "comment": "Water in Fuel Indicator", + "length": 8, + "name": "WFI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Water.In.Fuel.Indicator" : { + "generic_name": "Water.In.Fuel.Indicator", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the presence of water in the fuel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No": [0], + "Yes": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "65258": { + "comment": "Vehicle Weight", + "length": 8, + "name": "VW", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Axle.Location" : { + "generic_name": "Axle.Location", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "To identify to which of several similar devices (such as tires or fuel tanks) the information applies.", + "multiplex": "Multiplexor", + "is_big_endian": false, + "is_signed": false, + "states": { + "Axle0_Position0": [0], + "Axle1_Position0": [16], + "Axle2_Position0": [32], + "Axle3_Position0": [48] + } + }, + "Cargo.Weight_30" : { + "generic_name": "Cargo.Weight_30", + "bit_position": 39, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "The mass of freight carried.", + "multiplex": "48", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Cargo.Weight_20" : { + "generic_name": "Cargo.Weight_20", + "bit_position": 39, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "The mass of freight carried.", + "multiplex": "32", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Cargo.Weight_10" : { + "generic_name": "Cargo.Weight_10", + "bit_position": 39, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "The mass of freight carried.", + "multiplex": "16", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Cargo.Weight_00" : { + "generic_name": "Cargo.Weight_00", + "bit_position": 39, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "The mass of freight carried.", + "multiplex": "0", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Trailer.Weight_30" : { + "generic_name": "Trailer.Weight_30", + "bit_position": 23, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "Total mass of freight-carrying vehicle designed to be pulled by truck, including the weight of the contents.", + "multiplex": "48", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Trailer.Weight_20" : { + "generic_name": "Trailer.Weight_20", + "bit_position": 23, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "Total mass of freight-carrying vehicle designed to be pulled by truck, including the weight of the contents.", + "multiplex": "32", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Trailer.Weight_10" : { + "generic_name": "Trailer.Weight_10", + "bit_position": 23, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "Total mass of freight-carrying vehicle designed to be pulled by truck, including the weight of the contents.", + "multiplex": "16", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Trailer.Weight_00" : { + "generic_name": "Trailer.Weight_00", + "bit_position": 23, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "Total mass of freight-carrying vehicle designed to be pulled by truck, including the weight of the contents.", + "multiplex": "0", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Axle.Weight_30" : { + "generic_name": "Axle.Weight_30", + "bit_position": 7, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Total mass imposed by the tires on the road surface at the specified axle.", + "multiplex": "48", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Axle.Weight_20" : { + "generic_name": "Axle.Weight_20", + "bit_position": 7, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Total mass imposed by the tires on the road surface at the specified axle.", + "multiplex": "32", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Axle.Weight_10" : { + "generic_name": "Axle.Weight_10", + "bit_position": 7, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Total mass imposed by the tires on the road surface at the specified axle.", + "multiplex": "16", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Axle.Weight_00" : { + "generic_name": "Axle.Weight_00", + "bit_position": 7, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Total mass imposed by the tires on the road surface at the specified axle.", + "multiplex": "0", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65106": { + "comment": "Vehicle Electrical Power #3", + "length": 8, + "name": "VEP3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Net.Battery.Current.Hi.Res" : { + "generic_name": "Net.Battery.Current.Hi.Res", + "bit_position": 15, + "bit_size": 16, + "factor": 0.05, + "offset": -1600, + "min_value": -1600, + "max_value": 1612.75, + "comment": "Net flow of electrical current into/out-of the battery or batteries.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Alt.Current.Hi.Res" : { + "generic_name": "Alt.Current.Hi.Res", + "bit_position": -1, + "bit_size": 16, + "factor": 0.05, + "offset": -1600, + "min_value": -1600, + "max_value": 1676.75, + "comment": "This parameter indicates the amount of electrical current output from the alternator of the main vehicle.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65165": { + "comment": "Vehicle Electrical Power 2", + "length": 8, + "name": "VEP2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "E.CUPower.Output.Supply.Voltage3" : { + "generic_name": "E.CUPower.Output.Supply.Voltage3", + "bit_position": 47, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "The third power output from an ECM.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "E.CUPower.Output.Supply.Voltage2" : { + "generic_name": "E.CUPower.Output.Supply.Voltage2", + "bit_position": 31, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "The second power output from an ECM.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "E.CUPower.Output.Supply.Voltage1" : { + "generic_name": "E.CUPower.Output.Supply.Voltage1", + "bit_position": 15, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "The first power output from an ECM", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Battery.Potential_.Power.Input2" : { + "generic_name": "Battery.Potential_.Power.Input2", + "bit_position": -1, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "This parameter measures the second source of battery potential as measured at the input of the ECM/actuator etc.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65267": { + "comment": "Vehicle Position", + "length": 8, + "name": "VP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Longitude" : { + "generic_name": "Longitude", + "bit_position": 31, + "bit_size": 32, + "factor": 10, + "offset": -210, + "min_value": -210, + "max_value": 211.1008122, + "comment": "Longitude position of the vehicle.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Latitude" : { + "generic_name": "Latitude", + "bit_position": -1, + "bit_size": 32, + "factor": 10, + "offset": -210, + "min_value": -210, + "max_value": 211.1008122, + "comment": "Latitude position of the vehicle.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65260": { + "comment": "Vehicle Identification", + "length": 8, + "name": "VI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Vehicle.Identification.Number" : { + "generic_name": "Vehicle.Identification.Number", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Vehicle Identification Number", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65255": { + "comment": "Vehicle Hours", + "length": 8, + "name": "VH", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Total.Power.Takeoff.Hours" : { + "generic_name": "Total.Power.Takeoff.Hours", + "bit_position": 31, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Accumulated time of operation of power takeoff device.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Total.Vehicle.Hours" : { + "generic_name": "Total.Vehicle.Hours", + "bit_position": -1, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Accumulated time of operation of vehicle.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65128": { + "comment": "Vehicle Fluids", + "length": 8, + "name": "VF", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Winch.Oil.Press.Switch" : { + "generic_name": "Winch.Oil.Press.Switch", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of switch used to determine if Winch Oil Pressure is above desired minimum", + "is_big_endian": false, + "is_signed": false, + "states": { + "NOTOKOilPressIsTooLow": [0], + "OKOilPressIsAboveMin": [1], + "ErrrSwtchStteCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Hyd.Oil.Level" : { + "generic_name": "Hyd.Oil.Level", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "This parameter indicates the level of the hydraulic fluid in tank as a ratio of current volume to total tank volume.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Hyd.Oil.Filter.Restriction.Switch" : { + "generic_name": "Hyd.Oil.Filter.Restriction.Switch", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This switch indicates whether hydraulic oil filter is clogged.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoRestriction": [0], + "RestrictionExistsOnOilFilter": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Hyd.Temp" : { + "generic_name": "Hyd.Temp", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of hydraulic fluid.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65256": { + "comment": "Vehicle Direction/Speed", + "length": 8, + "name": "VDS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Altitude" : { + "generic_name": "Altitude", + "bit_position": 47, + "bit_size": 16, + "factor": 0.125, + "offset": -2500, + "min_value": -2500, + "max_value": 5531.875, + "comment": "Altitude of the vehicle referenced to sea level at standard atmospheric pressure and temperature.", + "unit": "m", + "is_big_endian": false, + "is_signed": false + }, + "Pitch" : { + "generic_name": "Pitch", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0078125, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "Pitch of the vehicle as calculated by the navigation device(s).", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Navigation.Based.Vehicle.Speed" : { + "generic_name": "Navigation.Based.Vehicle.Speed", + "bit_position": 15, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 250.996, + "comment": "Speed of the vehicle as calculated from a device such as a Global Positioning System (GPS).", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Compass.Bearing" : { + "generic_name": "Compass.Bearing", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0078125, + "offset": 0, + "min_value": 0, + "max_value": 501.99, + "comment": "Present compass bearing of vehicle.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65217": { + "comment": "High Resolution Vehicle Distance", + "length": 8, + "name": "VDHR", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "High.Resolution.Trip.Distance" : { + "generic_name": "High.Resolution.Trip.Distance", + "bit_position": 31, + "bit_size": 32, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 21055406, + "comment": "Distance traveled during all or part of a journey.", + "unit": "km", + "is_big_endian": false, + "is_signed": false + }, + "Hgh.Rslution.Total.Vehicle.Distance" : { + "generic_name": "Hgh.Rslution.Total.Vehicle.Distance", + "bit_position": -1, + "bit_size": 32, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 21055406, + "comment": "Accumulated distance traveled by the vehicle during its operation.", + "unit": "km", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61449": { + "comment": "Vehicle Dynamic Stability Control 2", + "length": 8, + "name": "VDC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Steer.Wheel.Angle" : { + "generic_name": "Steer.Wheel.Angle", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0009765625, + "offset": -31.374, + "min_value": -31.374, + "max_value": 31.374, + "comment": "The main operator`s steering wheel angle (on the steering column, not the actual wheel angle).", + "unit": "rad", + "is_big_endian": false, + "is_signed": false + }, + "Longitudinal.Acceleration" : { + "generic_name": "Longitudinal.Acceleration", + "bit_position": 55, + "bit_size": 8, + "factor": 0.1, + "offset": -12.5, + "min_value": -12.5, + "max_value": 12.5, + "comment": "Indicates the longitudinal acceleration of the vehicle.", + "unit": "m/s/s", + "is_big_endian": false, + "is_signed": false + }, + "Lateral.Acceleration" : { + "generic_name": "Lateral.Acceleration", + "bit_position": 39, + "bit_size": 16, + "factor": 0.00048828125, + "offset": -15.687, + "min_value": -15.687, + "max_value": 15.687, + "comment": "Indicates a lateral acceleration of the vehicle.", + "unit": "m/s/s", + "is_big_endian": false, + "is_signed": false + }, + "Yaw.Rate" : { + "generic_name": "Yaw.Rate", + "bit_position": 23, + "bit_size": 16, + "factor": 0.0001220703125, + "offset": -3.92, + "min_value": -3.92, + "max_value": 3.92, + "comment": "Indicates the rotation about the vertical axis.", + "unit": "rad/s", + "is_big_endian": false, + "is_signed": false + }, + "Steer.Wheel.Angle.Sensor.Type" : { + "generic_name": "Steer.Wheel.Angle.Sensor.Type", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the steering wheel angle sensor is capable of absolute measuring of the number of steering wheel", + "is_big_endian": false, + "is_signed": false, + "states": { + "RelativeMeasuringPrinciple": [0], + "AbsMeasuringPrinciple": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Steer.Wheel.Turn.Counter" : { + "generic_name": "Steer.Wheel.Turn.Counter", + "bit_position": 15, + "bit_size": 6, + "factor": 1, + "offset": -32, + "min_value": -32, + "max_value": 29, + "comment": "Indicates number of steering wheel turns, absolute position or relative position at ignition on.", + "unit": "turns", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65103": { + "comment": "Vehicle Dynamic Stability Control 1", + "length": 8, + "name": "VDC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Y.CBrake.Ctrl.Active" : { + "generic_name": "Y.CBrake.Ctrl.Active", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal which indicates that Yaw Control (YC) has activated brake control.", + "is_big_endian": false, + "is_signed": false, + "states": { + "YCBrakeCtrlPassiveButInstalled": [0], + "YCBrakeCtrlActive": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Y.CEng.Ctrl.Active" : { + "generic_name": "Y.CEng.Ctrl.Active", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State Signal which indicates that the Yaw Control (YC) has commanded engine control to be active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "YCEngCtrlPassiveButInstalled": [0], + "YCEngCtrlActive": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "R.OPBrake.Ctrl.Active" : { + "generic_name": "R.OPBrake.Ctrl.Active", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal which indicates that Roll over Prevention (ROP) has activated brake control.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ROPBrakeCtrlPassiveButInstalled": [0], + "ROPBrakeCtrlActive": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "R.OPEng.Ctrl.Active" : { + "generic_name": "R.OPEng.Ctrl.Active", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State Signal which indicates that the Roll Over Prevention (ROP) has commanded engine control to be active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ROPEngCtrlPassiveButInstalled": [0], + "ROPEngCtrlActive": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "V.DCBrake.Light.Rq" : { + "generic_name": "V.DCBrake.Light.Rq", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether VDC requests to turn the vehicle brake lights on", + "is_big_endian": false, + "is_signed": false, + "states": { + "TurnBrakeLightNotOn": [0], + "TurnBrakeLightOn": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "V.DCFully.Operational" : { + "generic_name": "V.DCFully.Operational", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal that indicates whether VDC is fully operational or whether its functionality is reduced by a permanent or temporary", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotFullyOperational": [0], + "FullyOperational": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "V.DCInformation.Signal" : { + "generic_name": "V.DCInformation.Signal", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter commands the VDC information signal, for example a dash lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + } + } + }, + "65248": { + "comment": "Vehicle Distance", + "length": 8, + "name": "VD", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Total.Vehicle.Distance" : { + "generic_name": "Total.Vehicle.Distance", + "bit_position": 31, + "bit_size": 32, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 526385151.9, + "comment": "Accumulated distance traveled by vehicle during its operation.", + "unit": "km", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Distance" : { + "generic_name": "Trip.Distance", + "bit_position": -1, + "bit_size": 32, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 526385151.9, + "comment": "Distance traveled during all or part of a journey.", + "unit": "km", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65206": { + "comment": "Trip Vehicle Speed/Cruise Distance Information", + "length": 8, + "name": "TVI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trip.Cruise.Distance" : { + "generic_name": "Trip.Cruise.Distance", + "bit_position": 15, + "bit_size": 32, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 526385151.9, + "comment": "Total distance that the engine has operated in the cruise hold state, excluding time in accelerator override, since the last", + "unit": "km", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Max.Vehicle.Speed" : { + "generic_name": "Trip.Max.Vehicle.Speed", + "bit_position": -1, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 250.996, + "comment": "Maximum vehicle speed achieved while the engine speed is greater than zero and the accelerator pedal position (APS) is", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65200": { + "comment": "Trip Time Information 2", + "length": 20, + "name": "TTI2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trip.Air.Compressor.On.Time" : { + "generic_name": "Trip.Air.Compressor.On.Time", + "bit_position": 127, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time that the air compressor is on and compressing air since the last trip reset.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Idle.Time" : { + "generic_name": "Trip.Idle.Time", + "bit_position": 95, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time accumulated while the engine speed is greater than zero, both the PTO and remote PTO governors are", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Eng.Running.Time" : { + "generic_name": "Trip.Eng.Running.Time", + "bit_position": 63, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time accumulated while the engine speed is greater than zero since the last trip reset.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Cruise.Time" : { + "generic_name": "Trip.Cruise.Time", + "bit_position": -1, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time accumulated while the engine is in the cruise hold state, excluding time in accelerator override, since the last trip reset.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Trip.PTOGovernor.Time" : { + "generic_name": "Trip.PTOGovernor.Time", + "bit_position": 31, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time accumulated while the engine is in the PTO or remote PTO governor hold state since the last trip reset.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65204": { + "comment": "Trip Time Information 1", + "length": 16, + "name": "TTI1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trip.Time.In.Derate.By.Eng" : { + "generic_name": "Trip.Time.In.Derate.By.Eng", + "bit_position": 95, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time accumulated when the engine final fueling has been derated due to an engine protection algorithm, since the last reset.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Time.In.Gear.Down" : { + "generic_name": "Trip.Time.In.Gear.Down", + "bit_position": 63, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time accumulated when the vehicle has operated in one gear down from the top gear for a calibrated minimum time,", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Time.In.Top.Gear" : { + "generic_name": "Trip.Time.In.Top.Gear", + "bit_position": 31, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time accumulated when the vehicle has operated in top gear for a calibrated minimum time, since the last trip reset.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Time.In.VSL" : { + "generic_name": "Trip.Time.In.VSL", + "bit_position": -1, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time accumulated when the engine has operated on the vehicle speed limiter (VSL) while not in the cruise hold", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65205": { + "comment": "Trip Shutdown Information", + "length": 8, + "name": "TSI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trip.Sudden.Decelerations" : { + "generic_name": "Trip.Sudden.Decelerations", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Total number of decelerations whenever the vehicle deceleration is more than XYZ km/h/sec (where XYZ is a calibratible", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Trp.Nmber.Of.Idle.Shutdown.Overrides" : { + "generic_name": "Trp.Nmber.Of.Idle.Shutdown.Overrides", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Total number of times an operator disables idle shutdown to prevent an engine shutdown, since the last trip reset.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Number.Of.Idle.Shutdowns" : { + "generic_name": "Trip.Number.Of.Idle.Shutdowns", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Total number of times the engine has been shutdown due to idling too long (at normal idle or fast idle) since the last trip reset.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Number.Of.Hot.Shutdowns" : { + "generic_name": "Trip.Number.Of.Hot.Shutdowns", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Total number of hot shutdowns since the last trip reset.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + } + } + }, + "254": { + "comment": "Torque/Speed Control 1", + "length": 8, + "name": "TSC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Message.Counter" : { + "generic_name": "Message.Counter", + "bit_position": 55, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "The message counter is used to detect situations where the transmitting ECU malfunction repeats the same frame all the time.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Reserved": [8, 9, 10, 11, 12, 13, 14], + "Not Available": [15] + } + }, + "Control.Purpose" : { + "generic_name": "Control.Purpose", + "bit_position": 34, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "State signal which indicates which control mode the sending device is using to generate the TSC1 command.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AcceleratorPedal": [0], + "CruiseControl": [1], + "PTOGovernor": [2], + "RoadSpeedGovernor": [3], + "EngineProtection": [4], + "TemporaryPowerTrainControl": [5] + } + }, + "Transmission.Rate" : { + "generic_name": "Transmission.Rate", + "bit_position": 31, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "This parameter indicates the transmission rate at which the sending device will transmit the TSC1 message.", + "is_big_endian": false, + "is_signed": false, + "states": { + "1000ms": [0], + "750ms": [1], + "500ms": [2], + "250ms": [3], + "100ms": [4], + "50ms": [5], + "25ms": [6], + "UseStandardRate": [7] + } + }, + "Eng.Rqed.Torque_.Torque.Limit" : { + "generic_name": "Eng.Rqed.Torque_.Torque.Limit", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Parameter provided to the engine or retarder in the torque/speed control message for controlling or limiting the output torque.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Rqed.Speed_.Speed.Limit" : { + "generic_name": "Eng.Rqed.Speed_.Speed.Limit", + "bit_position": 7, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Parameter provided to the engine from external sources in the torque/speed control message.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Override.Ctrl.Mode.Priority" : { + "generic_name": "Override.Ctrl.Mode.Priority", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "HghstPrrtyUsdFrSttnsThtRqrImmdt": [0], + "HighPriority": [1], + "MdmPrrtyUsdFrPwrtrnCtrlOprtnsWh": [2], + "LowPriority": [3] + } + }, + "Eng.Rqed.Speed.Ctrl.Conditions" : { + "generic_name": "Eng.Rqed.Speed.Ctrl.Conditions", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This mode tells the engine control system the governor characteristics that are desired during speed control.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ThsSpdGvrnrGnSlctnIsAdjstdTPrvd": [0], + "StbltyOptmzdFrDrvlnDsnggdAndNnl": [1], + "ThsCtrlCndtnHsBnOptmzdTMnmzRpmO": [2], + "StbltyOptmzdFrDrvlnEnggdAnd_OrI": [3] + } + }, + "Eng.Override.Ctrl.Mode" : { + "generic_name": "Eng.Override.Ctrl.Mode", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "OvrrdDsbldDsblAnyExstngCtrlCmdd": [0], + "SpdCtrlGvrnSpdTInclddDsrdSpdVle": [1], + "TrqCtrlCntrlTrqTInclddDsrdTrqVl": [2], + "Spd_TrqLmtCtrlLmtSpdAnd_OrTrqBs": [3] + } + }, + "Message.Checksum" : { + "generic_name": "Message.Checksum", + "bit_position": 59, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "The checksum is used to verify the signal path from the transmitting device to the receiving device.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Not Available": [15] + } + }, + "Engine.Requested.Torque.Hi.Res" : { + "generic_name": "Engine.Requested.Torque.Hi.Res", + "bit_position": 39, + "bit_size": 4, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 0.875, + "comment": "This parameter displays an additional torque in percent of the reference engine torque.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "Not Available": [8, 9, 10, 11, 12, 13, 14, 15] + } + } + } + }, + "64960": { + "comment": "Passenger Counter", + "length": 8, + "name": "TR7", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Transit.Run.Status" : { + "generic_name": "Transit.Run.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the run switch for the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "ErrorCondition": [2], + "NotAvailable": [3] + } + }, + "Vehicle.Use.Status" : { + "generic_name": "Vehicle.Use.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Used to indicate the proper or unauthorized use of the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NormalUse": [0], + "UnauthorizedUse": [1], + "ErrorCondition": [2], + "NotAvailable": [3] + } + }, + "Silent.Alarm.Status" : { + "generic_name": "Silent.Alarm.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Used to report silent alarm push button status.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "ErrorCondition": [2], + "NotAvailable": [3] + } + }, + "Patron.Count" : { + "generic_name": "Patron.Count", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Count of the number of passengers on a transit vehicle.", + "is_big_endian": false, + "is_signed": false + }, + "Type.Of.Passenger.Count" : { + "generic_name": "Type.Of.Passenger.Count", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Used to notify transit link devices of the type of passenger counting system used in the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AbsPassengerCount": [0], + "BoardingPassenger": [1], + "Exiting Passenger": [2], + "Boarding Passenger (second passenger stream)": [3], + "Exiting Passenger (second passenger stream)": [4] + } + } + } + }, + "64954": { + "comment": "Farebox Status", + "length": 8, + "name": "TR6", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Farebox.Alarm.Identifier" : { + "generic_name": "Farebox.Alarm.Identifier", + "bit_position": 7, + "bit_size": 7, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 127, + "comment": "Indicates the nature of the farebox alarm condition.", + "is_big_endian": false, + "is_signed": false, + "states": { + "VoltageDropout": [0], + "VoltageRestored": [1], + "ProbeStarted": [2], + "ProbeCompleted": [3], + "CashboxRemoved": [4], + "CashboxRestored": [5], + "CashboxDoorTimeout": [6], + "CshbxOpndInSrvcCnsdrdAnAlrmCndt": [7], + "InsufficientFareAccepted": [8], + "Coinbox75Full": [9], + "CoinboxFull": [10], + "CurrencyBox75Full": [11], + "CurrencyBoxLessThan75Full": [12], + "CurrencyBoxFull": [13], + "Card_PassBox75Full": [14], + "Card_PassBoxLessThan75Full": [15], + "Card_PassBoxFull": [16], + "CoinDejamOperated": [17], + "FareboxSetInManualBypass": [18], + "FareboxResetToAutomaticMode": [19], + "Pass_TransferJam": [20], + "Pass_TransferJamCleared": [21], + "PaperCurrencyJam": [22], + "PaperCurrencyJamCleared": [23], + "MntnncAccssInSrvcCnsdrdAnAlrmCn": [24], + "MaintenanceAccessOutOfService": [25], + "1100000ReservedToBeAssigned": [26], + "1111111AgencyDefined": [97] + } + }, + "Farebox.Emergency.Status" : { + "generic_name": "Farebox.Emergency.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates if a farebox emergency condition exists.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NonemergencyCondition": [0], + "EmergencyCondition": [1], + "ErrorCondition": [2], + "NotAvailable": [3] + } + } + } + }, + "64955": { + "comment": "Farebox Point of Sale", + "length": 8, + "name": "TR5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Transfer.Sold" : { + "generic_name": "Transfer.Sold", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Indicates that a transfer was sold or issued on this transaction including its type and/or restrictions.", + "is_big_endian": false, + "is_signed": false + }, + "Route.Number" : { + "generic_name": "Route.Number", + "bit_position": 39, + "bit_size": 12, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4095, + "comment": "The route number issuing the transfer.", + "is_big_endian": false, + "is_signed": false + }, + "Transfer.Type" : { + "generic_name": "Transfer.Type", + "bit_position": 34, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "The kind of transfer used", + "is_big_endian": false, + "is_signed": false, + "states": { + "North": [0], + "South": [1], + "East": [2], + "West": [3], + "In": [4], + "Out": [5], + "11111AgencyDefined": [6] + } + }, + "Type.Of.Service" : { + "generic_name": "Type.Of.Service", + "bit_position": 31, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "The type of service provided", + "is_big_endian": false, + "is_signed": false, + "states": { + "LocalService": [0], + "ExpressService": [1], + "111AgencyDefined": [2] + } + }, + "Initial.Fare.Agency" : { + "generic_name": "Initial.Fare.Agency", + "bit_position": 23, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Identifies where the initial fare is paid", + "is_big_endian": false, + "is_signed": false + }, + "Pass.Category" : { + "generic_name": "Pass.Category", + "bit_position": 19, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Agency defined value indicating the category of the passenger associated with this fare", + "is_big_endian": false, + "is_signed": false + }, + "Fare.Validity" : { + "generic_name": "Fare.Validity", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Agency defined value indicating validity of this fare", + "is_big_endian": false, + "is_signed": false + }, + "Payment.Details" : { + "generic_name": "Payment.Details", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Payment details.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotAnUpgrade": [0], + "Cash": [1], + "Token": [2], + "Ticket": [3], + "Pass": [4], + "Card": [5], + "1010ReservedForAssignment": [6], + "1111AgencyDefined": [11] + } + }, + "Type.Of.Fare" : { + "generic_name": "Type.Of.Fare", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Fare", + "is_big_endian": false, + "is_signed": false, + "states": { + "Cash_NoDetail": [0], + "TokenA": [1], + "TokenB": [2], + "TicketA": [3], + "TicketB": [4], + "PassA": [5], + "PassB": [6], + "1010ReservedForAssignment": [7], + "1111AgencyDefined": [11] + } + }, + "Passenger.Type" : { + "generic_name": "Passenger.Type", + "bit_position": 3, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Enumerated value representing the type/class of passenger, as defined by the agency.", + "is_big_endian": false, + "is_signed": false + }, + "Transaction.Type" : { + "generic_name": "Transaction.Type", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Enumerated value representing the type of transaction completed", + "is_big_endian": false, + "is_signed": false, + "states": { + "Cash": [0], + "Token": [1], + "Ticket": [2], + "Pass": [3], + "Card": [4], + "Permit": [5], + "Transfer": [6], + "Free": [7], + "1011ReservedForAssignment": [8], + "1111AgencyDefined": [12] + } + } + } + }, + "64956": { + "comment": "Farebox Service Detail", + "length": 15, + "name": "TR4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Drivers.Farebox.Security.Code" : { + "generic_name": "Drivers.Farebox.Security.Code", + "bit_position": 103, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "Security code for the farebox, numerical only.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false, + "states": { + "Farebox is in reporting status": [0], + "SecurityCode": [1] + } + }, + "Assigned.Block" : { + "generic_name": "Assigned.Block", + "bit_position": 87, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "The agency defined block number for this trip", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Assigned.Run" : { + "generic_name": "Assigned.Run", + "bit_position": 71, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "The agency defined run number for this trip", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Assigned.Route" : { + "generic_name": "Assigned.Route", + "bit_position": 55, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "The identity number assigned to this route.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Pattern.Number" : { + "generic_name": "Pattern.Number", + "bit_position": 39, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "The agency defined pattern number for this trip", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Number" : { + "generic_name": "Trip.Number", + "bit_position": 23, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "The identity number assigned to this trip.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Fare.Presets" : { + "generic_name": "Fare.Presets", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Fare Presets", + "is_big_endian": false, + "is_signed": false, + "states": { + "to00001111AgencyDefined": [0], + "to11111111ReservedForAssignment": [16] + } + }, + "Trip.Direction" : { + "generic_name": "Trip.Direction", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "The general direction of travel for this trip.", + "is_big_endian": false, + "is_signed": false, + "states": { + "North": [0], + "South": [1], + "East": [2], + "West": [3], + "In": [4], + "Out": [5], + "1111AgencyDefined": [6] + } + }, + "Trip.Status" : { + "generic_name": "Trip.Status", + "bit_position": 1, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Trip Status", + "is_big_endian": false, + "is_signed": false, + "states": { + "TripStart": [1], + "TripEnd": [2], + "LayoverStart": [5], + "LayoverEnd": [6], + "Undefined": [7] + } + }, + "Farebox.Service.Status" : { + "generic_name": "Farebox.Service.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates if the farebox is in or out of service.", + "is_big_endian": false, + "is_signed": false, + "states": { + "FareboxOutOfService": [0], + "FareboxInService": [1], + "ErrorCondition": [2], + "NotAvailable": [3] + } + } + } + }, + "64957": { + "comment": "Signal Preemption", + "length": 8, + "name": "TR3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Vehicle.ID" : { + "generic_name": "Vehicle.ID", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "Numerical designation of the vehicle.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Strobe.Activation.Ctrl.Status" : { + "generic_name": "Strobe.Activation.Ctrl.Status", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Strobe activation control status", + "is_big_endian": false, + "is_signed": false, + "states": { + "DeactivateStrobe": [0], + "ActivateStrobe": [1], + "ErrorCondition": [2], + "NotAvailable": [3] + } + }, + "Transit.Door.Enable" : { + "generic_name": "Transit.Door.Enable", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Transit door enable", + "is_big_endian": false, + "is_signed": false, + "states": { + "IgnoreTransitDoorStatus": [0], + "TrnstDrSttsWllOvrrdStrbActvtion": [1], + "ErrorCondition": [2], + "NotAvailable": [3] + } + }, + "Priority.Of.Resp.Sent.By.Emitter" : { + "generic_name": "Priority.Of.Resp.Sent.By.Emitter", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Priority of response sent by emitter", + "is_big_endian": false, + "is_signed": false, + "states": { + "Reserved": [0], + "LowPriority": [1], + "ProbePriority": [2], + "HighPriority": [3], + "to1000Reserved": [4], + "PrrtySetByHardwareToLowPriority": [9], + "PrrtyStByHrdwareToProbePriority": [10], + "PrrtyStByHardwareToHighPriority": [11], + "to1101Reserved": [12], + "ErrorCondition": [14], + "NotAvailable": [15] + } + }, + "Intersection.Preemption.Rq_.Resp" : { + "generic_name": "Intersection.Preemption.Rq_.Resp", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the intersection signal preemption", + "is_big_endian": false, + "is_signed": false, + "states": { + "MessageIsARqDirectedToEmitter": [0], + "MessageIsARespFromEmitter": [1], + "ErrorCondition": [2], + "NotAvailable": [3] + } + }, + "Transit.Route.IDUsage" : { + "generic_name": "Transit.Route.IDUsage", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Transit route ID usage", + "is_big_endian": false, + "is_signed": false, + "states": { + "TrnstRtIDNtUsdFrInterleavedData": [0], + "TrnstRtIDUsedForInterleavedData": [1], + "ErrorCondition": [2], + "NotAvailable": [3] + } + }, + "Range.Code.Enable" : { + "generic_name": "Range.Code.Enable", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Range code enable", + "is_big_endian": false, + "is_signed": false, + "states": { + "RngCdeNotUsedForInterleavedData": [0], + "RangeCodeUsedForInterleavedData": [1], + "ErrorCondition": [2], + "NotAvailable": [3] + } + } + } + }, + "64959": { + "comment": "Transit Milepost", + "length": 8, + "name": "TR2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Nmbr.Of.Byts.In.Mlpst.Identification" : { + "generic_name": "Nmbr.Of.Byts.In.Mlpst.Identification", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Number of bytes in the Milepost Identification.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64958": { + "comment": "Transit Route", + "length": 4, + "name": "TR1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Agency" : { + "generic_name": "Agency", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "The identity of the agency involved in this transaction", + "is_big_endian": false, + "is_signed": false + }, + "Nmbr.Of.Byts.In.Trnst.Assgnd.Blck.Idntty" : { + "generic_name": "Nmbr.Of.Byts.In.Trnst.Assgnd.Blck.Idntty", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Number of bytes in the Transit Assigned Block Identity.", + "is_big_endian": false, + "is_signed": false + }, + "Nmbr.Of.Byts.In.Trnst.Assgnd.Rn.Idntty" : { + "generic_name": "Nmbr.Of.Byts.In.Trnst.Assgnd.Rn.Idntty", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Number of bytes in the Transit Assigned Run Identity.", + "is_big_endian": false, + "is_signed": false + }, + "Nmbr.Of.Byts.In.Trnst.Assgnd.Rt.Idntty" : { + "generic_name": "Nmbr.Of.Byts.In.Trnst.Assgnd.Rt.Idntty", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Number of bytes in the Transit Assigned Route Identity.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "44798": { + "comment": "Tire Pressure Reference Setting", + "length": 8, + "name": "TPRS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Reference.Tire.Press.Setting_33" : { + "generic_name": "Reference.Tire.Press.Setting_33", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "51", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting_32" : { + "generic_name": "Reference.Tire.Press.Setting_32", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "50", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting_31" : { + "generic_name": "Reference.Tire.Press.Setting_31", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "49", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting_30" : { + "generic_name": "Reference.Tire.Press.Setting_30", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "48", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting_23" : { + "generic_name": "Reference.Tire.Press.Setting_23", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "35", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting_22" : { + "generic_name": "Reference.Tire.Press.Setting_22", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "34", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting_21" : { + "generic_name": "Reference.Tire.Press.Setting_21", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "33", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting_20" : { + "generic_name": "Reference.Tire.Press.Setting_20", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "32", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting_13" : { + "generic_name": "Reference.Tire.Press.Setting_13", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "19", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting_12" : { + "generic_name": "Reference.Tire.Press.Setting_12", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "18", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting_11" : { + "generic_name": "Reference.Tire.Press.Setting_11", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "17", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting_10" : { + "generic_name": "Reference.Tire.Press.Setting_10", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "16", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting_01" : { + "generic_name": "Reference.Tire.Press.Setting_01", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "1", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press.Setting_00" : { + "generic_name": "Reference.Tire.Press.Setting_00", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "0", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Location" : { + "generic_name": "Tire.Location", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Identifies which tire is associated with the parametric data in this PGN.", + "multiplex": "Multiplexor", + "is_big_endian": false, + "is_signed": false, + "states": { + "Axle0_Position0": [0], + "Axle0_Position1": [1], + "Axle1_Position0": [16], + "Axle1_Position1": [17], + "Axle1_Position2": [18], + "Axle1_Position3": [19], + "Axle2_Position0": [32], + "Axle2_Position1": [33], + "Axle2_Position2": [34], + "Axle2_Position3": [35], + "Axle3_Position0": [48], + "Axle3_Position1": [49], + "Axle3_Position2": [50], + "Axle3_Position3": [51] + } + } + } + }, + "64953": { + "comment": "Tire Pressure Reference Information", + "length": 8, + "name": "TPRI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Reference.Tire.Press_33" : { + "generic_name": "Reference.Tire.Press_33", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "51", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press_32" : { + "generic_name": "Reference.Tire.Press_32", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "50", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press_31" : { + "generic_name": "Reference.Tire.Press_31", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "49", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press_30" : { + "generic_name": "Reference.Tire.Press_30", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "48", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press_23" : { + "generic_name": "Reference.Tire.Press_23", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "35", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press_22" : { + "generic_name": "Reference.Tire.Press_22", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "34", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press_21" : { + "generic_name": "Reference.Tire.Press_21", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "33", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press_20" : { + "generic_name": "Reference.Tire.Press_20", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "32", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press_13" : { + "generic_name": "Reference.Tire.Press_13", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "19", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press_12" : { + "generic_name": "Reference.Tire.Press_12", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "18", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press_11" : { + "generic_name": "Reference.Tire.Press_11", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "17", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press_10" : { + "generic_name": "Reference.Tire.Press_10", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "16", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press_01" : { + "generic_name": "Reference.Tire.Press_01", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "1", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Tire.Press_00" : { + "generic_name": "Reference.Tire.Press_00", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "None", + "multiplex": "0", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Location" : { + "generic_name": "Tire.Location", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Identifies which tire is associated with the parametric data in this PGN.", + "multiplex": "Multiplexor", + "is_big_endian": false, + "is_signed": false, + "states": { + "Axle0_Position0": [0], + "Axle0_Position1": [1], + "Axle1_Position0": [16], + "Axle1_Position1": [17], + "Axle1_Position2": [18], + "Axle1_Position3": [19], + "Axle2_Position0": [32], + "Axle2_Position1": [33], + "Axle2_Position2": [34], + "Axle2_Position3": [35], + "Axle3_Position0": [48], + "Axle3_Position1": [49], + "Axle3_Position2": [50], + "Axle3_Position3": [51] + } + } + } + }, + "65146": { + "comment": "Tire Pressure Control Unit Current Pressures", + "length": 8, + "name": "TP3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Steer.Channel.Tire.Press" : { + "generic_name": "Steer.Channel.Tire.Press", + "bit_position": 31, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "The latest gage pressure reading of the steer group of tires, as opposed to the pressure in each tire.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Drive.Channel.Tire.Press" : { + "generic_name": "Drive.Channel.Tire.Press", + "bit_position": 15, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "The latest gage pressure reading of the drive group of tires, as opposed to the pressure in each tire.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Trailer.Tag.Push.Channel.Tire.Press" : { + "generic_name": "Trailer.Tag.Push.Channel.Tire.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "The latest gage pressure reading of the trailer, tag, or push group of tires, as opposed to the pressure in each tire.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65145": { + "comment": "Tire Pressure Control Unit Target Pressures", + "length": 8, + "name": "TP2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Steer.Channel.Tire.Press.Target" : { + "generic_name": "Steer.Channel.Tire.Press.Target", + "bit_position": 31, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "The tire pressure control system's target gage pressure for the steer group of tires.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Drive.Channel.Tire.Press.Target" : { + "generic_name": "Drive.Channel.Tire.Press.Target", + "bit_position": 15, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "The tire pressure control system's target gage pressure for the drive group of tires.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Trlr.Tg.Psh.Channel.Tire.Press.Target" : { + "generic_name": "Trlr.Tg.Psh.Channel.Tire.Press.Target", + "bit_position": -1, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "The tire pressure control system's target gage pressure for the trailer, tag, or push group of tires.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65144": { + "comment": "Tire Pressure Control Unit Mode and Status", + "length": 8, + "name": "TP1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "P.CUSupply.Solenoid.Status" : { + "generic_name": "P.CUSupply.Solenoid.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Current state of the supply solenoid used to implement a tire pressure control system in its pneumatic control unit (PCU).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "P.CUCtrl.Solenoid.Status" : { + "generic_name": "P.CUCtrl.Solenoid.Status", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Current state of the control solenoid used to implement a tire pressure control system in its pneumatic control unit (PCU).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "P.CUDeflate.Solenoid.Status" : { + "generic_name": "P.CUDeflate.Solenoid.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Current state of the deflate solenoid used to implement a tire pressure control system in its pneumatic control unit (PCU).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Tire.Press.Supply.Switch.Status" : { + "generic_name": "Tire.Press.Supply.Switch.Status", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Current state of an open/closed type switch used to determine if adequate pressure exists for system implementation.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "P.CUSteer.Solenoid.Status" : { + "generic_name": "P.CUSteer.Solenoid.Status", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Current state of the steer solenoid used to implement a tire pressure control system in its pneumatic control unit (PCU).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "P.CUDrive.Solenoid.Status" : { + "generic_name": "P.CUDrive.Solenoid.Status", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Current state of the drive solenoid used to implement a tire pressure control system in its pneumatic control unit (PCU).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Drive.Channel.Mode" : { + "generic_name": "Drive.Channel.Mode", + "bit_position": 19, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Indicates the functional mode of trailer/tag channel of the tire pressure control system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Maintain": [0], + "Inflate": [1], + "Deflate": [2], + "Confirm": [3], + "InfltWtSystmWllInfltWhnCndtnsAl": [4], + "DfltWtSystmWllDfltWhnCndtnsAllw": [5], + "PressCheck": [6], + "1101Reserved": [7], + "ErrorCondition": [14], + "NotAvailable": [15] + } + }, + "Trailer_.Tag.Channel.Mode" : { + "generic_name": "Trailer_.Tag.Channel.Mode", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Indicates the functional mode of trailer/tag channel of the tire pressure control system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Maintain": [0], + "Inflate": [1], + "Deflate": [2], + "Confirm": [3], + "InfltWtSystmWllInfltWhnCndtnsAl": [4], + "DfltWtSystmWllDfltWhnCndtnsAllw": [5], + "PressCheck": [6], + "1101Reserved": [7], + "ErrorCondition": [14], + "NotAvailable": [15] + } + }, + "Steer.Channel.Mode" : { + "generic_name": "Steer.Channel.Mode", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Indicates the functional mode of steer channel of the tire pressure control system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Maintain": [0], + "Inflate": [1], + "Deflate": [2], + "Confirm": [3], + "InfltWtSystmWllInfltWhnCndtnsAl": [4], + "DfltWtSystmWllDfltWhnCndtnsAllw": [5], + "PressCheck": [6], + "1101Reserved": [7], + "ErrorCondition": [14], + "NotAvailable": [15] + } + }, + "Tire.Press.Check.Interval" : { + "generic_name": "Tire.Press.Check.Interval", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The interval at which the system will check the tire pressures (e.", + "unit": "mins", + "is_big_endian": false, + "is_signed": false + }, + "P.CUTrailer.Tag.Push.Solenoid.Status" : { + "generic_name": "P.CUTrailer.Tag.Push.Solenoid.Status", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Current state of the trailer, tag, or push solenoid used to implement a tire pressure control system in its pneumatic control", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "65268": { + "comment": "Tire Condition", + "length": 8, + "name": "TIRE", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Tire.Press.Threshold.Detection_13" : { + "generic_name": "Tire.Press.Threshold.Detection_13", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "19", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press.Threshold.Detection_12" : { + "generic_name": "Tire.Press.Threshold.Detection_12", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "18", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press.Threshold.Detection_11" : { + "generic_name": "Tire.Press.Threshold.Detection_11", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "17", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press.Threshold.Detection_10" : { + "generic_name": "Tire.Press.Threshold.Detection_10", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "16", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press.Threshold.Detection_01" : { + "generic_name": "Tire.Press.Threshold.Detection_01", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "1", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press_33" : { + "generic_name": "Tire.Press_33", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "51", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press_32" : { + "generic_name": "Tire.Press_32", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "50", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press_31" : { + "generic_name": "Tire.Press_31", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "49", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press_30" : { + "generic_name": "Tire.Press_30", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "48", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press_23" : { + "generic_name": "Tire.Press_23", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "35", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press_22" : { + "generic_name": "Tire.Press_22", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "34", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press_21" : { + "generic_name": "Tire.Press_21", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "33", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press_20" : { + "generic_name": "Tire.Press_20", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "32", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press_13" : { + "generic_name": "Tire.Press_13", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "19", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press_12" : { + "generic_name": "Tire.Press_12", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "18", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press_11" : { + "generic_name": "Tire.Press_11", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "17", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press_10" : { + "generic_name": "Tire.Press_10", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "16", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_33" : { + "generic_name": "Tire.Air.Leakage.Rate_33", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "51", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_32" : { + "generic_name": "Tire.Air.Leakage.Rate_32", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "50", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_31" : { + "generic_name": "Tire.Air.Leakage.Rate_31", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "49", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_30" : { + "generic_name": "Tire.Air.Leakage.Rate_30", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "48", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_23" : { + "generic_name": "Tire.Air.Leakage.Rate_23", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "35", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_22" : { + "generic_name": "Tire.Air.Leakage.Rate_22", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "34", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_21" : { + "generic_name": "Tire.Air.Leakage.Rate_21", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "33", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_20" : { + "generic_name": "Tire.Air.Leakage.Rate_20", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "32", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_13" : { + "generic_name": "Tire.Air.Leakage.Rate_13", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "19", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_12" : { + "generic_name": "Tire.Air.Leakage.Rate_12", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "18", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_11" : { + "generic_name": "Tire.Air.Leakage.Rate_11", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "17", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_10" : { + "generic_name": "Tire.Air.Leakage.Rate_10", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "16", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_01" : { + "generic_name": "Tire.Air.Leakage.Rate_01", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "1", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Air.Leakage.Rate_00" : { + "generic_name": "Tire.Air.Leakage.Rate_00", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The pressure loss rate of a tire.", + "multiplex": "0", + "unit": "Pa/s", + "is_big_endian": false, + "is_signed": false + }, + "C.TIWheel.Sensor.Status_33" : { + "generic_name": "C.TIWheel.Sensor.Status_33", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "51", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.Sensor.Status_32" : { + "generic_name": "C.TIWheel.Sensor.Status_32", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "50", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.Sensor.Status_31" : { + "generic_name": "C.TIWheel.Sensor.Status_31", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "49", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.Sensor.Status_30" : { + "generic_name": "C.TIWheel.Sensor.Status_30", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "48", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.Sensor.Status_23" : { + "generic_name": "C.TIWheel.Sensor.Status_23", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "35", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.Sensor.Status_22" : { + "generic_name": "C.TIWheel.Sensor.Status_22", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "34", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.Sensor.Status_21" : { + "generic_name": "C.TIWheel.Sensor.Status_21", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "33", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.Sensor.Status_20" : { + "generic_name": "C.TIWheel.Sensor.Status_20", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "32", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.Sensor.Status_13" : { + "generic_name": "C.TIWheel.Sensor.Status_13", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "19", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.Sensor.Status_12" : { + "generic_name": "C.TIWheel.Sensor.Status_12", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "18", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.Sensor.Status_11" : { + "generic_name": "C.TIWheel.Sensor.Status_11", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "17", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.Sensor.Status_10" : { + "generic_name": "C.TIWheel.Sensor.Status_10", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "16", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.Sensor.Status_01" : { + "generic_name": "C.TIWheel.Sensor.Status_01", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "1", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_33" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_33", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "51", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_32" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_32", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "50", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_31" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_31", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "49", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_30" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_30", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "48", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_23" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_23", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "35", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_22" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_22", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "34", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_21" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_21", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "33", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_20" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_20", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "32", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_13" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_13", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "19", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_12" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_12", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "18", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_11" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_11", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "17", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_10" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_10", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "16", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_01" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_01", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "1", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_33" : { + "generic_name": "C.TITire.Status_33", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "51", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_32" : { + "generic_name": "C.TITire.Status_32", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "50", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_31" : { + "generic_name": "C.TITire.Status_31", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "49", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_30" : { + "generic_name": "C.TITire.Status_30", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "48", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_23" : { + "generic_name": "C.TITire.Status_23", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "35", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_22" : { + "generic_name": "C.TITire.Status_22", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "34", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_21" : { + "generic_name": "C.TITire.Status_21", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "33", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_20" : { + "generic_name": "C.TITire.Status_20", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "32", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_13" : { + "generic_name": "C.TITire.Status_13", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "19", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_12" : { + "generic_name": "C.TITire.Status_12", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "18", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_11" : { + "generic_name": "C.TITire.Status_11", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "17", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_10" : { + "generic_name": "C.TITire.Status_10", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "16", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_01" : { + "generic_name": "C.TITire.Status_01", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "1", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "Tire.Temp_11" : { + "generic_name": "Tire.Temp_11", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "17", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Temp_33" : { + "generic_name": "Tire.Temp_33", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "51", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Temp_32" : { + "generic_name": "Tire.Temp_32", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "50", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Temp_31" : { + "generic_name": "Tire.Temp_31", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "49", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Temp_30" : { + "generic_name": "Tire.Temp_30", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "48", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Temp_23" : { + "generic_name": "Tire.Temp_23", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "35", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Temp_22" : { + "generic_name": "Tire.Temp_22", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "34", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Temp_21" : { + "generic_name": "Tire.Temp_21", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "33", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Temp_20" : { + "generic_name": "Tire.Temp_20", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "32", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Temp_13" : { + "generic_name": "Tire.Temp_13", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "19", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Temp_12" : { + "generic_name": "Tire.Temp_12", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "18", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Temp_10" : { + "generic_name": "Tire.Temp_10", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "16", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Temp_01" : { + "generic_name": "Tire.Temp_01", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "1", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Temp_00" : { + "generic_name": "Tire.Temp_00", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1735, + "comment": "Temperature at the surface of the tire sidewall.", + "multiplex": "0", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press.Threshold.Detection_33" : { + "generic_name": "Tire.Press.Threshold.Detection_33", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "51", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press.Threshold.Detection_32" : { + "generic_name": "Tire.Press.Threshold.Detection_32", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "50", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press.Threshold.Detection_31" : { + "generic_name": "Tire.Press.Threshold.Detection_31", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "49", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press.Threshold.Detection_30" : { + "generic_name": "Tire.Press.Threshold.Detection_30", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "48", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press.Threshold.Detection_23" : { + "generic_name": "Tire.Press.Threshold.Detection_23", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "35", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press.Threshold.Detection_22" : { + "generic_name": "Tire.Press.Threshold.Detection_22", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "34", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press.Threshold.Detection_21" : { + "generic_name": "Tire.Press.Threshold.Detection_21", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "33", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press.Threshold.Detection_20" : { + "generic_name": "Tire.Press.Threshold.Detection_20", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "32", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press.Threshold.Detection_00" : { + "generic_name": "Tire.Press.Threshold.Detection_00", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal indicating the pressure level of the tire.", + "multiplex": "0", + "is_big_endian": false, + "is_signed": false, + "states": { + "ExtrmOvrPrssTrPrssrIsAtALvlWhrT": [0], + "OvrPrssTrPrssrIsHghrThnThPrssrD": [1], + "NWrnngPrssTrPrssrIsWthnThThrshl": [2], + "UndrPrssTrPrssrIsLwrThnThPrssrD": [3], + "ExtrmUndrPrssTrPrssrIsAtALvlWhr": [4], + "NotDefined": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + }, + "Tire.Press_01" : { + "generic_name": "Tire.Press_01", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "1", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Tire.Press_00" : { + "generic_name": "Tire.Press_00", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Pressure at which air is contained in cavity formed by tire and rim.", + "multiplex": "0", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "C.TIWheel.Sensor.Status_00" : { + "generic_name": "C.TIWheel.Sensor.Status_00", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the wheel is being monitored by the CTI controller.", + "multiplex": "0", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_IsolatedFromCTIPressCtrl": [0], + "On": [1], + "NotDefined": [2], + "NotSupported": [3] + } + }, + "C.TIWheel.End.Electrical.Fault_00" : { + "generic_name": "C.TIWheel.End.Electrical.Fault_00", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of electrical fault on CTI wheel interface.", + "multiplex": "0", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "NotDefined": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "C.TITire.Status_00" : { + "generic_name": "C.TITire.Status_00", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the tire.", + "multiplex": "0", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ok": [0], + "TireLeakDetected": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "Tire.Location" : { + "generic_name": "Tire.Location", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Identifies which tire is associated with the parametric data in this PGN.", + "multiplex": "Multiplexor", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65211": { + "comment": "Trip Fan Information", + "length": 16, + "name": "TFI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trip.Fan.On.Time.Due.To.AManual.Switch" : { + "generic_name": "Trip.Fan.On.Time.Due.To.AManual.Switch", + "bit_position": 63, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time the fan has been on due to manual activation by the operator (i.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Fan.On.Time" : { + "generic_name": "Trip.Fan.On.Time", + "bit_position": -1, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time the fan has been on (due to an automatic trigger or manual trigger) since the last trip reset.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Fan.On.Time.Due.To.A_.CSystem" : { + "generic_name": "Trip.Fan.On.Time.Due.To.A_.CSystem", + "bit_position": 95, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time the fan has been on due to the A/C system since the last trip reset.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Fan.On.Time.Due.To.Eng.System" : { + "generic_name": "Trip.Fan.On.Time.Due.To.Eng.System", + "bit_position": 31, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time the fan has been on due to engine triggers (i.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65210": { + "comment": "Trip Distance Information", + "length": 12, + "name": "TDI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trip.Distance.In.Top.Gear" : { + "generic_name": "Trip.Distance.In.Top.Gear", + "bit_position": 63, + "bit_size": 32, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 526385151.9, + "comment": "Total distance accumulated while the vehicle has operated in top gear for a calibrated minimum time since the last trip reset.", + "unit": "km", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Gear.Down.Distance" : { + "generic_name": "Trip.Gear.Down.Distance", + "bit_position": 31, + "bit_size": 32, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 526385151.9, + "comment": "Total distance accumulated while the vehicle has operated in the gear which is one gear down from top gear and exceeds", + "unit": "km", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Distance.On.VSL" : { + "generic_name": "Trip.Distance.On.VSL", + "bit_position": -1, + "bit_size": 32, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 526385151.9, + "comment": "Total distance accumulated while the engine torque mode is road speed governing since the last trip reset.", + "unit": "km", + "is_big_endian": false, + "is_signed": false + } + } + }, + "54782": { + "comment": "Time/Date Adjust", + "length": 8, + "name": "TDA", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Adjust.Local.Hour.Offset" : { + "generic_name": "Adjust.Local.Hour.Offset", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The hour component for setting the offset between the UTC (Universal Time Coordinate) time and date and a the local", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Adjust.Local.Minute.Offset" : { + "generic_name": "Adjust.Local.Minute.Offset", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The minute component for setting the offset between the UTC (Universal Time Coordinate) time and date and a the local", + "unit": "mins", + "is_big_endian": false, + "is_signed": false + }, + "Adjust.Year" : { + "generic_name": "Adjust.Year", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 1985, + "min_value": 1985, + "max_value": 2235, + "comment": "The year component for setting the current calendar date.", + "unit": "years", + "is_big_endian": false, + "is_signed": false + }, + "Adjust.Day" : { + "generic_name": "Adjust.Day", + "bit_position": 31, + "bit_size": 8, + "factor": 0.25, + "offset": 0, + "min_value": 0, + "max_value": 62.5, + "comment": "The day component for setting the current calendar date.", + "unit": "days", + "is_big_endian": false, + "is_signed": false + }, + "Adjust.Month" : { + "generic_name": "Adjust.Month", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The month component for setting the current calendar date.", + "unit": "months", + "is_big_endian": false, + "is_signed": false + }, + "Adjust.Hours" : { + "generic_name": "Adjust.Hours", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The hours component for setting the current time of day.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Adjust.Minutes" : { + "generic_name": "Adjust.Minutes", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The minutes component for setting the current time of day.", + "unit": "mins", + "is_big_endian": false, + "is_signed": false + }, + "Adjust.Seconds" : { + "generic_name": "Adjust.Seconds", + "bit_position": -1, + "bit_size": 8, + "factor": 0.25, + "offset": 0, + "min_value": 0, + "max_value": 62.5, + "comment": "The seconds component for setting the current time of day.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65254": { + "comment": "Time/Date", + "length": 8, + "name": "TD", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Local.Hour.Offset" : { + "generic_name": "Local.Hour.Offset", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The hour component of the offset between the UTC (Universal Time Coordinate) time and date and a local time zone time", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Local.Minute.Offset" : { + "generic_name": "Local.Minute.Offset", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The minute component of the offset between the UTC time and date and a local time zone time and date.", + "unit": "mins", + "is_big_endian": false, + "is_signed": false + }, + "Year" : { + "generic_name": "Year", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 1985, + "min_value": 1985, + "max_value": 2235, + "comment": "The year component of the current calendar date.", + "unit": "years", + "is_big_endian": false, + "is_signed": false + }, + "Day" : { + "generic_name": "Day", + "bit_position": 31, + "bit_size": 8, + "factor": 0.25, + "offset": 0, + "min_value": 0, + "max_value": 62.5, + "comment": "The day component of the current calendar date.", + "unit": "days", + "is_big_endian": false, + "is_signed": false + }, + "Month" : { + "generic_name": "Month", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The month component of the current calendar date.", + "unit": "months", + "is_big_endian": false, + "is_signed": false + }, + "Hours" : { + "generic_name": "Hours", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The hour component of the current time of day.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Minutes" : { + "generic_name": "Minutes", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The minutes component of the current time of day.", + "unit": "mins", + "is_big_endian": false, + "is_signed": false + }, + "Seconds" : { + "generic_name": "Seconds", + "bit_position": -1, + "bit_size": 8, + "factor": 0.25, + "offset": 0, + "min_value": 0, + "max_value": 62.5, + "comment": "The seconds component of the current time of day.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65174": { + "comment": "Turbocharger Wastegate", + "length": 8, + "name": "TCW", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Trb.Wstgte.Actuator1.Temp.Status" : { + "generic_name": "Eng.Trb.Wstgte.Actuator1.Temp.Status", + "bit_position": 52, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Used to identify the status of the Engine Turbocharger Wastegate Actuator 1 drive circuitry temperature.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HighMostSevere": [0], + "HighLeastSevere": [1], + "InRange": [2], + "LowLeastSevere": [3], + "LowMostSevere": [4], + "NotDefined": [5], + "Error": [6], + "NotAvailable": [7] + } + }, + "Eng.Trb.Wstgt.Acttr1.Preliminary.FMI" : { + "generic_name": "Eng.Trb.Wstgt.Acttr1.Preliminary.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the Engine Turbocharger Wastegate Actuator 1 by the", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Dsrd.Trb.Wastegate.Actuator2.Pos" : { + "generic_name": "Eng.Dsrd.Trb.Wastegate.Actuator2.Pos", + "bit_position": 55, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The Requested Valve position of the Turbocharger Wastegate Valve 2, commanded by the engine ECM.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Dsrd.Trb.Wastegate.Actuator1.Pos" : { + "generic_name": "Eng.Dsrd.Trb.Wastegate.Actuator1.Pos", + "bit_position": 39, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The Requested Valve position of the Turbocharger Wastegate Valve 1, commanded by the engine ECM.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo.Wastegate.Actuator4.Pos" : { + "generic_name": "Eng.Turbo.Wastegate.Actuator4.Pos", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Position of the wastegate drive.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo.Wastegate.Actuator3.Pos" : { + "generic_name": "Eng.Turbo.Wastegate.Actuator3.Pos", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Position of the wastegate drive.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo.Wastegate.Actuator2.Pos" : { + "generic_name": "Eng.Turbo.Wastegate.Actuator2.Pos", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Position of the wastegate drive.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo.Wastegate.Actuator1.Pos" : { + "generic_name": "Eng.Turbo.Wastegate.Actuator1.Pos", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Position of the wastegate drive.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Trb.Wstgt.Actuator.Ctrl.Air.Press" : { + "generic_name": "Eng.Trb.Wstgt.Actuator.Ctrl.Air.Press", + "bit_position": 31, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Gage pressure of the air used to control the actuator which opens and closes the wastegate valve.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65132": { + "comment": "Tachograph", + "length": 8, + "name": "TCO1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Vehicle.Overspeed" : { + "generic_name": "Vehicle.Overspeed", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the vehicle is exceeding the legal speed limit set in the tachograph.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoOverspeed": [0], + "Overspeed": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Vehicle.Motion" : { + "generic_name": "Vehicle.Motion", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether motion of the vehicle is detected or not.", + "is_big_endian": false, + "is_signed": false, + "states": { + "VehicleMotionNotDetected": [0], + "VehicleMotionDetected": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Tachograph.Vehicle.Speed" : { + "generic_name": "Tachograph.Vehicle.Speed", + "bit_position": 47, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 250.996, + "comment": "Speed of the vehicle registered by the tachograph.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Tachograph.Output.Shaft.Speed" : { + "generic_name": "Tachograph.Output.Shaft.Speed", + "bit_position": 31, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Calculated speed of the transmission output shaft.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Direction.Indicator" : { + "generic_name": "Direction.Indicator", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the direction of the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Forward": [0], + "Reverse": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Tachograph.Performance" : { + "generic_name": "Tachograph.Performance", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the tachograph performance; including electronic or mechanical analysis, instrument analysis, speed sensor", + "is_big_endian": false, + "is_signed": false, + "states": { + "NormalPerformance": [0], + "PerformanceAnalysis": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Handling.Information" : { + "generic_name": "Handling.Information", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that handling information is present.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoHandlingInformation": [0], + "HandlingInformation": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "System.Event" : { + "generic_name": "System.Event", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that a tachograph event has occurred.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoTachographEvent": [0], + "TachographEvent": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Driver.Card.Driver2" : { + "generic_name": "Driver.Card.Driver2", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the presence of a driver card", + "is_big_endian": false, + "is_signed": false, + "states": { + "DriverCardNotPresent": [0], + "DriverCardPresent": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Driver2.Time.Related.States" : { + "generic_name": "Driver2.Time.Related.States", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Indicates if the driver approaches or exceeds working time limits (or other limits).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Normal_NoLimitsReached": [0], + "Limit115MinBefore4H": [1], + "Limit24HReached": [2], + "Limit315MinBefore9H": [3], + "Limit49HReached": [4], + "Limit515MinBefore16H": [5], + "Limit616HReached": [6], + "1100Reserved": [7], + "Other": [13], + "Error": [14], + "NotAvailable": [15] + } + }, + "Driver.Card.Driver1" : { + "generic_name": "Driver.Card.Driver1", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the presence of a driver card", + "is_big_endian": false, + "is_signed": false, + "states": { + "DriverCardNotPresent": [0], + "DriverCardPresent": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Driver1.Time.Related.States" : { + "generic_name": "Driver1.Time.Related.States", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Indicates if the driver approaches or exceeds working time limits (or other limits).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Normal_NoLimitsReached": [0], + "Limit115MinBefore4H": [1], + "Limit24HReached": [2], + "Limit315MinBefore9H": [3], + "Limit49HReached": [4], + "Limit515MinBefore16H": [5], + "Limit616HReached": [6], + "1100Reserved": [7], + "Other": [13], + "Error": [14], + "NotAvailable": [15] + } + }, + "Driver2.Working.State" : { + "generic_name": "Driver2.Working.State", + "bit_position": 2, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "State of work of the driver.", + "is_big_endian": false, + "is_signed": false, + "states": { + "RestSleeping": [0], + "DriverAvailableShortBreak": [1], + "WrkLdngUnldingWorkingInAnOffice": [2], + "DriveBehindWheel": [3], + "101Reserved": [4], + "Error": [6], + "NotAvailable": [7] + } + }, + "Driver1.Working.State" : { + "generic_name": "Driver1.Working.State", + "bit_position": -1, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "State of work of the driver.", + "is_big_endian": false, + "is_signed": false, + "states": { + "RestSleeping": [0], + "DriverAvailableShortBreak": [1], + "WrkLdngUnldingWorkingInAnOffice": [2], + "DriveBehindWheel": [3], + "101Reserved": [4], + "Error": [6], + "NotAvailable": [7] + } + } + } + }, + "64979": { + "comment": "Turbocharger Information 6", + "length": 8, + "name": "TCI6", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Turbo4.Compressor.Outlet.Temp" : { + "generic_name": "Eng.Turbo4.Compressor.Outlet.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the air exiting the turbocharger 4 compressor outlet", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo3.Compressor.Outlet.Temp" : { + "generic_name": "Eng.Turbo3.Compressor.Outlet.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the air exiting the turbocharger 3 compressor outlet", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo2.Compressor.Outlet.Temp" : { + "generic_name": "Eng.Turbo2.Compressor.Outlet.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the air exiting the turbocharger 2 compressor outlet", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo1.Compressor.Outlet.Temp" : { + "generic_name": "Eng.Turbo1.Compressor.Outlet.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the air exiting the turbocharger 1 compressor outlet", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65175": { + "comment": "Turbocharger Information 5", + "length": 8, + "name": "TCI5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Turbo4.Turbine.Outlet.Temp" : { + "generic_name": "Eng.Turbo4.Turbine.Outlet.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion by-products exiting the turbine side of the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo3.Turbine.Outlet.Temp" : { + "generic_name": "Eng.Turbo3.Turbine.Outlet.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion by-products exiting the turbine side of the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo2.Turbine.Outlet.Temp" : { + "generic_name": "Eng.Turbo2.Turbine.Outlet.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion by-products exiting the turbine side of the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo1.Turbine.Outlet.Temp" : { + "generic_name": "Eng.Turbo1.Turbine.Outlet.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion by-products exiting the turbine side of the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65176": { + "comment": "Turbocharger Information 4", + "length": 8, + "name": "TCI4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Turbo4.Turbine.Intake.Temp" : { + "generic_name": "Eng.Turbo4.Turbine.Intake.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion by-products entering the turbine side of the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo3.Turbine.Intake.Temp" : { + "generic_name": "Eng.Turbo3.Turbine.Intake.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion by-products entering the turbine side of the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo2.Turbine.Intake.Temp" : { + "generic_name": "Eng.Turbo2.Turbine.Intake.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion by-products entering the turbine side of the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo1.Turbine.Intake.Temp" : { + "generic_name": "Eng.Turbo1.Turbine.Intake.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion by-products entering the turbine side of the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65177": { + "comment": "Turbocharger Information 3", + "length": 8, + "name": "TCI3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Turbo4.Compressor.Intake.Press" : { + "generic_name": "Eng.Turbo4.Compressor.Intake.Press", + "bit_position": 47, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 251.99, + "comment": "Gage pressure of the air entering the compressor side of the turbocharger.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo3.Compressor.Intake.Press" : { + "generic_name": "Eng.Turbo3.Compressor.Intake.Press", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 251.99, + "comment": "Gage pressure of the air entering the compressor side of the turbocharger.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo2.Compressor.Intake.Press" : { + "generic_name": "Eng.Turbo2.Compressor.Intake.Press", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 251.99, + "comment": "Gage pressure of the air entering the compressor side of the turbocharger.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo1.Compressor.Intake.Press" : { + "generic_name": "Eng.Turbo1.Compressor.Intake.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 251.99, + "comment": "Gage pressure of the air entering the compressor side of the turbocharger.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65178": { + "comment": "Turbocharger Information 2", + "length": 8, + "name": "TCI2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Turbo4.Compressor.Intake.Temp" : { + "generic_name": "Eng.Turbo4.Compressor.Intake.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the air entering the compressor side of the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo3.Compressor.Intake.Temp" : { + "generic_name": "Eng.Turbo3.Compressor.Intake.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the air entering the compressor side of the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo2.Compressor.Intake.Temp" : { + "generic_name": "Eng.Turbo2.Compressor.Intake.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the air entering the compressor side of the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo1.Compressor.Intake.Temp" : { + "generic_name": "Eng.Turbo1.Compressor.Intake.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the air entering the compressor side of the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65179": { + "comment": "Turbocharger Information 1", + "length": 8, + "name": "TCI1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Turbo4.Speed" : { + "generic_name": "Eng.Turbo4.Speed", + "bit_position": 39, + "bit_size": 16, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 257020, + "comment": "Rotational velocity of rotor in the turbocharger.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo3.Speed" : { + "generic_name": "Eng.Turbo3.Speed", + "bit_position": 23, + "bit_size": 16, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 257020, + "comment": "Rotational velocity of rotor in the turbocharger.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo2.Speed" : { + "generic_name": "Eng.Turbo2.Speed", + "bit_position": 7, + "bit_size": 16, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 257020, + "comment": "Rotational velocity of rotor in the turbocharger.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo.Lube.Oil.Press2" : { + "generic_name": "Eng.Turbo.Lube.Oil.Press2", + "bit_position": -1, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Gage pressure of oil in turbocharger lubrication system.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65099": { + "comment": "Transmission Configuration 2", + "length": 8, + "name": "TCFG2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trans.Torque.Limit" : { + "generic_name": "Trans.Torque.Limit", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Parameter provided to the engine from the transmission as a torque limit to be invoked by the engine in the event that", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65250": { + "comment": "Transmission Configuration", + "length": 8, + "name": "TCFG", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trans.Gear.Ratio" : { + "generic_name": "Trans.Gear.Ratio", + "bit_position": 15, + "bit_size": 16, + "factor": 0.001, + "offset": 0, + "min_value": 0, + "max_value": 64.255, + "comment": "The transmission configuration describes the number of forward gears, the number of reverse gears, and the ratio of each", + "is_big_endian": false, + "is_signed": false + }, + "Number.Of.Forward.Gear.Ratios" : { + "generic_name": "Number.Of.Forward.Gear.Ratios", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Number of forward gear ratios in the transmission, provided as part of the configuration.", + "is_big_endian": false, + "is_signed": false + }, + "Number.Of.Reverse.Gear.Ratios" : { + "generic_name": "Number.Of.Reverse.Gear.Ratios", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Number of reverse gear ratios in the transmission, provided as part of the transmission configuration.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "510": { + "comment": "Transmission Control 1", + "length": 8, + "name": "TC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trns.Shft.Slctor.Display.Mode.Switch" : { + "generic_name": "Trns.Shft.Slctor.Display.Mode.Switch", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of the operator's switch used to `toggle' through multiple display modes of a shift selector display.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Mode4" : { + "generic_name": "Trans.Mode4", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether transmission mode 4 is enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disable": [0], + "Enable": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Mode3" : { + "generic_name": "Trans.Mode3", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether transmission mode 3 is enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disable": [0], + "Enable": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Mode2" : { + "generic_name": "Trans.Mode2", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether transmission mode 2 is enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disable": [0], + "Enable": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Mode1" : { + "generic_name": "Trans.Mode1", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether transmission mode 1 is enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disable": [0], + "Enable": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Disengage.Diff.Lock.Rq.Central.Rear" : { + "generic_name": "Disengage.Diff.Lock.Rq.Central.Rear", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to disengage the various differential locks, e.", + "is_big_endian": false, + "is_signed": false, + "states": { + "EngageDiffLock": [0], + "DisengageDiffLock": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Disengage.Diff.Lock.Rq.Central.Front" : { + "generic_name": "Disengage.Diff.Lock.Rq.Central.Front", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to disengage the various differential locks, e.", + "is_big_endian": false, + "is_signed": false, + "states": { + "EngageDiffLock": [0], + "DisengageDiffLock": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Disengage.Diff.Lock.Rq.Central" : { + "generic_name": "Disengage.Diff.Lock.Rq.Central", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to disengage the various differential locks, e.", + "is_big_endian": false, + "is_signed": false, + "states": { + "EngageDiffLock": [0], + "DisengageDiffLock": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Disengage.Diff.Lock.Rq.Rear.Axle2" : { + "generic_name": "Disengage.Diff.Lock.Rq.Rear.Axle2", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to disengage the various differential locks, e.", + "is_big_endian": false, + "is_signed": false, + "states": { + "EngageDiffLock": [0], + "DisengageDiffLock": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Disengage.Diff.Lock.Rq.Rear.Axle1" : { + "generic_name": "Disengage.Diff.Lock.Rq.Rear.Axle1", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to disengage the various differential locks, e.", + "is_big_endian": false, + "is_signed": false, + "states": { + "EngageDiffLock": [0], + "DisengageDiffLock": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Disengage.Diff.Lock.Rq.Front.Axle2" : { + "generic_name": "Disengage.Diff.Lock.Rq.Front.Axle2", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to disengage the various differential locks, e.", + "is_big_endian": false, + "is_signed": false, + "states": { + "EngageDiffLock": [0], + "DisengageDiffLock": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Disengage.Diff.Lock.Rq.Front.Axle1" : { + "generic_name": "Disengage.Diff.Lock.Rq.Front.Axle1", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to disengage the various differential locks, e.", + "is_big_endian": false, + "is_signed": false, + "states": { + "EngageDiffLock": [0], + "DisengageDiffLock": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Rqed.Gear" : { + "generic_name": "Trans.Rqed.Gear", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Gear requested by the operator, ABS, or engine.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Reserved": [60, 61], + "NeutralSelectorPos": [222], + "ReverseSelectorPos": [223], + "PsUnknownAnd_OrNoButtonsPressed": [224], + "PrssOfMmntryBttnTRslctCrrentPos": [225], + "BtwnRvrsAndPrkShiftSelectorPoss": [226], + "BtwnNtrlAndRvrsShftSelectorPoss": [227], + "BtwnDrvAndNtrlShiftSelectorPoss": [228], + "BtwnD1AndDriveShiftSelectorPoss": [229], + "BetweenD2AndD1ShiftSelectorPoss": [230], + "BetweenD3AndD2ShiftSelectorPoss": [231], + "BetweenD4AndD3ShiftSelectorPoss": [232], + "BetweenD5AndD4ShiftSelectorPoss": [233], + "BetweenD6AndD5ShiftSelectorPoss": [234], + "BetweenD7AndD6ShiftSelectorPoss": [235], + "BtwnTwoForwardShiftSelectorPoss": [236], + "BtwnTwoReverseShiftSelectorPoss": [237], + "BetweenTwoShiftSelectorPoss": [238], + "D77thFrwrdSlctrPsRfrncdFrmDrive": [239], + "D66thFrwrdSlctrPsRfrncdFrmDrive": [240], + "D55thFrwrdSlctrPsRfrncdFrmDrive": [241], + "D44thFrwrdSlctrPsRfrncdFrmDrive": [242], + "D33rdFrwrdSlctrPsRfrncdFrmDrive": [243], + "D22ndFrwrdSlctrPsRfrncdFrmDrive": [244], + "D11stFrwrdSlctrPsRfrncdFrmDrive": [245], + "Downshift2GearsFromCurrentPos": [246], + "Downshift1GearFromCurrentPos": [247], + "Upshift2GearsFromCurrentPos": [248], + "Upshift1GearFromCurrentPos": [249], + "ForwardLowPos": [250], + "ParkPos": [251], + "ForwardDrivePos": [252], + "HoldCurrentGear": [253] + } + }, + "Rqed.Percent.Clutch.Slip" : { + "generic_name": "Rqed.Percent.Clutch.Slip", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Parameter which represents the percent clutch slip requested by a device.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Disengage.Driveline.Rq" : { + "generic_name": "Disengage.Driveline.Rq", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to simply disengage the driveline, e.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AllowDrivelineEngagement": [0], + "DisengageDriveline": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Gear.Shift.Inhibit.Rq" : { + "generic_name": "Trans.Gear.Shift.Inhibit.Rq", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to inhibit gear shifts.", + "is_big_endian": false, + "is_signed": false, + "states": { + "GearShiftsAreAllowed": [0], + "GearShiftsAreInhibited": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trns.Trq.Converter.Lockup.Disable.Rq" : { + "generic_name": "Trns.Trq.Converter.Lockup.Disable.Rq", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to prevent torque converter lockup, which may cause problems in certain circumstances for ASR.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AllowTorqueConverterLockup": [0], + "DisableTorqueConverterLockup": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Rqed.Launch.Gear" : { + "generic_name": "Trans.Rqed.Launch.Gear", + "bit_position": 49, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Initial gear for the transmission to start out in when the vehicle is launched from a standing stop, as specified by the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NSpcfcLnchGrRqdUsDfltLaunchGear": [0], + "LaunchVehicleIn1stGear": [1], + "LaunchVehicleIn2ndGear": [2], + "LaunchVehicleIn3rdGear": [3], + "LaunchVehicleIn4thGear": [4], + "LaunchVehicleIn5thGear": [5], + "LaunchVehicleIn6thGear": [6], + "LaunchVehicleIn7thGear": [7], + "LaunchVehicleIn8thGear": [8], + "LaunchVehicleInReverse1": [9], + "LaunchVehicleInReverse2": [10], + "LaunchVehicleInReverse3": [11], + "LaunchVehicleInReverse4": [12], + "Reserved": [13], + "Error": [14], + "NotAvailable": [15] + } + }, + "Trans.Reverse.Gear.Shift.Inhibit.Rq" : { + "generic_name": "Trans.Reverse.Gear.Shift.Inhibit.Rq", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Allows devices external to the normal transmission shift selector system to request the transmission to inhibit shifts into", + "is_big_endian": false, + "is_signed": false, + "states": { + "AllowShiftsIntoReverseGear": [0], + "InhbtShftsIntRvrsGrAndShftTrnsT": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Mode8" : { + "generic_name": "Trans.Mode8", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether transmission mode 8 is enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disable": [0], + "Enable": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Mode7" : { + "generic_name": "Trans.Mode7", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether transmission mode 7 is enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disable": [0], + "Enable": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Mode6" : { + "generic_name": "Trans.Mode6", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether transmission mode 6 is enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disable": [0], + "Enable": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Mode5" : { + "generic_name": "Trans.Mode5", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether transmission mode 5 is enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disable": [0], + "Enable": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + } + } + }, + "65245": { + "comment": "Turbocharger", + "length": 8, + "name": "TC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Turbo.Oil.Level.Switch" : { + "generic_name": "Eng.Turbo.Oil.Level.Switch", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the presence of oil at the turbocharger", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoOilPresentAtTurbo": [0], + "OilPresentAtTurbo": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Turbo1.Speed" : { + "generic_name": "Eng.Turbo1.Speed", + "bit_position": 7, + "bit_size": 16, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 257020, + "comment": "Rotational velocity of rotor in the turbocharger.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo.Lube.Oil.Press1" : { + "generic_name": "Eng.Turbo.Lube.Oil.Press1", + "bit_position": -1, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Gage pressure of oil in turbocharger lubrication system.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65101": { + "comment": "Total Averaged Information", + "length": 8, + "name": "TAVG", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Total.Average.Fuel.Economy" : { + "generic_name": "Eng.Total.Average.Fuel.Economy", + "bit_position": 15, + "bit_size": 16, + "factor": 0.001953125, + "offset": 0, + "min_value": 0, + "max_value": 125.5, + "comment": "Average fuel economy, equal to total vehicle distance divided by total fuel used, over the life of the engine", + "unit": "km/L", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Total.Average.Fuel.Rate" : { + "generic_name": "Eng.Total.Average.Fuel.Rate", + "bit_position": -1, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Average fuel rate, equal to total fuel used divided by total engine hours, over the life of the engine", + "unit": "L/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64994": { + "comment": "Supply Pressure Demand", + "length": 8, + "name": "SPR", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Air.Suspension.Supply.Press.Rq" : { + "generic_name": "Air.Suspension.Supply.Press.Rq", + "bit_position": 39, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "Command signal to influence the pneumatic pressure in the circuit for the electronically controlled air suspension system.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aux.Equipment.Supply.Press.Rq" : { + "generic_name": "Aux.Equipment.Supply.Press.Rq", + "bit_position": 31, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "Command signal to influence the pneumatic pressure in the auxiliary circuit.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Service.Brake.Air.Press.Rq.Circuit2" : { + "generic_name": "Service.Brake.Air.Press.Rq.Circuit2", + "bit_position": 23, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "Command signal to influence the pneumatic pressure in the service brake circuit or reservoir #2.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Service.Brake.Air.Press.Rq.Circuit1" : { + "generic_name": "Service.Brake.Air.Press.Rq.Circuit1", + "bit_position": 15, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "Command signal to influence the pneumatic pressure in the service brake circuit or reservoir #1.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Parking.And_.Or.Trailer.Air.Press.Rq" : { + "generic_name": "Parking.And_.Or.Trailer.Air.Press.Rq", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "Command signal to influence the pneumatic pressure in the circuit or reservoir for the parking brake and/or the trailer supply.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Pneumatic.Supply.Press.Rq" : { + "generic_name": "Pneumatic.Supply.Press.Rq", + "bit_position": -1, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "Command signal to influence the pneumatic pressure in the main reservoir.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65167": { + "comment": "Supply Pressure 2", + "length": 8, + "name": "SP2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Extl.Shutdown.Air.Supply.Press" : { + "generic_name": "Eng.Extl.Shutdown.Air.Supply.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Pressure of the air used to shut off the fuel supply to the engine.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65242": { + "comment": "Software Identification", + "length": 8, + "name": "SOFT", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Nmbr.Of.Sftwr.Identification.Fields" : { + "generic_name": "Nmbr.Of.Sftwr.Identification.Fields", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Number of software identification designators represented in the software identification parameter group.", + "unit": "steps", + "is_big_endian": false, + "is_signed": false + }, + "Software.ID3" : { + "generic_name": "Software.ID3", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Software ID", + "is_big_endian": false, + "is_signed": false + }, + "Software.ID2" : { + "generic_name": "Software.ID2", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Software ID", + "is_big_endian": false, + "is_signed": false + }, + "Software.ID1" : { + "generic_name": "Software.ID1", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Software ID", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65252": { + "comment": "Shutdown", + "length": 8, + "name": "SHUTDN", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Overspeed.Test" : { + "generic_name": "Eng.Overspeed.Test", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The engine overspeed test signal as measured by the reporting ECM.", + "is_big_endian": false, + "is_signed": false, + "states": { + "EngOverspeedTestNotActive": [0], + "EngOverspeedTestActive": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Air.Shutoff.Cmd.Status" : { + "generic_name": "Eng.Air.Shutoff.Cmd.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal which indicates when the Air Shutoff driver output is being driven.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ArShtffDsbldNtAttmptngTShtffEng": [0], + "ArShtffEnbldAttmptngTShtffEngAr": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Alarm.Output.Cmd.Status" : { + "generic_name": "Eng.Alarm.Output.Cmd.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal which indicates when the Alarm driver output is being driven.", + "is_big_endian": false, + "is_signed": false, + "states": { + "EngAlarmOutputCmdNotActive": [0], + "EngAlarmOutputCmdActive": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Alarm.Acknowledge" : { + "generic_name": "Eng.Alarm.Acknowledge", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The Engine Alarm Acknowledge Input signal as measured by the reporting ECM.", + "is_big_endian": false, + "is_signed": false, + "states": { + "EngAlarmAcknowledgeNotActive": [0], + "EngAlarmAcknowledgeActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Protection.System.Config" : { + "generic_name": "Eng.Protection.System.Config", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Parameter which indicates the configuration of the engine shutdown system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledInCalib": [0], + "EnabledInCalib": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Protection.System.Timer.State" : { + "generic_name": "Eng.Protection.System.Timer.State", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which indicates the current mode of the engine protection system timer system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Inactive": [0], + "Active": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Prtection.System.Timer.Override" : { + "generic_name": "Eng.Prtection.System.Timer.Override", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which indicates the status of the override feature of the engine protection system timer.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Inactive": [0], + "Active": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Prtctn.Systm.Apprching.Shutdown" : { + "generic_name": "Eng.Prtctn.Systm.Apprching.Shutdown", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which indicates that engine shutdown is imminent.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotApproaching": [0], + "Approaching": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Wait.To.Start.Lamp" : { + "generic_name": "Eng.Wait.To.Start.Lamp", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lamp signal which indicates that the engine is too cold to start and the operator should wait until the signal becomes", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Refrigerant.High.Press.Switch" : { + "generic_name": "Refrigerant.High.Press.Switch", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the position of the high pressure switch in the coolant circuit of an air conditioning system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PressNormal": [0], + "PrssTHghCmprssrCltchMyBDsngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Refrigerant.Low.Press.Switch" : { + "generic_name": "Refrigerant.Low.Press.Switch", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the position of the low pressure switch in the coolant circuit of an air conditioning system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PressNormal": [0], + "PrssTLwCmprssrCltchMyBDsengaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "A_.CHigh.Press.Fan.Switch" : { + "generic_name": "A_.CHigh.Press.Fan.Switch", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates that the pressure in the coolant circuit of an air conditioning system is high and the fan may", + "is_big_endian": false, + "is_signed": false, + "states": { + "PressNormal": [0], + "PressHighFanMayBeEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Idle.Shutdown.Timer.Function" : { + "generic_name": "Eng.Idle.Shutdown.Timer.Function", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Parameter which indicates the configuration of the idle shutdown timer system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisabledInCalib": [0], + "EnabledInCalib": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Idle.Shutdown.Timer.State" : { + "generic_name": "Eng.Idle.Shutdown.Timer.State", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which indicates the current mode of operation of the idle shutdown timer system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Inactive": [0], + "Active": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Idle.Shutdown.Timer.Override" : { + "generic_name": "Eng.Idle.Shutdown.Timer.Override", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which indicates the status of the override feature of the idle shutdown timer system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Inactive": [0], + "Active": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Idle.Shutdown.Driver.Alert.Mode" : { + "generic_name": "Eng.Idle.Shutdown.Driver.Alert.Mode", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which indicates the status of the driver alert mode of the idle shutdown timer system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Inactive": [0], + "Active": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "P.TOShutdown.Has.Shutdown.Eng" : { + "generic_name": "P.TOShutdown.Has.Shutdown.Eng", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which identifies whether or not the engine has been shutdown by the PTO shutdown system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No": [0], + "Yes": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Prtctn.Systm.Has.Shutdown.Engine" : { + "generic_name": "Eng.Prtctn.Systm.Has.Shutdown.Engine", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which indicates whether or not the engine protection system has shutdown the engine.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No": [0], + "Yes": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Idl.Shutdown.Has.Shutdown.Engine" : { + "generic_name": "Eng.Idl.Shutdown.Has.Shutdown.Engine", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which identifies whether or not the engine has been shutdown by the idle shutdown timer system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "No": [0], + "Yes": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Air.Shutoff.Status" : { + "generic_name": "Eng.Air.Shutoff.Status", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal which indicates the actual measured position of the Air Shutoff.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AirFlowAllowedToEng": [0], + "AirFlowRestricted": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "65216": { + "comment": "Service Information", + "length": 8, + "name": "SERV", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Service.Component.Identification.B" : { + "generic_name": "Service.Component.Identification.B", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identification of component needing service.", + "unit": "ID", + "is_big_endian": false, + "is_signed": false + }, + "Service.Component.Identification.A" : { + "generic_name": "Service.Component.Identification.A", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identification of component needing service.", + "unit": "ID", + "is_big_endian": false, + "is_signed": false + }, + "Srvce.Delay_.Operational.Time.Based" : { + "generic_name": "Srvce.Delay_.Operational.Time.Based", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": -32127, + "min_value": -32127, + "max_value": 32128, + "comment": "The time in vehicle operational time until the next vehicle service inspection is required.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Service.Delay_.Calendar.Time.Based" : { + "generic_name": "Service.Delay_.Calendar.Time.Based", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The time in weeks until the next vehicle service inspection is required.", + "unit": "weeks", + "is_big_endian": false, + "is_signed": false + }, + "Service.Distance" : { + "generic_name": "Service.Distance", + "bit_position": 7, + "bit_size": 16, + "factor": 5, + "offset": -160635, + "min_value": -160635, + "max_value": 160640, + "comment": "The distance which can be traveled by the vehicle before the next service inspection is required.", + "unit": "km", + "is_big_endian": false, + "is_signed": false + }, + "Service.Component.Identification" : { + "generic_name": "Service.Component.Identification", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identification of component needing service.", + "unit": "ID", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65166": { + "comment": "Service 2", + "length": 8, + "name": "S2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Time.Since.Last.Service" : { + "generic_name": "Time.Since.Last.Service", + "bit_position": 7, + "bit_size": 16, + "factor": 1, + "offset": -32127, + "min_value": -32127, + "max_value": 32128, + "comment": "The vehicle operation time since the last service was performed.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Service.Component.Identification" : { + "generic_name": "Service.Component.Identification", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identification of component needing service.", + "unit": "ID", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65107": { + "comment": "Retarder Continuous Torque & Speed Limit", + "length": 8, + "name": "RTC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Max.Continuous.Retarder.Torque" : { + "generic_name": "Max.Continuous.Retarder.Torque", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Applied limit for maximum continuous retarder torque.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Min.Continuous.Retarder.Speed" : { + "generic_name": "Min.Continuous.Retarder.Speed", + "bit_position": 39, + "bit_size": 8, + "factor": 32, + "offset": 0, + "min_value": 0, + "max_value": 8000, + "comment": "Applied limit for minimum continuous retarder RPM", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Max.Continuous.Retarder.Speed" : { + "generic_name": "Max.Continuous.Retarder.Speed", + "bit_position": 31, + "bit_size": 8, + "factor": 32, + "offset": 0, + "min_value": 0, + "max_value": 8000, + "comment": "Applied limit for maximum continuous retarder RPM", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Min.Continuous.Retarder.Torque" : { + "generic_name": "Min.Continuous.Retarder.Torque", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Applied limit for minimum continuous retarder torque", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Lw.Lmt.Thrshld.Fr.Mx.Trq.From.Retarder" : { + "generic_name": "Lw.Lmt.Thrshld.Fr.Mx.Trq.From.Retarder", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Minimum allowable value for maximum continuous retarder torque.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Lw.Lmt.Thrshld.Fr.Mx.RPMFrom.Retarder" : { + "generic_name": "Lw.Lmt.Thrshld.Fr.Mx.RPMFrom.Retarder", + "bit_position": -1, + "bit_size": 8, + "factor": 32, + "offset": 0, + "min_value": 0, + "max_value": 8000, + "comment": "Minimum allowable value for maximum continuous retarder speed", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Hgh.Lmt.Thrshld.Fr.Mn.Cntns.Trq.Frm.Rtrdr" : { + "generic_name": "Hgh.Lmt.Thrshld.Fr.Mn.Cntns.Trq.Frm.Rtrdr", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Maximum allowable value for minimum continuous retarder torque.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Hgh.Lmt.Thrshld.Fr.Mn.Cntns.RPMFrm.Rtrdr" : { + "generic_name": "Hgh.Lmt.Thrshld.Fr.Mn.Cntns.RPMFrm.Rtrdr", + "bit_position": 7, + "bit_size": 8, + "factor": 32, + "offset": 0, + "min_value": 0, + "max_value": 8000, + "comment": "Maximum allowable value for minimum continuous retarder speed", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65275": { + "comment": "Retarder fluids", + "length": 8, + "name": "RF", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Drvlne.Retarder.Overheat.Indicator" : { + "generic_name": "Drvlne.Retarder.Overheat.Indicator", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal from the driveline retarder indicating that its fluid temperature is above normal acceptable limits, and as a result,", + "is_big_endian": false, + "is_signed": false, + "states": { + "DrvlnRtrdrOvrheatIndicatorIsOff": [0], + "DrvlnRtrdrOvrhtIndctrIsOnCntnsl": [1], + "DrvlnRtrdrOvrhtIndctrIsFlashing": [2], + "NotAvailable": [3] + } + }, + "Hyd.Retarder.Oil.Temp" : { + "generic_name": "Hyd.Retarder.Oil.Temp", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of oil found in a hydraulic retarder.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Hyd.Retarder.Press" : { + "generic_name": "Hyd.Retarder.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 16, + "offset": 0, + "min_value": 0, + "max_value": 4000, + "comment": "Gage pressure of oil in hydraulic retarder system.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "57086": { + "comment": "Reset", + "length": 8, + "name": "RESET", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Build.Hours.Reset" : { + "generic_name": "Eng.Build.Hours.Reset", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to reset the engine rebuild hours.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DoNotReset": [0], + "Reset": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trip.Group2.Proprietary" : { + "generic_name": "Trip.Group2.Proprietary", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to reset proprietary parameters associated with a trip but not defined within this document.", + "is_big_endian": false, + "is_signed": false, + "states": { + "TakeNoAction": [0], + "Reset": [1], + "Reserved": [2], + "NotApplicable": [3] + } + }, + "Trip.Group1" : { + "generic_name": "Trip.Group1", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to reset the PGNs and parameters as defined in Table SPN988_A.", + "is_big_endian": false, + "is_signed": false, + "states": { + "TakeNoAction": [0], + "Reset": [1], + "Reserved": [2], + "NotApplicable": [3] + } + }, + "Steer.Straight.Ahead.Pos.Reset" : { + "generic_name": "Steer.Straight.Ahead.Pos.Reset", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Used to reset the straight ahead position for a steering sensor in the steering column or a steering controller's straight", + "is_big_endian": false, + "is_signed": false, + "states": { + "TakeNoActionDoNotReset": [0], + "Reset": [1], + "ReservedTakeNoAction": [2], + "NotApplicable": [3] + } + }, + "Service.Component.Identification" : { + "generic_name": "Service.Component.Identification", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identification of component needing service.", + "unit": "ID", + "is_big_endian": false, + "is_signed": false + }, + "Service.Component.Identification.C" : { + "generic_name": "Service.Component.Identification.C", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identification of component needing service.", + "unit": "ID", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65249": { + "comment": "Retarder Configuration", + "length": 19, + "name": "RC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Percent.Torque.At.Peak.Torque.Point5" : { + "generic_name": "Percent.Torque.At.Peak.Torque.Point5", + "bit_position": 143, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The torque limit that indicates the available retarder torque which can be provided by the retarder at point 5 of the retarder", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Reference.Retarder.Torque" : { + "generic_name": "Reference.Retarder.Torque", + "bit_position": 127, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "This parameter is the 100% reference value for all defined indicated retarder torque parameters.", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Retarder.Speed.At.Peak.Torque.Point5" : { + "generic_name": "Retarder.Speed.At.Peak.Torque.Point5", + "bit_position": 111, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Please reference PGN 65249", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Percent.Torque.At.Point4" : { + "generic_name": "Percent.Torque.At.Point4", + "bit_position": 103, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The torque limit that indicates the available retarder torque which can be provided by the retarder at points 3 and 4 of the", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Retarder.Speed.At.Point4" : { + "generic_name": "Retarder.Speed.At.Point4", + "bit_position": 87, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Retarder speed of point 4 of the engine retarder torque map.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Percent.Torque.At.Point3" : { + "generic_name": "Percent.Torque.At.Point3", + "bit_position": 79, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The torque limit that indicates the available retarder torque which can be provided by the retarder at points 3 and 4 of the", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Retarder.Speed.At.Point3" : { + "generic_name": "Retarder.Speed.At.Point3", + "bit_position": 63, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Retarder speed of point 3 of the engine retarder torque map.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Percent.Torque.At.Max.Speed.Point2" : { + "generic_name": "Percent.Torque.At.Max.Speed.Point2", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The torque limit that indicates the available retarder torque which can be provided by the retarder at its maximum speed.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Max.Retarder.Speed.Point2" : { + "generic_name": "Max.Retarder.Speed.Point2", + "bit_position": 39, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Maximum speed of retarder (Please reference PGN 65249).", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Percent.Torque.At.Idle.Point1" : { + "generic_name": "Percent.Torque.At.Idle.Point1", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The torque limit that indicates the available retarder torque which can be provided by the retarder at idle speed.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Retarder.Speed.At.Idle.Point1" : { + "generic_name": "Retarder.Speed.At.Idle.Point1", + "bit_position": 15, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Please reference PGN 65249", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Retarder.Ctrl.Method" : { + "generic_name": "Retarder.Ctrl.Method", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "This parameter identifies the number of steps used by the retarder.", + "unit": "steps", + "is_big_endian": false, + "is_signed": false + }, + "Retarder.Location" : { + "generic_name": "Retarder.Location", + "bit_position": 3, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter defines whether the [torque/speed curve] defined by the retarder configuration message (PGN 65249) is", + "is_big_endian": false, + "is_signed": false, + "states": { + "EngCompressionReleaseBrake": [0], + "EngExhaustBrake": [1], + "TransInput": [2], + "TransOutput": [3], + "Driveline": [4], + "Trailer": [5], + "1101NotDefined": [6], + "Other": [14], + "NotAvailable": [15] + } + }, + "Retarder.Type" : { + "generic_name": "Retarder.Type", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "A vehicle retarder is a supplementary device to the wheel brakes for the driver to better control the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Electric_Magnetic": [0], + "Hyd": [1], + "CooledFriction": [2], + "CompressionRelease": [3], + "Exhaust": [4], + "1101NotDefined": [5], + "Other": [14], + "NotAvailable": [15] + } + } + } + }, + "65173": { + "comment": "Rebuild Information", + "length": 8, + "name": "RBI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Operation.Time.Since.Rebuild" : { + "generic_name": "Eng.Operation.Time.Since.Rebuild", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "The time in engine operation since the last engine rebuild.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65264": { + "comment": "Power Takeoff Information", + "length": 8, + "name": "PTO", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Power.Takeoff.Set.Speed" : { + "generic_name": "Power.Takeoff.Set.Speed", + "bit_position": 23, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Rotational velocity selected by operator for device used to transmit engine power to auxiliary equipment.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Power.Takeoff.Speed" : { + "generic_name": "Power.Takeoff.Speed", + "bit_position": 7, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Rotational velocity of device used to transmit engine power to auxiliary equipment.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Power.Takeoff.Oil.Temp" : { + "generic_name": "Power.Takeoff.Oil.Temp", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of lubricant in device used to transmit engine power to auxiliary equipment.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Oprtr.Eng.PTOGvrnr.Mmry.Slect.Switch" : { + "generic_name": "Oprtr.Eng.PTOGvrnr.Mmry.Slect.Switch", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Measured state of the operator's engine PTO governor memory select switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PTOSetSpeedMemory1Selected": [0], + "PTOSetSpeedMemory2Selected": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Eng.Rmt.PTOGvrnr.Vrbl.Spd.Ctrl.Switch" : { + "generic_name": "Eng.Rmt.PTOGvrnr.Vrbl.Spd.Ctrl.Switch", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates that the remote PTO governor toggle switch is in the enabled (ON) position.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Rmt.PTOGvrnr.Prprgrmmd.Spd.Ctrl.Swtch" : { + "generic_name": "Eng.Rmt.PTOGvrnr.Prprgrmmd.Spd.Ctrl.Swtch", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates that the remote PTO governor toggle switch is in the enabled (ON) position.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.PTOGvrnr.Cst_.Decelerate.Switch" : { + "generic_name": "Eng.PTOGvrnr.Cst_.Decelerate.Switch", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal of the PTO control activator which indicates that the activator is in the position to 'coast/decelerate' the PTO", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.PTOGovernor.Set.Switch" : { + "generic_name": "Eng.PTOGovernor.Set.Switch", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal of the PTO control activator which indicates that the activator is in the position to 'set' the engine PTO", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.PTOGovernor.Resume.Switch" : { + "generic_name": "Eng.PTOGovernor.Resume.Switch", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal of the PTO control activator which indicates that the activator is in the position to 'resume' a previously", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.PTOGovernor.Enable.Switch" : { + "generic_name": "Eng.PTOGovernor.Enable.Switch", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates that the PTO governor toggle switch is in the enabled (ON) position and therefore it is", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.PTOGovernor.Accelerate.Switch" : { + "generic_name": "Eng.PTOGovernor.Accelerate.Switch", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal of the PTO control activator which indicates that the activator is in the position to 'accelerate' the PTO", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Rmt.PTOPrprgrmmd.Speed.Ctrl.Switch2" : { + "generic_name": "Rmt.PTOPrprgrmmd.Speed.Ctrl.Switch2", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates that the remote PTO toggle switch #2 is in the enabled (ON) position.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aux.Input.Ignore.Switch" : { + "generic_name": "Aux.Input.Ignore.Switch", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which overrides other switch input's ability to kick out of an engine's operating condition.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "64973": { + "comment": "Operator Wiper and Washer Controls Message", + "length": 8, + "name": "OWW", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Rear.Washer.Function" : { + "generic_name": "Rear.Washer.Function", + "bit_position": 52, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "State of operation selected by operator switch for the rear washer.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "Low": [1], + "Medium": [2], + "High": [3], + "110Reserved": [4], + "NotAvailable": [7] + } + }, + "Front.Operator.Washer.Switch" : { + "generic_name": "Front.Operator.Washer.Switch", + "bit_position": 44, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "State of operation selected by operator switch for the washer in front of the operator position.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "Low": [1], + "Medium": [2], + "High": [3], + "110Reserved": [4], + "NotAvailable": [7] + } + }, + "Front.Nonoperator.Washer.Switch" : { + "generic_name": "Front.Nonoperator.Washer.Switch", + "bit_position": 41, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "State of operation selected by operator switch for the front washer not in front of the operator position.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "Low": [1], + "Medium": [2], + "High": [3], + "110Reserved": [4], + "NotAvailable": [7] + } + }, + "Rear.Wiper.Delay.Ctrl" : { + "generic_name": "Rear.Wiper.Delay.Ctrl", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Time between cycles of the rear wiper (i.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Front.Nonoperator.Wiper.Delay.Ctrl" : { + "generic_name": "Front.Nonoperator.Wiper.Delay.Ctrl", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Time between cycles of the front non-operator side wiper (i.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Front.Operator.Wiper.Delay.Ctrl" : { + "generic_name": "Front.Operator.Wiper.Delay.Ctrl", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Time between cycles of the front operator side wiper (i.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Rear.Wiper.Switch" : { + "generic_name": "Rear.Wiper.Switch", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "State of operation selected by operator switch for the rear wiper.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "Low": [1], + "Medium": [2], + "High": [3], + "Delayed1": [4], + "Delayed2": [5], + "Mist": [6], + "1110Reserved": [7], + "NotAvailable": [15] + } + }, + "Front.Operator.Wiper.Switch" : { + "generic_name": "Front.Operator.Wiper.Switch", + "bit_position": 3, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "State of operation selected by operator switch for the Wiper in front of the operator position.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "Low": [1], + "Medium": [2], + "High": [3], + "Delayed1": [4], + "Delayed2": [5], + "Mist": [6], + "1110Reserved": [7], + "NotAvailable": [15] + } + }, + "Front.Nonoperator.Wiper.Switch" : { + "generic_name": "Front.Nonoperator.Wiper.Switch", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "State of operation selected by operator switch for the front wiper not in front of the operator position.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "Low": [1], + "Medium": [2], + "High": [3], + "Delayed1": [4], + "Delayed2": [5], + "Mist": [6], + "1110Reserved": [7], + "NotAvailable": [15] + } + } + } + }, + "64971": { + "comment": "Off-Highway Engine Control Selection", + "length": 8, + "name": "OHECS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Alt.Droop.Aux.Input.Select" : { + "generic_name": "Eng.Alt.Droop.Aux.Input.Select", + "bit_position": 27, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "In some off-highway applications it may be desirable to have multiple droop settings available across the range of engine", + "is_big_endian": false, + "is_signed": false, + "states": { + "NormalDroopSettingIsSelected": [0], + "thr1101OnOfAltDrpSttng1Thrgh13I": [1], + "ErrorCondition": [14], + "NotAvailable": [15] + } + }, + "Eng.Alt.Droop.Remote.Accel.Select" : { + "generic_name": "Eng.Alt.Droop.Remote.Accel.Select", + "bit_position": 23, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "In some off-highway applications it may be desirable to have multiple droop settings available across the range of engine", + "is_big_endian": false, + "is_signed": false, + "states": { + "NormalDroopSettingIsSelected": [0], + "thr1101OnOfAltDrpSttng1Thrgh13I": [1], + "ErrorCondition": [14], + "NotAvailable": [15] + } + }, + "Eng.Alt.Droop.Accel2.Select" : { + "generic_name": "Eng.Alt.Droop.Accel2.Select", + "bit_position": 19, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Same description as Engine Alternate Droop Accelerator 1 Select (SPN 2881) except that the selections may apply to", + "is_big_endian": false, + "is_signed": false, + "states": { + "NormalDroopSettingIsSelected": [0], + "thr1101OnOfAltDrpSttng1Thrgh13I": [1], + "ErrorCondition": [14], + "NotAvailable": [15] + } + }, + "Eng.Alt.Droop.Accel1.Select" : { + "generic_name": "Eng.Alt.Droop.Accel1.Select", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "In some off-highway applications it may be desirable to have multiple droop settings available across the range of engine", + "is_big_endian": false, + "is_signed": false, + "states": { + "NormalDroopSettingIsSelected": [0], + "thr1101OnOfAltDrpSttng1Thrgh13I": [1], + "ErrorCondition": [14], + "NotAvailable": [15] + } + }, + "Eng.Alt.Rating.Select" : { + "generic_name": "Eng.Alt.Rating.Select", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "In some off-highway applications it may be desirable to have multiple engine ratings available for selection by the operator.", + "is_big_endian": false, + "is_signed": false, + "states": { + "IndctsThtMxPwrFuelingIsSelected": [0], + "IndctsThtAltPwrFling1IsSelected": [1] + } + }, + "Eng.Alt.Low.Idle.Switch" : { + "generic_name": "Eng.Alt.Low.Idle.Switch", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Operator switch which selects between two low idle speeds, default and alternate.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DefaultLowIdlePointIsSelected": [0], + "AltLowIdlePointIsSelected": [1], + "Error": [2], + "NotAvailableUnused": [3] + } + }, + "Eng.Synchronization.Switch" : { + "generic_name": "Eng.Synchronization.Switch", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This is the On/Off operation of the Multiple Unit Synchronization functionality.", + "is_big_endian": false, + "is_signed": false, + "states": { + "FunctionalityIsDisabled": [0], + "FunctionalityIsEnabled": [1], + "Error": [2], + "NotAvailableUnused": [3] + } + }, + "Eng.Aux.Governor.Switch" : { + "generic_name": "Eng.Aux.Governor.Switch", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This is the On/Off operation of the Auxiliary Governor feature switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxGovernorIsDisabled": [0], + "AuxGovernorIsEnabled": [1], + "ErrorCondition": [2], + "NotAvailable": [3] + } + } + } + }, + "64967": { + "comment": "Off-Highway Engine Control Selection States", + "length": 8, + "name": "OHCSS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Alt.Droop.Aux.Input.Select.State" : { + "generic_name": "Eng.Alt.Droop.Aux.Input.Select.State", + "bit_position": 27, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "In some off-highway applications it may be desirable to have multiple droop settings available across the range of engine", + "is_big_endian": false, + "is_signed": false, + "states": { + "CtrlStateIsNormalDroopSetting": [0], + "thr1101CtrlSttIsOnOfAltDrpSttng": [1], + "SAEReserved": [14], + "NotAvailable": [15] + } + }, + "Eng.Alt.Drp.Remote.Accel.Select.State" : { + "generic_name": "Eng.Alt.Drp.Remote.Accel.Select.State", + "bit_position": 23, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "In some off-highway applications it may be desirable to have multiple droop settings available across the range of engine", + "is_big_endian": false, + "is_signed": false, + "states": { + "CtrlStateIsNormalDroopSetting": [0], + "thr1101CtrlSttIsOnOfAltDrpSttng": [1], + "SAEReserved": [14], + "NotAvailable": [15] + } + }, + "Eng.Alt.Droop.Accel2.Select.State" : { + "generic_name": "Eng.Alt.Droop.Accel2.Select.State", + "bit_position": 19, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "In some off-highway applications it may be desirable to have multiple droop settings available across the range of engine", + "is_big_endian": false, + "is_signed": false, + "states": { + "CtrlsStateIsNormalDroopSetting": [0], + "thr1101CtrlsSttIsOnOfAltDrpSttn": [1], + "SAEReserved": [14], + "NotAvailable": [15] + } + }, + "Eng.Alt.Droop.Accel1.Select.State" : { + "generic_name": "Eng.Alt.Droop.Accel1.Select.State", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "In some off-highway applications it may be desirable to have multiple droop settings available across the range of engine", + "is_big_endian": false, + "is_signed": false, + "states": { + "CtrlStateIsNormalDroopSetting": [0], + "thr1101CtrlSttIsOnOfAltDrpSttng": [1], + "SAEReserved": [14], + "NotAvailable": [15] + } + }, + "Eng.Alt.Rating.Select.State" : { + "generic_name": "Eng.Alt.Rating.Select.State", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "In some off-highway applications it may be desirable to have multiple engine ratings available for selection by the operator.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CtrlStateIsMaxPowerFueling": [0], + "CtrlStateIsAltPowerFueling1": [1] + } + }, + "Eng.Alt.Low.Idle.Select.State" : { + "generic_name": "Eng.Alt.Low.Idle.Select.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "In many applications, it is desirable that an alternate low idle speed setting be made available via switch input.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NormalIdleState": [0], + "AltIdleState": [1], + "SAEReserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Multi.Unit.Sync.State" : { + "generic_name": "Eng.Multi.Unit.Sync.State", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This feature is widely used in Industry to operate multiple engines from a single command source.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CtrlStteIsFunctionalityDisabled": [0], + "CtrlStateIsFunctionalityEnabled": [1], + "SAEReserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Aux.Governor.State" : { + "generic_name": "Eng.Aux.Governor.State", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This is the Engine Auxiliary Governor feature.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CtrlStateIsAuxGovernorDisabled": [0], + "CtrlStateIsAuxGovernorEnabled": [1], + "SAEReserved": [2], + "NotAvailable": [3] + } + } + } + }, + "64972": { + "comment": "Operators External Light Controls Message", + "length": 8, + "name": "OEL", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Oprtrs.Desired.Delayed.Lamp.Off.Time" : { + "generic_name": "Oprtrs.Desired.Delayed.Lamp.Off.Time", + "bit_position": 23, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "A 16 bit parameter to be associated with Delayed Off position (1000 binary) of the Main Light Switch.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Operators.Desired.Backlight" : { + "generic_name": "Operators.Desired.Backlight", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "A 8 bit parameter to indicate the level of back lighting the operator has selected for displays.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "High.Low.Beam.Switch" : { + "generic_name": "High.Low.Beam.Switch", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A 2 bit parameter to indicate the selected position of the operator's high/low beam select switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LowBeamSelected": [0], + "HighBeamSelected": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Hazard.Light.Switch" : { + "generic_name": "Hazard.Light.Switch", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A 2 bit parameter to indicate the selected position of the operator's hazard light switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HazardLampsToBeOff": [0], + "HazardLampsToBeFlashing": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Turn.Signal.Switch" : { + "generic_name": "Turn.Signal.Switch", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "A 4 bit parameter to indicate the selected position of the operator's turn signal switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoTurnBeingSignaled": [0], + "LeftTurnToBeFlashing": [1], + "RightTurnToBeFlashing": [2], + "1101Reserved": [3], + "Error": [14], + "NotAvailable": [15] + } + }, + "Main.Light.Switch" : { + "generic_name": "Main.Light.Switch", + "bit_position": 3, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "A 4 bit parameter to indicate the selected position of the operator's main light switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OffPsByWhchThOprtrSlctsThtNnOfT": [0], + "PrkOnPsByWhchThOprtrSlctsThtThP": [1], + "HdlghtOnPsByWhchThOprtrSlctsTht": [2], + "HdlghtAndPrkOnPsByWhchThOprtrSl": [3], + "0111Reserved": [4], + "DlydOffPsByWhchThOprtrSlctsThtA": [8], + "1101Reserved": [9], + "Error": [14], + "NotAvailable": [15] + } + }, + "Work.Light.Switch" : { + "generic_name": "Work.Light.Switch", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "A 4 bit parameter to indicate the selected position of the operator's work light switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OffPsByWhchThOprtrSlctsThtNnOfT": [0], + "WrkLghtCmbntn1OnPsByWhchThOprtr": [1], + "WrkLghtCmbntn2OnPsByWhchThOprtr": [2], + "WrkLghtCmbntn3OnPsByWhchThOprtr": [3], + "WrkLghtCmbntn4OnPsByWhchThOprtr": [4], + "1101Reserved": [5], + "Error": [14], + "NotAvailable": [15] + } + } + } + }, + "64997": { + "comment": "Maximum Vehicle Speed Limit Status", + "length": 8, + "name": "MVS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Applied.Vehicle.Speed.Limit" : { + "generic_name": "Applied.Vehicle.Speed.Limit", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The vehicle speed limit in effect.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Max.Vehicle.Speed.Limit7" : { + "generic_name": "Max.Vehicle.Speed.Limit7", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The highest of the seven lowest vehicle speed limits", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Max.Vehicle.Speed.Limit6" : { + "generic_name": "Max.Vehicle.Speed.Limit6", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The highest of the six lowest vehicle speed limits", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Max.Vehicle.Speed.Limit5" : { + "generic_name": "Max.Vehicle.Speed.Limit5", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The highest of the five lowest vehicle speed limits", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Max.Vehicle.Speed.Limit4" : { + "generic_name": "Max.Vehicle.Speed.Limit4", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The highest of the four lowest vehicle speed limits", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Max.Vehicle.Speed.Limit3" : { + "generic_name": "Max.Vehicle.Speed.Limit3", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The highest of the three lowest vehicle speed limits", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Max.Vehicle.Speed.Limit2" : { + "generic_name": "Max.Vehicle.Speed.Limit2", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The highest of the two lowest vehicle speed limits", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Max.Vehicle.Speed.Limit1" : { + "generic_name": "Max.Vehicle.Speed.Limit1", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The lowest Maximum Vehicle Speed Limit.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65100": { + "comment": "Military Lighting Command", + "length": 8, + "name": "ML", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Oprtrs.Blck.Out.Intensity.Selection" : { + "generic_name": "Oprtrs.Blck.Out.Intensity.Selection", + "bit_position": 55, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Operators Selection of lamp intensity in black out mode.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Black.Out.Work.Lamp.Select" : { + "generic_name": "Black.Out.Work.Lamp.Select", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Black Out Work Lamp Selection", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "NotSupported": [3] + } + }, + "Night.Vision.Illuminator.Select" : { + "generic_name": "Night.Vision.Illuminator.Select", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Night Vision Illuminator Selection", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "NotSupported": [3] + } + }, + "Black.Out.Brake_.Stop.Lamp.Select" : { + "generic_name": "Black.Out.Brake_.Stop.Lamp.Select", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Black Out Brake/Stop Lamp Selection", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "NotSupported": [3] + } + }, + "Convoy.Driving.Lamp.Select" : { + "generic_name": "Convoy.Driving.Lamp.Select", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Black Out Convoy Driving Lamp Selection", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "NotSupported": [3] + } + }, + "Convoy.Lamp.Select" : { + "generic_name": "Convoy.Lamp.Select", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Black Out Convoy Lamp Selection", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "NotSupported": [3] + } + }, + "Front.Black.Out.Marker.Lamp.Select" : { + "generic_name": "Front.Black.Out.Marker.Lamp.Select", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Front Black Out Marker Lamp Selection", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "NotSupported": [3] + } + }, + "Rear.Black.Out.Marker.Select" : { + "generic_name": "Rear.Black.Out.Marker.Select", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Rear Black Out Marker Selection", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "NotSupported": [3] + } + } + } + }, + "64988": { + "comment": "Marine Control Information", + "length": 8, + "name": "MCI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Slow.Vessel.Mode.Status" : { + "generic_name": "Slow.Vessel.Mode.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The status of the Slow Vessel Mode.", + "is_big_endian": false, + "is_signed": false, + "states": { + "SlowVesselModeIsOFF": [0], + "SlowVesselModeIsACTIVE": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trolling.Mode.Status" : { + "generic_name": "Trolling.Mode.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The status of the Trolling Mode.", + "is_big_endian": false, + "is_signed": false, + "states": { + "TrollingModeIsOFF": [0], + "TrollingModeIsACTIVE": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Eng.Thrttl.Synchrnztion.Mode.Status" : { + "generic_name": "Eng.Thrttl.Synchrnztion.Mode.Status", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "The status of the Throttle Synchronization Mode.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSynchronized": [0], + "SynchronizedCenter": [1], + "SynchronizedPort": [2], + "SynchronizedStarboard": [3], + "SynchronizedMaster": [4], + "1110Reserved": [5], + "TakeNoAction": [15] + } + } + } + }, + "65180": { + "comment": "Main Bearing Temperature 3", + "length": 8, + "name": "MBT3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Main.Bearing11.Temp" : { + "generic_name": "Eng.Main.Bearing11.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the main bearing which supports the crankshaft of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Main.Bearing10.Temp" : { + "generic_name": "Eng.Main.Bearing10.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the main bearing which supports the crankshaft of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Main.Bearing9.Temp" : { + "generic_name": "Eng.Main.Bearing9.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the main bearing which supports the crankshaft of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65181": { + "comment": "Main Bearing Temperature 2", + "length": 8, + "name": "MBT2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Main.Bearing8.Temp" : { + "generic_name": "Eng.Main.Bearing8.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the main bearing which supports the crankshaft of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Main.Bearing7.Temp" : { + "generic_name": "Eng.Main.Bearing7.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the main bearing which supports the crankshaft of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Main.Bearing6.Temp" : { + "generic_name": "Eng.Main.Bearing6.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the main bearing which supports the crankshaft of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Main.Bearing5.Temp" : { + "generic_name": "Eng.Main.Bearing5.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the main bearing which supports the crankshaft of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65182": { + "comment": "Main Bearing Temperature 1", + "length": 8, + "name": "MBT1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Main.Bearing4.Temp" : { + "generic_name": "Eng.Main.Bearing4.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the main bearing which supports the crankshaft of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Main.Bearing3.Temp" : { + "generic_name": "Eng.Main.Bearing3.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the main bearing which supports the crankshaft of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Main.Bearing2.Temp" : { + "generic_name": "Eng.Main.Bearing2.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the main bearing which supports the crankshaft of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Main.Bearing1.Temp" : { + "generic_name": "Eng.Main.Bearing1.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the main bearing which supports the crankshaft of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65142": { + "comment": "Laser Leveling System Vertical Position Display Data", + "length": 8, + "name": "LVDD", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Display.Deadbands" : { + "generic_name": "Display.Deadbands", + "bit_position": 19, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Sets Display Deadbands mode.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Narrow_45mm": [0], + "Standard_12mm": [1], + "Wide_24mm": [2], + "1110Reserved": [3], + "NotAvailable": [15] + } + }, + "L.EDPattern.Ctrl" : { + "generic_name": "L.EDPattern.Ctrl", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Sets LED Pattern control mode on laser leveling systems.", + "is_big_endian": false, + "is_signed": false, + "states": { + "5Channel": [0], + "Offset": [1], + "7Channel": [2], + "1110Reserved": [3], + "NotAvailable": [15] + } + }, + "L.EDDisplay.Deadband.Ctrl" : { + "generic_name": "L.EDDisplay.Deadband.Ctrl", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter informs the system what the selected Display deadband will be.", + "is_big_endian": false, + "is_signed": false, + "states": { + "_45Mm": [0], + "_12Mm": [1], + "_24Mm": [2], + "_5Mm": [3], + "_1Mm": [4], + "1110Reserved": [5], + "NotAvailableNotApplicable": [15] + } + }, + "L.EDDisplay.Mode.Ctrl" : { + "generic_name": "L.EDDisplay.Mode.Ctrl", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter informs the system what the selected Display mode will be.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CenterOnGradeDisplayMode1": [0], + "OffsetOnGradeDisplayMode": [1], + "CenterOnGradeDisplayMode2": [2], + "1110Reserved": [3], + "NotAvailableNotApplicable": [15] + } + }, + "L.EDDisplay.Data1" : { + "generic_name": "L.EDDisplay.Data1", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Informs display devices how to display the current vertical position.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HighCoarseLEDOn": [2], + "HighFineLEDOn": [4], + "OngradeLEDOn": [8], + "LowFineLEDOn": [16], + "LowCoarseLEDOn": [32], + "LowCoarse": [128], + "LowMedium_Coarse": [129], + "LowMedium": [130], + "LowMedium_Fine": [131], + "LowFine": [132], + "OnGrade": [144], + "HighFine": [145], + "HighMedium_Fine": [146], + "HighMedium": [147], + "HighMedium_Coarse": [148], + "HighCoarse": [149], + "NoData": [159], + "Error": [254], + "NotAvailable": [511] + } + } + } + }, + "65141": { + "comment": "Laser Leveling System Vertical Deviation", + "length": 8, + "name": "LVD", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Laser.Strike.Data.Latency" : { + "generic_name": "Laser.Strike.Data.Latency", + "bit_position": 23, + "bit_size": 16, + "factor": 51.2, + "offset": 0, + "min_value": 0, + "max_value": 3.289856, + "comment": "Time from laser strike to CAN message transmission.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Laser.Receiver.Type" : { + "generic_name": "Laser.Receiver.Type", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies which type of Laser Receiver transmitted the message.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Reserved": [0], + "LinearLaserReceiver": [1] + } + }, + "Laser.Strike.Vertical.Deviation" : { + "generic_name": "Laser.Strike.Vertical.Deviation", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": -3200, + "min_value": -3200, + "max_value": 3225.5, + "comment": "The calculated distance from the laser strike position to the current land leveling system reference point.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Abs.Laser.Strike.Pos" : { + "generic_name": "Abs.Laser.Strike.Pos", + "bit_position": 39, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Laser Strike location on the survey type laser receiver.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65137": { + "comment": "Laser Tracer Position", + "length": 8, + "name": "LTP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Laser.Tracer.Information" : { + "generic_name": "Laser.Tracer.Information", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Provides the status of the laser tracer to the operator.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LaserPowerIsOn": [1], + "LaserIsReady": [2], + "ValidTarget": [4], + "PreviousPass": [8], + "Stringline": [16], + "Curb": [32] + } + }, + "L.EDDisplay.Data2" : { + "generic_name": "L.EDDisplay.Data2", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Informs display devices how to display the current position of the laser tracer.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OngradeALEDOn": [1], + "OngradeBLEDOn": [2], + "OngradeCLEDOn": [4], + "UpLEDOn": [8], + "DownLEDOn": [16], + "LeftLEDOn": [32], + "RightLEDOn": [64], + "LowCoarse": [128], + "LowMedium_Coarse": [129], + "LowMedium": [130], + "LowMedium_Fine": [131], + "LowFine": [132], + "OnGrade": [144], + "HighFine": [145], + "HighMedium_Fine": [146], + "HighMedium": [147], + "HighMedium_Coarse": [148], + "HighCoarse": [149], + "NoData": [159], + "Error": [254], + "NotAvailable": [511] + } + }, + "Laser.Tracer.Horizontal.Deviation" : { + "generic_name": "Laser.Tracer.Horizontal.Deviation", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The calculated percent deviation between the target distance and the center of the laser tracer.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Laser.Tracer.Vertical.Distance" : { + "generic_name": "Laser.Tracer.Vertical.Distance", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The elevation of the laser tracer sensor in a laser leveling system.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Laser.Tracer.Target.Deviation" : { + "generic_name": "Laser.Tracer.Target.Deviation", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": -3200, + "min_value": -3200, + "max_value": 3225.5, + "comment": "The calculated distance for the laser target to the current laser tracer reference point.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65209": { + "comment": "Trip Fuel Information (Liquid)", + "length": 22, + "name": "LTFI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trip.Cruise.Fuel.Used" : { + "generic_name": "Trip.Cruise.Fuel.Used", + "bit_position": 127, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel consumed while the engine is in the cruise hold state since the last trip reset.", + "unit": "L", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Vehicle.Idle.Fuel.Used" : { + "generic_name": "Trip.Vehicle.Idle.Fuel.Used", + "bit_position": 95, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel consumed while neither the PTO or remote PTO governor is in the hold state, the engine speed is greater than", + "unit": "L", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Drive.Fuel.Used" : { + "generic_name": "Trip.Drive.Fuel.Used", + "bit_position": -1, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel consumed while the engine speed is greater than zero, vehicle speed is greater than or equal to 2 km/h, and", + "unit": "L", + "is_big_endian": false, + "is_signed": false + }, + "Trp.PTOGovernor.Nonmoving.Fuel.Used" : { + "generic_name": "Trp.PTOGovernor.Nonmoving.Fuel.Used", + "bit_position": 63, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel consumed while either the PTO or remote PTO governors are in the hold state, the engine speed is greater", + "unit": "L", + "is_big_endian": false, + "is_signed": false + }, + "Trip.PTOGovernor.Moving.Fuel.Used" : { + "generic_name": "Trip.PTOGovernor.Moving.Fuel.Used", + "bit_position": 31, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel consumed while either the PTO or remote PTO governors are in the hold state, the engine speed is greater", + "unit": "L", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Drive.Fuel.Economy" : { + "generic_name": "Trip.Drive.Fuel.Economy", + "bit_position": 159, + "bit_size": 16, + "factor": 0.001953125, + "offset": 0, + "min_value": 0, + "max_value": 125.5, + "comment": "Trip drive fuel economy is equal to the distance traveled by vehicle in the drive state (engine speed greater than zero,", + "unit": "km/L", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65140": { + "comment": "Modify Leveling System Control Set Point", + "length": 8, + "name": "LSP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Bld.Height.Set.Point.High.Resolution" : { + "generic_name": "Bld.Height.Set.Point.High.Resolution", + "bit_position": 15, + "bit_size": 32, + "factor": 100, + "offset": -209.7152, + "min_value": -209.7152, + "max_value": 211.3929215, + "comment": "High resolution for the laser guided blade set point.", + "unit": "m", + "is_big_endian": false, + "is_signed": false + }, + "Modify.Leveling.System.Set.Point" : { + "generic_name": "Modify.Leveling.System.Set.Point", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": -3200, + "min_value": -3200, + "max_value": 3225.5, + "comment": "Used to control and coordinate the set point for the leveling system.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61453": { + "comment": "Land Leveling System Operational Information", + "length": 8, + "name": "LOI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Sdshft.Dsrd.Bld.Offset.Operator.Ctrl" : { + "generic_name": "Sdshft.Dsrd.Bld.Offset.Operator.Ctrl", + "bit_position": 31, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates the side-shift blade control mode operator control state the user has set for the land leveling system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoOperatorCtrlRq": [0], + "MomentaryOperatorCtrlRq": [1], + "ManualOperatorCtrlRq": [2], + "AutomaticOperatorCtrlRq": [3], + "1101Reserved": [4], + "ErrorIndicator": [14], + "NotInstalled": [15] + } + }, + "Sdshft.Bld.Ctrl.Mde.Operator.Control" : { + "generic_name": "Sdshft.Bld.Ctrl.Mde.Operator.Control", + "bit_position": 27, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates the side-shift offset operator control state the user has set for the land leveling system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoOperatorCtrlRq": [0], + "IncrementOperatorCtrlRq": [1], + "DecrementOperatorCtrlRq": [2], + "1101Reserved": [3], + "ErrorIndicator": [14], + "NotInstalled": [15] + } + }, + "Rght.Dsrd.Blade.Offset.Operator.Ctrl" : { + "generic_name": "Rght.Dsrd.Blade.Offset.Operator.Ctrl", + "bit_position": 23, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates the right blade offset operator control state the user has set for the land leveling system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoOperatorCtrlRq": [0], + "OprtrCtrlSttCnBRdInTwWysOnMthdU": [1], + "DecrementOperatorCtrlRq": [2], + "1101Reserved": [3], + "ErrorIndicator": [14], + "NotInstalled": [15] + } + }, + "Rght.Blde.Ctrl.Mode.Operator.Control" : { + "generic_name": "Rght.Blde.Ctrl.Mode.Operator.Control", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates the right blade control mode operator control state the user has set for the land leveling system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoChange": [0], + "MomentaryOperatorCtrlRq": [1], + "ManualOperatorCtrlRq": [2], + "AutomaticOperatorCtrlRq": [3], + "ErrorIndicator": [14], + "NotInstalled": [15] + } + }, + "Lft.Dsred.Blade.Offset.Operator.Ctrl" : { + "generic_name": "Lft.Dsred.Blade.Offset.Operator.Ctrl", + "bit_position": 19, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates the left blade offset operator control state the user has set for the land leveling system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoOperatorCtrlRq": [0], + "OprtrCtrlSttCnBRdInTwWysOnMthdU": [1], + "DecrementOperatorCtrlRq": [2], + "1101Reserved": [3], + "ErrorIndicator": [14], + "NotInstalled": [15] + } + }, + "Lft.Blade.Ctrl.Mode.Operator.Control" : { + "generic_name": "Lft.Blade.Ctrl.Mode.Operator.Control", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates the left blade control mode operator control state the user has set for the land leveling system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoChange": [0], + "OprtrCtrlSttCnBRdInTwWysOnMthdU": [1], + "ManualOperatorCtrlRq": [2], + "AutomaticOperatorCtrlRq": [3], + "1101Reserved": [12], + "ErrorIndicator": [14], + "NotInstalled": [15] + } + }, + "Blade.Auto.Mode.Cmd" : { + "generic_name": "Blade.Auto.Mode.Cmd", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Allows other controllers to command to the primary control system what they think is the appropriate auto control mode to", + "is_big_endian": false, + "is_signed": false, + "states": { + "AutoAllowed": [0], + "ActvtyAllwsAtMstDtctOprtrBfrAtA": [1], + "SspndAtTmprarilySuspendAutoMode": [2], + "SrvcMdAtAllwdOnlyDrngSrvceModes": [3], + "AutoNotAllowed": [4], + "ErrorIndicator": [14], + "NotSupported": [15] + } + }, + "Desired.Grade.Offset.Switch" : { + "generic_name": "Desired.Grade.Offset.Switch", + "bit_position": 3, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates the grade offset switch state the user has set for the land leveling system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoButtonPressed": [0], + "SwtchSttCnBRdInTwWysOnMthdUssTh": [1], + "DecrementButtonPressed": [2], + "ErrorIndicator": [14], + "NotInstalled": [15] + } + }, + "Blade.Ctrl.Mode.Switch" : { + "generic_name": "Blade.Ctrl.Mode.Switch", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates the blade control mode switch state the user has set for the land leveling system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoButtonPressed": [0], + "SwtchSttCnBRdInTwWysOnMthdUssTh": [1], + "ManualButtonPressed": [2], + "AutomaticButtonPressed": [3], + "ErrorIndicator": [14], + "NotInstalled": [15] + } + }, + "St.Elvtn.Snsor2.Reference.Elevation" : { + "generic_name": "St.Elvtn.Snsor2.Reference.Elevation", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command from a display or other external device (i.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DoNotSetReferenceElevation": [0], + "SetReferenceElevation": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "St.Elvtn.Snsor1.Reference.Elevation" : { + "generic_name": "St.Elvtn.Snsor1.Reference.Elevation", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command from a display or other external device (i.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DoNotSetReferenceElevation": [0], + "SetReferenceElevation": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + } + } + }, + "65139": { + "comment": "Laser Receiver Mast Position", + "length": 8, + "name": "LMP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Mast.Pos" : { + "generic_name": "Mast.Pos", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": -3200, + "min_value": -3200, + "max_value": 3225.5, + "comment": "Used to monitor the position of the sensor attached to the land leveling mast.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65203": { + "comment": "Fuel Information (Liquid)", + "length": 8, + "name": "LFI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Total.Eng.PTOGovernor.Fuel.Used" : { + "generic_name": "Total.Eng.PTOGovernor.Fuel.Used", + "bit_position": -1, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total fuel used while the PTO or remote PTO governors are in the hold state and engine speed is above zero, over the", + "unit": "L", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Average.Fuel.Rate" : { + "generic_name": "Trip.Average.Fuel.Rate", + "bit_position": 31, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Average fuel rate, equal to trip fuel divided by trip time while the engine speed is above zero, since the last trip reset.", + "unit": "L/h", + "is_big_endian": false, + "is_signed": false + }, + "Flexible.Fuel.Percentage" : { + "generic_name": "Flexible.Fuel.Percentage", + "bit_position": 47, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "Measured signal that indicates the percentage of alcohol in the fuel currently being used.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "MansAlcoholAsFuelAndNothingElse": [4] + } + } + } + }, + "65266": { + "comment": "Fuel Economy (Liquid)", + "length": 8, + "name": "LFE", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Average.Fuel.Economy" : { + "generic_name": "Eng.Average.Fuel.Economy", + "bit_position": 31, + "bit_size": 16, + "factor": 0.001953125, + "offset": 0, + "min_value": 0, + "max_value": 125.5, + "comment": "Average of instantaneous fuel economy for that segment of vehicle operation of interest.", + "unit": "km/L", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Instantaneous.Fuel.Economy" : { + "generic_name": "Eng.Instantaneous.Fuel.Economy", + "bit_position": 15, + "bit_size": 16, + "factor": 0.001953125, + "offset": 0, + "min_value": 0, + "max_value": 125.5, + "comment": "Current fuel economy at current vehicle velocity.", + "unit": "km/L", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Rate" : { + "generic_name": "Eng.Fuel.Rate", + "bit_position": -1, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Amount of fuel consumed by engine per unit of time.", + "unit": "L/h", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Throttle.Valve2.Pos" : { + "generic_name": "Eng.Throttle.Valve2.Pos", + "bit_position": 55, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The sensed position feedback of the valve, coming from a second electrical actuator for a second throttle plate, used to", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Throttle.Valve1.Pos" : { + "generic_name": "Eng.Throttle.Valve1.Pos", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The position of the valve used to regulate the supply of a fluid, usually air or fuel/air mixture, to an engine.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65257": { + "comment": "Fuel Consumption (Liquid)", + "length": 8, + "name": "LFC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Total.Fuel.Used" : { + "generic_name": "Eng.Total.Fuel.Used", + "bit_position": 31, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Accumulated amount of fuel used during vehicle operation.", + "unit": "L", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Trip.Fuel" : { + "generic_name": "Eng.Trip.Fuel", + "bit_position": -1, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Fuel consumed during all or part of a journey.", + "unit": "L", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64991": { + "comment": "Front Wheel Drive Status", + "length": 8, + "name": "FWD", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Front.Wheel.Drive.Actuator.Status" : { + "generic_name": "Front.Wheel.Drive.Actuator.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Feedback on the front wheel drive actuator.", + "is_big_endian": false, + "is_signed": false, + "states": { + "FrntWhelDriveActuatorNotEngaged": [0], + "FrontWheelDriveActuatorEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "64977": { + "comment": "FMS-standard Interface Identity/Capabilities", + "length": 8, + "name": "FMS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "F.MSstandard.SWversion.Supported" : { + "generic_name": "F.MSstandard.SWversion.Supported", + "bit_position": 7, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Information that identifies which issue level of the FMS-standard document the software included in the FMS gateway supports.", + "unit": "per", + "is_big_endian": false, + "is_signed": false + }, + "F.MSstandard.Rqs.Supported" : { + "generic_name": "F.MSstandard.Rqs.Supported", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which indicates if the FMS Vehicle Interface (FMS Gateway) will respond to requests from the FMS device", + "is_big_endian": false, + "is_signed": false, + "states": { + "OnRqModeIsNotSupported": [0], + "OnRqModeIsSupported": [1], + "Reserved": [2], + "DontCare": [3] + } + }, + "F.MSstandard.Diagnostics.Supported" : { + "generic_name": "F.MSstandard.Diagnostics.Supported", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which indicates if the FMS Vehicle Interface (FMS Gateway) supports the handling of diagnostic messages", + "is_big_endian": false, + "is_signed": false, + "states": { + "DiagnosticsIsNotSupported": [0], + "DiagnosticsIsSupported": [1], + "Reserved": [2], + "DontCare": [3] + } + } + } + }, + "65115": { + "comment": "Forward Lane Image", + "length": 8, + "name": "FLI2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Ln.Dprture.Indication.Enable.Status" : { + "generic_name": "Ln.Dprture.Indication.Enable.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether lane departure indication is active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LaneDepartureIndicationDisabled": [0], + "LaneDepartureIndicationEnabled": [1], + "Reserved": [2], + "NotUsed": [3] + } + }, + "Lane.Tracking.Status.Left.Side" : { + "generic_name": "Lane.Tracking.Status.Left.Side", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the left side is tracking lane.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotTrackingLeftSide": [0], + "TrackingLeftSide": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Lane.Tracking.Status.Right.Side" : { + "generic_name": "Lane.Tracking.Status.Right.Side", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether right side is tracking lane.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotTrackingRightSide": [0], + "TrackingRightSide": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + } + } + }, + "61447": { + "comment": "Forward Lane Image urgent msg", + "length": 8, + "name": "FLI1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Lane.Departure.Imminent.Left.Side" : { + "generic_name": "Lane.Departure.Imminent.Left.Side", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates departure imminent on left side of lane.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotImminent": [0], + "Imminent": [1], + "Reserved": [2], + "NotUsed": [3] + } + }, + "Lane.Departure.Imminent.Right.Side" : { + "generic_name": "Lane.Departure.Imminent.Right.Side", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates departure imminent on right side of lane.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotImminent": [0], + "Imminent": [1], + "Reserved": [2], + "NotUsed": [3] + } + }, + "Lane.Departure.Right" : { + "generic_name": "Lane.Departure.Right", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the middle of vehicle departs the lane on the right side.", + "is_big_endian": false, + "is_signed": false, + "states": { + "MddlOfVhclDsNtDprtThLnTThRghtSd": [0], + "MddlOfVhclDprtsThLnTThRightSide": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Lane.Departure.Left" : { + "generic_name": "Lane.Departure.Left", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the middle of vehicle departs the lane on the left side.", + "is_big_endian": false, + "is_signed": false, + "states": { + "MddlOfVhclDsNtDprtThLnTThLftSde": [0], + "MddlOfVhclDprtsThLnTTheLeftSide": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + } + } + }, + "65169": { + "comment": "Fuel Leakage", + "length": 8, + "name": "FL", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Fuel.Leakage2" : { + "generic_name": "Eng.Fuel.Leakage2", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which indicates fuel leakage in the fuel rail of the engine.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoLeakageDetected": [0], + "LeakageDetected": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Fuel.Leakage1" : { + "generic_name": "Eng.Fuel.Leakage1", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which indicates fuel leakage in the fuel rail of the engine.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoLeakageDetected": [0], + "LeakageDetected": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "65213": { + "comment": "Fan Drive", + "length": 8, + "name": "FD", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Fan.Speed" : { + "generic_name": "Fan.Speed", + "bit_position": 15, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "The speed of the fan associated with engine coolant system.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Fan.Drive.State" : { + "generic_name": "Fan.Drive.State", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter is used to indicate the current state or mode of operation by the fan drive.", + "is_big_endian": false, + "is_signed": false, + "states": { + "FanOff": [0], + "EngSystemGeneral": [1], + "ExcessiveEngAirTemp": [2], + "ExcessiveEngOilTemp": [3], + "ExcessiveEngCoolantTemp": [4], + "ExcessiveTransOilTemp": [5], + "ExcessiveHydOilTemp": [6], + "DefaultOperation": [7], + "ReverseOperation": [8], + "ManualCtrl": [9], + "TransRetarder": [10], + "A_CSystem": [11], + "Timer": [12], + "EngBrake": [13], + "Other": [14], + "NotAvailable": [15] + } + }, + "Est.Percent.Fan.Speed" : { + "generic_name": "Est.Percent.Fan.Speed", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Estimated fan speed as a ratio of the fan drive (current speed) to the fully engaged fan drive (maximum fan speed).", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Hyd.Fan.Motor.Press" : { + "generic_name": "Hyd.Fan.Motor.Press", + "bit_position": 31, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "The hydraulic pressure used to drive the fan system, sensed before the hydraulic fan motor.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Fan.Drive.Bypass.Cmd.Status" : { + "generic_name": "Fan.Drive.Bypass.Cmd.Status", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Status of the Fan Drive Bypass Command as being commanded by the ECU.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65168": { + "comment": "Engine Torque History", + "length": 33, + "name": "ETH", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Torque.Limit6.Axle.Input" : { + "generic_name": "Eng.Torque.Limit6.Axle.Input", + "bit_position": 247, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "Limit applied to the engine output torque based on the maximum allowable axle input torque.", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Torque.Limit5.Switch" : { + "generic_name": "Eng.Torque.Limit5.Switch", + "bit_position": 231, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Limit applied to the engine output torque based on activation of an ECU switch input.", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Torque.Limit4.Trans" : { + "generic_name": "Eng.Torque.Limit4.Trans", + "bit_position": 215, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Limit applied to the engine output torque during vehicle operation in transmission gear ratios numerically less than or", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Torque.Limit3.Trans" : { + "generic_name": "Eng.Torque.Limit3.Trans", + "bit_position": 199, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Limit applied to the engine output torque during vehicle operation in transmission gear ratios numerically less than or", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Gear.Ratio3" : { + "generic_name": "Trans.Gear.Ratio3", + "bit_position": 183, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "Gear ratio value stored in the ECU that is used to define a range of transmission gears for which a limit is applied to the", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Torque.Limit2.Trans" : { + "generic_name": "Eng.Torque.Limit2.Trans", + "bit_position": 167, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Limit applied to the engine output torque during vehicle operation in transmission gear ratios numerically less than or", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Gear.Ratio2" : { + "generic_name": "Trans.Gear.Ratio2", + "bit_position": 151, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "Gear ratio value stored in the ECU that is used to define a range of transmission gears for which a limit is applied to the", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Torque.Limit1.Trans" : { + "generic_name": "Eng.Torque.Limit1.Trans", + "bit_position": 135, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Limit applied to the engine output torque during vehicle operation in transmission gear ratios numerically greater than", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Gear.Ratio1" : { + "generic_name": "Trans.Gear.Ratio1", + "bit_position": 119, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "Gear ratio value stored in the ECU that is used to define a range of transmission gears for which a limit is applied to the", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Torque.Limit.Feature" : { + "generic_name": "Eng.Torque.Limit.Feature", + "bit_position": 113, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Torque limit rating described in the current record.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Reserved": [0], + "HighestTorqueRating": [1], + "FirstTorqueRating": [2], + "PreviousTorqueRating": [3], + "CurrentTorqueRating": [4], + "110Reserved": [5], + "NotAvailable": [7] + } + }, + "Torque.Limiting.Feature.Status" : { + "generic_name": "Torque.Limiting.Feature.Status", + "bit_position": 111, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of an ECU feature which limits the torque output of the engine.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disabled": [0], + "Enabled": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Calib.Record.Duration.Time" : { + "generic_name": "Calib.Record.Duration.Time", + "bit_position": 79, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Duration in hours for which the engine operated in the conditions captured in the current record.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Calib.Record.Start.Year" : { + "generic_name": "Calib.Record.Start.Year", + "bit_position": 71, + "bit_size": 8, + "factor": 1, + "offset": 1985, + "min_value": 1985, + "max_value": 2235, + "comment": "Calendar year timestamp when an ECU record was established.", + "unit": "years", + "is_big_endian": false, + "is_signed": false + }, + "Calib.Record.Start.Day" : { + "generic_name": "Calib.Record.Start.Day", + "bit_position": 63, + "bit_size": 8, + "factor": 0.25, + "offset": 0, + "min_value": 0, + "max_value": 62.5, + "comment": "Calendar day timestamp when an ECU record was established.", + "unit": "days", + "is_big_endian": false, + "is_signed": false + }, + "Calib.Record.Start.Month" : { + "generic_name": "Calib.Record.Start.Month", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Calendar month timestamp when an ECU record was established.", + "unit": "months", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Peak.Torque2" : { + "generic_name": "Eng.Peak.Torque2", + "bit_position": 39, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Maximum torque output of the current ECU calibration when the engine operates on torque curve 2.", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Peak.Torque1" : { + "generic_name": "Eng.Peak.Torque1", + "bit_position": 23, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Maximum torque output of the current ECU calibration when the engine operates on torque curve 1.", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Power" : { + "generic_name": "Eng.Power", + "bit_position": 7, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Advertised engine power capability.", + "unit": "kW", + "is_big_endian": false, + "is_signed": false + }, + "Number.Of.Eng.Torque.History.Records" : { + "generic_name": "Number.Of.Eng.Torque.History.Records", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Number of torque history records contained in the engine torque history PGN.", + "unit": "records", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61452": { + "comment": "Electronic Transmission Controller #8", + "length": 8, + "name": "ETC8", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trans.Clutch_.Converter.Input.Speed" : { + "generic_name": "Trans.Clutch_.Converter.Input.Speed", + "bit_position": 15, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Rotational velocity of the input to a transmission's master clutch or torque converter.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Torque.Converter.Ratio" : { + "generic_name": "Trans.Torque.Converter.Ratio", + "bit_position": -1, + "bit_size": 16, + "factor": 0.001, + "offset": 0, + "min_value": 0, + "max_value": 64.255, + "comment": "Ratio of the transmissions torque converter output torque to torque converter input torque at current speed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "RatioCannotBeProperlyDetermined": [64256] + } + } + } + }, + "65098": { + "comment": "Electronic Transmission Controller 7", + "length": 8, + "name": "ETC7", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trns.Rvrse.Gear.Shift.Inhibit.Status" : { + "generic_name": "Trns.Rvrse.Gear.Shift.Inhibit.Status", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reflects the status of transmission reverse inhibit activity in response to requests via SPN 4242 - Transmission Reverse", + "is_big_endian": false, + "is_signed": false, + "states": { + "RvrsGrShiftsAreCurrentlyAllowed": [0], + "RvrsGrShftsArCurrentlyInhibited": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trns.Crrnt.Range.Display.Blank.State" : { + "generic_name": "Trns.Crrnt.Range.Display.Blank.State", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal indicating a transmission request for the display of the Transmission Current Range parameter (SPN 163) to", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotBlanked": [0], + "Blanked": [1], + "Error": [2], + "NotSupported": [3] + } + }, + "Trans.Warning.Indicator" : { + "generic_name": "Trans.Warning.Indicator", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal from transmission indicating that some aspect of its operation is not functioning correctly, and as a result,", + "is_big_endian": false, + "is_signed": false, + "states": { + "TransWarningIndicatorIsOff": [0], + "TrnsWrnngIndctrIsOnContinuously": [1], + "TransWarningIndicatorIsFlashing": [2], + "NotAvailable": [3] + } + }, + "Trans.Mode8.Indicator" : { + "generic_name": "Trans.Mode8.Indicator", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether transmission mode 8 is enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disable": [0], + "Enable": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Mode7.Indicator" : { + "generic_name": "Trans.Mode7.Indicator", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether transmission mode 7 is enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disable": [0], + "Enable": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Mode6.Indicator" : { + "generic_name": "Trans.Mode6.Indicator", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether transmission mode 6 is enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disable": [0], + "Enable": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Mode5.Indicator" : { + "generic_name": "Trans.Mode5.Indicator", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether transmission mode 5 is enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Disable": [0], + "Enable": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Rqed.Gear.Feedback" : { + "generic_name": "Trans.Rqed.Gear.Feedback", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Feedback of the SPN 525 Transmission Requested Gear input as received from the shift selector, ABS or engine via", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Mode1.Indicator" : { + "generic_name": "Trans.Mode1.Indicator", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This state signal is the transmission's indication that it is operating under transmission mode 1 (SPN 1852) as", + "is_big_endian": false, + "is_signed": false, + "states": { + "TransMode1NotActive": [0], + "TransMode1Active": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Mode2.Indicator" : { + "generic_name": "Trans.Mode2.Indicator", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This state signal is the transmission's indication that it is operating under transmission mode 2 (SPN 1853) as", + "is_big_endian": false, + "is_signed": false, + "states": { + "TransMode2NotActive": [0], + "TransMode2Active": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Mode3.Indicator" : { + "generic_name": "Trans.Mode3.Indicator", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This state signal is the transmission's indication that it is operating under transmission mode 3 (SPN 1854) as", + "is_big_endian": false, + "is_signed": false, + "states": { + "TransMode3NotActive": [0], + "TransMode3Active": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Mode4.Indicator" : { + "generic_name": "Trans.Mode4.Indicator", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This state signal is the transmission's indication that it is operating under transmission mode 4 (SPN 1855) as", + "is_big_endian": false, + "is_signed": false, + "states": { + "TransMode4NotActive": [0], + "TransMode4Active": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Shift.Inhibit.Indicator" : { + "generic_name": "Trans.Shift.Inhibit.Indicator", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal indicating a transmission request for the Shift Inhibit Indicator to be active or inactive.", + "is_big_endian": false, + "is_signed": false, + "states": { + "InactiveShiftIsNotInhibited": [0], + "ActiveShiftIsInhibited": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Eng.Crank.Enable" : { + "generic_name": "Trans.Eng.Crank.Enable", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal from the transmission indicating if the transmission's status is such that engine cranking is allowed (i.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CrnkngDsbldEngCrnkngIsPrhbtdByT": [0], + "CrnkngEnbldEngCrnkngIsAllwdByTr": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Active.Shift.Console.Indicator" : { + "generic_name": "Active.Shift.Console.Indicator", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal from transmission control unit indicating which shift console (primary or secondary) it currently considers as the", + "is_big_endian": false, + "is_signed": false, + "states": { + "PrimaryShiftConsoleIsActive": [0], + "SecondShiftConsoleIsActive": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Trans.Ready.For.Brake.Release" : { + "generic_name": "Trans.Ready.For.Brake.Release", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter indicates that enough torque / motive force is available at the transmission output shaft to release all the", + "is_big_endian": false, + "is_signed": false, + "states": { + "TransNotReadyForBrakeRelease": [0], + "TransReadyForBrakeRelease": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Rqed.Range.Display.Flash.State" : { + "generic_name": "Trans.Rqed.Range.Display.Flash.State", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal indicating a transmission request for the display of the Transmission Requested Range parameter (SPN 162)", + "is_big_endian": false, + "is_signed": false, + "states": { + "InctvTrnsRqdRngDsplyShldNtBFlsh": [0], + "ActvTrnsRqdRngDsplyShldBFlshing": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Rqed.Range.Display.Blank.State" : { + "generic_name": "Trans.Rqed.Range.Display.Blank.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal indicating a transmission request for the display of the Transmission Requested Range parameter (SPN162)", + "is_big_endian": false, + "is_signed": false, + "states": { + "InctvTrnsRqdRngDsplyShldNtBBlnk": [0], + "ActvTrnsRqdRngDsplyShldBBlanked": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trans.Service.Indicator" : { + "generic_name": "Trans.Service.Indicator", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal from transmission indicating that some aspect of the gearbox requires servicing, such as the oil, filter, clutch(es) or", + "is_big_endian": false, + "is_signed": false, + "states": { + "SeviceIndicatorOff": [0], + "ServiceIndicatorOn": [1], + "ServiceIndicatorFlashing": [2], + "NotAvailable": [3] + } + } + } + }, + "65195": { + "comment": "Electronic Transmission Controller 6", + "length": 8, + "name": "ETC6", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Clutch.Life.Remaining" : { + "generic_name": "Clutch.Life.Remaining", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Signal which indicates the actual clutch life remaining in percent.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Lowest.Possible.Gear" : { + "generic_name": "Lowest.Possible.Gear", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The transmission calculates this gear continuously.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Park": [251] + } + }, + "Highest.Possible.Gear" : { + "generic_name": "Highest.Possible.Gear", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The transmission calculates this gear continuously.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Park": [251] + } + }, + "Recommended.Gear" : { + "generic_name": "Recommended.Gear", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The transmission calculates this gear continuously.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Park": [251] + } + } + } + }, + "65219": { + "comment": "Electronic Transmission Controller 5", + "length": 8, + "name": "ETC5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trans.Forward.Direction.Switch" : { + "generic_name": "Trans.Forward.Direction.Switch", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the switch that indicates forward direction.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Neutral.Switch" : { + "generic_name": "Trans.Neutral.Switch", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the switch that indicates neutral.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Reverse.Direction.Switch" : { + "generic_name": "Trans.Reverse.Direction.Switch", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the switch that indicates reverse direction.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Low.Range.Sense.Switch" : { + "generic_name": "Trans.Low.Range.Sense.Switch", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the switch that represents low range.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.High.Range.Sense.Switch" : { + "generic_name": "Trans.High.Range.Sense.Switch", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the switch that represents high range.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "65221": { + "comment": "Electronic Transmission Controller 4", + "length": 8, + "name": "ETC4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trans.Synchronizer.Brake.Value" : { + "generic_name": "Trans.Synchronizer.Brake.Value", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The current modulated value for the air supply to the synchronizer brake.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Synchronizer.Clutch.Value" : { + "generic_name": "Trans.Synchronizer.Clutch.Value", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The current modulated value for the air supply to the synchronizer clutch.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65223": { + "comment": "Electronic Transmission Controller 3", + "length": 8, + "name": "ETC3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trans.Inertia.Brake.Actuator" : { + "generic_name": "Trans.Inertia.Brake.Actuator", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the actuator that controls the inertia brake.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Defuel.Actuator" : { + "generic_name": "Trans.Defuel.Actuator", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the actuator that controls the engine defuel mechanism.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Lockup.Clutch.Actuator" : { + "generic_name": "Trans.Lockup.Clutch.Actuator", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the actuator that controls the lockup clutch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Clutch.Actuator" : { + "generic_name": "Trans.Clutch.Actuator", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the actuator that controls the clutch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Splitter.Indirect.Actuator" : { + "generic_name": "Trans.Splitter.Indirect.Actuator", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the splitter indirect actuator in the auxiliary unit.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Splitter.Direct.Actuator" : { + "generic_name": "Trans.Splitter.Direct.Actuator", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the splitter direct actuator in the auxiliary unit.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Range.Low.Actuator" : { + "generic_name": "Trans.Range.Low.Actuator", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the range low actuator in the auxiliary unit.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Range.High.Actuator" : { + "generic_name": "Trans.Range.High.Actuator", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the range high actuator in the auxiliary unit.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Shift.Finger.Gear.Actuator2" : { + "generic_name": "Trans.Shift.Finger.Gear.Actuator2", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the actuator that moves the shift finger identified as gear actuator #2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Shift.Finger.Rail.Actuator2" : { + "generic_name": "Trans.Shift.Finger.Rail.Actuator2", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the actuator that moves the shift finger identified as rail actuator #2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Shift.Finger.Gear.Actuator1" : { + "generic_name": "Trans.Shift.Finger.Gear.Actuator1", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the actuator that moves the shift finger identified as gear actuator #1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Shift.Finger.Rail.Actuator1" : { + "generic_name": "Trans.Shift.Finger.Rail.Actuator1", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the actuator that moves the shift finger identified as rail actuator #1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trns.Shft.Fngr.Center.Rail.Indicator" : { + "generic_name": "Trns.Shft.Fngr.Center.Rail.Indicator", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the shift finger in the center rail position.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trns.Shft.Fngr.Engagement.Indicator" : { + "generic_name": "Trns.Shft.Fngr.Engagement.Indicator", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the shift finger in the engagement position.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trns.Shift.Finger.Neutral.Indicator" : { + "generic_name": "Trns.Shift.Finger.Neutral.Indicator", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the status of the shift finger in the neutral position.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Shift.Finger.Rail.Pos" : { + "generic_name": "Trans.Shift.Finger.Rail.Pos", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The current position of the shift finger in the rail direction.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Shift.Finger.Gear.Pos" : { + "generic_name": "Trans.Shift.Finger.Gear.Pos", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The current position of the shift finger in the gear direction.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61445": { + "comment": "Electronic Transmission Controller 2", + "length": 8, + "name": "ETC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trans.Current.Range" : { + "generic_name": "Trans.Current.Range", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Range currently being commanded by the transmission control system.", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Rqed.Range" : { + "generic_name": "Trans.Rqed.Range", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Range selected by the operator.", + "unit": "per", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Current.Gear" : { + "generic_name": "Trans.Current.Gear", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The gear currently engaged in the transmission or the last gear engaged while the transmission is in the process of", + "is_big_endian": false, + "is_signed": false, + "states": { + "Park": [251] + } + }, + "Trans.Actual.Gear.Ratio" : { + "generic_name": "Trans.Actual.Gear.Ratio", + "bit_position": 7, + "bit_size": 16, + "factor": 0.001, + "offset": 0, + "min_value": 0, + "max_value": 64.255, + "comment": "Actual ratio of input shaft speed to output shaft speed.", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Selected.Gear" : { + "generic_name": "Trans.Selected.Gear", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The gear that the transmission will attempt to achieve during the current shift if a shift is in progress, or the next shift if one", + "is_big_endian": false, + "is_signed": false, + "states": { + "Park": [251] + } + } + } + }, + "61442": { + "comment": "Electronic Transmission Controller 1", + "length": 8, + "name": "ETC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trns.Trque.Converter.Lockup.Engaged" : { + "generic_name": "Trns.Trque.Converter.Lockup.Engaged", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal which indicates whether the torque converter lockup is engaged.", + "is_big_endian": false, + "is_signed": false, + "states": { + "TorqueConverterLockupDisengaged": [0], + "TorqueConverterLockupEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trns.Trq.Cnvrtr.Lckp.Trnstn.In.Prcess" : { + "generic_name": "Trns.Trq.Cnvrtr.Lckp.Trnstn.In.Prcess", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal indicating whether or not the transmission torque converter lock up clutch is transitioning between being", + "is_big_endian": false, + "is_signed": false, + "states": { + "TransitionIsNotInProcess": [0], + "TransitionIsInProcess": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Src.Addrss.Of.Ctrllng.Dvc.Fr.Trns.Cntrl" : { + "generic_name": "Src.Addrss.Of.Ctrllng.Dvc.Fr.Trns.Cntrl", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "The source address of the SAE J1939 device currently controlling the transmission.", + "is_big_endian": false, + "is_signed": false + }, + "Momentary.Eng.Max.Power.Enable" : { + "generic_name": "Momentary.Eng.Max.Power.Enable", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Momentarily Requesting highest torque map from the engine control", + "is_big_endian": false, + "is_signed": false, + "states": { + "notRqingMaxPowerAvailable": [0], + "mmntarilyRqingMaxPowerAvailable": [1], + "fault": [2], + "notAvailable": [3] + } + }, + "Trans.Input.Shaft.Speed" : { + "generic_name": "Trans.Input.Shaft.Speed", + "bit_position": 39, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Rotational velocity of the primary shaft transferring power into the transmission.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Progressive.Shift.Disable" : { + "generic_name": "Progressive.Shift.Disable", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to indicate that progressive shifting by the engine should be disallowed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ProgressiveShiftIsNotDisabled": [0], + "ProgressiveShiftIsDisabled": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Eng.Momentary.Overspeed.Enable" : { + "generic_name": "Eng.Momentary.Overspeed.Enable", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal used to indicate that the engine speed may be boosted up to the maximum engine overspeed value to", + "is_big_endian": false, + "is_signed": false, + "states": { + "MomentaryEngOverspeedIsDisabled": [0], + "MomentaryEngOverspeedIsEnabled": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Percent.Clutch.Slip" : { + "generic_name": "Percent.Clutch.Slip", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Parameter which represents the ratio of input shaft speed to current engine speed (in percent).", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Output.Shaft.Speed" : { + "generic_name": "Trans.Output.Shaft.Speed", + "bit_position": 7, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Calculated speed of the transmission output shaft.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Shift.In.Process" : { + "generic_name": "Trans.Shift.In.Process", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the transmission is in process of shifting from the current gear to the selected gear.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ShiftIsNotInProcess": [0], + "ShiftInProcess": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Trans.Driveline.Engaged" : { + "generic_name": "Trans.Driveline.Engaged", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Driveline engaged indicates the transmission controlled portion of the driveline is engaged sufficiently to allow a transfer", + "is_big_endian": false, + "is_signed": false, + "states": { + "DrivelineDisengaged": [0], + "DrivelineEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "65129": { + "comment": "Engine Temperature 3", + "length": 8, + "name": "ET3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Charge.Air.Cooler1.Outlet.Temp" : { + "generic_name": "Eng.Charge.Air.Cooler1.Outlet.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of combustion air after it exits from the Charge Air Cooler 1 but before any mixing of recirculated exhaust", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Actation.System.Oil.Temp" : { + "generic_name": "Eng.Intk.Vlv.Actation.System.Oil.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The temperature of the oil in the hydraulic system that powers the intake valve actuation system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intake.Manifold1.Air.Temp" : { + "generic_name": "Eng.Intake.Manifold1.Air.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of pre-combustion air found in intake manifold of engine air supply system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Coolant.Temp.Hi.Res" : { + "generic_name": "Eng.Coolant.Temp.Hi.Res", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of liquid found in engine cooling system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65188": { + "comment": "Engine Temperature 2", + "length": 8, + "name": "ET2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhst.Gs.Rcrculation1.Diff.Press" : { + "generic_name": "Eng.Exhst.Gs.Rcrculation1.Diff.Press", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 251.99, + "comment": "Differential pressure across the Exhaust Gas Recirculation (EGR) system", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Recirculation1.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Recirculation1.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of Recirculated Exhaust Gas.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.ECUTemp" : { + "generic_name": "Eng.ECUTemp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the engine electronic control unit.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Oil.Temp2" : { + "generic_name": "Eng.Oil.Temp2", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the engine lubricant.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65262": { + "comment": "Engine Temperature 1", + "length": 8, + "name": "ET1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Fuel.Temp1" : { + "generic_name": "Eng.Fuel.Temp1", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of fuel (or gas) passing through the first fuel control system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intercooler.Thermostat.Opening" : { + "generic_name": "Eng.Intercooler.Thermostat.Opening", + "bit_position": 55, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The current position of the thermostat used to regulate the temperature of the engine intercooler.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intercooler.Temp" : { + "generic_name": "Eng.Intercooler.Temp", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of liquid found in the intercooler located after the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Turbo.Oil.Temp" : { + "generic_name": "Eng.Turbo.Oil.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the turbocharger lubricant.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Oil.Temp1" : { + "generic_name": "Eng.Oil.Temp1", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the engine lubricant.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Coolant.Temp" : { + "generic_name": "Eng.Coolant.Temp", + "bit_position": -1, + "bit_size": 8, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": -265.03125, + "comment": "Temperature of liquid found in engine cooling system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65031": { + "comment": "Exhaust Temperature", + "length": 8, + "name": "ET", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhaust.Gas.Temp.Right.Manifold" : { + "generic_name": "Eng.Exhaust.Gas.Temp.Right.Manifold", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of combustion byproducts within the right engine exhaust manifold.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Temp.Left.Manifold" : { + "generic_name": "Eng.Exhaust.Gas.Temp.Left.Manifold", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of combustion byproducts within the left engine exhaust manifold.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61451": { + "comment": "Electronic Steering Control", + "length": 8, + "name": "ESC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Sterable.Lift.Axle.Lowering.Inhibit" : { + "generic_name": "Sterable.Lift.Axle.Lowering.Inhibit", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A signal which indicates if lowering of lifted axle is allowed or inhibited.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LoweringAllowed": [0], + "LoweringInhibited": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Axle.Location" : { + "generic_name": "Axle.Location", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "To identify to which of several similar devices (such as tires or fuel tanks) the information applies.", + "is_big_endian": false, + "is_signed": false + }, + "Type.Of.Steer.Trans" : { + "generic_name": "Type.Of.Steer.Trans", + "bit_position": 39, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Steering Transmission (Ref.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PrlyMchStrTrnsAStrngTrnsmssnInW": [0], + "PrlyHydStrTrnsAStrngTrnsmssnInW": [1], + "PrlyElctrcStrTrnsAStrngTrnsmssn": [2], + "HybrdStrTrnsAStrngTrnsmssnInWhc": [3], + "1110ReservedForSAEAssignment": [4], + "NotAvailable": [15] + } + }, + "Type.Of.Steer.Forces" : { + "generic_name": "Type.Of.Steer.Forces", + "bit_position": 35, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Steering Forces (Ref.", + "is_big_endian": false, + "is_signed": false, + "states": { + "MnlStrEqpmntStrngFrcsRsltSllyFr": [0], + "PwrAssstdStrEqpmntStrngFrcsRslt": [1], + "FllPwrStrEqpmntStrngFrcsArPrvdd": [2], + "SlfTrckngStrEqpmntASystmDsgndTC": [3], + "1110ReservedForSAEAssignment": [4], + "NotAvailable": [15] + } + }, + "Steer.Type" : { + "generic_name": "Steer.Type", + "bit_position": 31, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Indicates the different types of steering systems (ref.", + "is_big_endian": false, + "is_signed": false, + "states": { + "MnStrSystmStrngEqpmntOfAVhclWhc": [0], + "AxStrEqpmntASystmInWhchWhlsOnAx": [1], + "1110ReservedForAssignmentBySAE": [2], + "NotAvailable": [15] + } + }, + "Status.Of.Steer.Axle" : { + "generic_name": "Status.Of.Steer.Axle", + "bit_position": 23, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "A signal which indicates different states of the steering axle", + "is_big_endian": false, + "is_signed": false, + "states": { + "AxleSteerNotActive": [0], + "AxleSteerActive": [1], + "AxleCentered": [2], + "AxleCenteredBecauseOfAnError": [3], + "AxleNotActiveBecauseOfAnError": [4], + "AxleSteerInSpecialMode": [5], + "1110ReservedForSAEAssignment": [6], + "NotAvailable": [15] + } + }, + "Actual.Inner.Wheel.Steer.Angle" : { + "generic_name": "Actual.Inner.Wheel.Steer.Angle", + "bit_position": -1, + "bit_size": 16, + "factor": 0.00390625, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Signal which indicates the actual inner wheel steering angle.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65218": { + "comment": "Electronic Retarder Controller 2", + "length": 8, + "name": "ERC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trans.Output.Retarder" : { + "generic_name": "Trans.Output.Retarder", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the status of the transmission output retarder.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "61440": { + "comment": "Electronic Retarder Controller 1", + "length": 8, + "name": "ERC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Retarder.Selection.Non.Eng" : { + "generic_name": "Retarder.Selection.Non.Eng", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The [Retarder Selection, non-engine] is the position of the driver's selector for retarders that are not part of the engine", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Src.Addrss.Of.Ctrllng.Dvc.Fr.Rtrdr.Cntrl" : { + "generic_name": "Src.Addrss.Of.Ctrllng.Dvc.Fr.Rtrdr.Cntrl", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "The source address of the SAE J1939 device currently controlling the retarder.", + "is_big_endian": false, + "is_signed": false + }, + "Retarder.Road.Speed.Limit.Switch" : { + "generic_name": "Retarder.Road.Speed.Limit.Switch", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Retarder road speed limit switch states:", + "is_big_endian": false, + "is_signed": false, + "states": { + "RdSpdLmtingByRetarderIsDisabled": [0], + "RdSpdLmtngByRtrdrIsEnbldRdSpdTh": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Retarder.Road.Speed.Exceeded.Status" : { + "generic_name": "Retarder.Road.Speed.Exceeded.Status", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Retarder Road Speed Exceeded Status:", + "is_big_endian": false, + "is_signed": false, + "states": { + "RoadSpeedIsBelowThreshold": [0], + "RdSpdIsAbvThrshldAndRtrdrIsAllw": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Actl.Mx.Avlbl.Rtarder.Percent.Torque" : { + "generic_name": "Actl.Mx.Avlbl.Rtarder.Percent.Torque", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "This is the maximum amount of torque that the retarder can immediately deliver.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Drvrs.Dmand.Retarder.Percent.Torque" : { + "generic_name": "Drvrs.Dmand.Retarder.Percent.Torque", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The Drivers demand retarder percent torque is the maximum torque selected by the driver when one or more modes", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Retarder.Rqing.Brake.Light" : { + "generic_name": "Retarder.Rqing.Brake.Light", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that whether the retarder is requesting that the brake lights are illuminated.", + "is_big_endian": false, + "is_signed": false, + "states": { + "RtrdrIsNtRqngThtBrkLghtsArIllmn": [0], + "RtrdrIsRqngThtBrkLghtsArIllmntd": [1], + "Reserved": [2], + "NotAvailable_TakeNoAction": [3] + } + }, + "Eng.Coolant.Load.Increase" : { + "generic_name": "Eng.Coolant.Load.Increase", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of an event, external to the engine, that may increase the nominal temperature of the engine coolant liquid.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoCoolantLoadIncrease": [0], + "CoolantLoadIncreasePossible": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Intended.Retarder.Percent.Torque" : { + "generic_name": "Intended.Retarder.Percent.Torque", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Braking torque of retarder that the retarder is currently trying to achieve.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Actual.Retarder.Percent.Torque" : { + "generic_name": "Actual.Retarder.Percent.Torque", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Actual braking torque of the retarder as a percent of retarder configuration reference torque SPN 556.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Retarder.Enable.Shift.Assist.Switch" : { + "generic_name": "Retarder.Enable.Shift.Assist.Switch", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates whether the operator wishes the retarder to be enabled for transmission shift assist.", + "is_big_endian": false, + "is_signed": false, + "states": { + "RetarderShiftAssistDisabled": [0], + "RetarderShiftAssistEnabled": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Retarder.Enable.Brake.Assist.Switch" : { + "generic_name": "Retarder.Enable.Brake.Assist.Switch", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates whether the operator wishes the retarder to be enabled for vehicle braking assist.", + "is_big_endian": false, + "is_signed": false, + "states": { + "RetarderBrakeAssistDisabled": [0], + "RetarderBrakeAssistEnabled": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Retarder.Torque.Mode" : { + "generic_name": "Retarder.Torque.Mode", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "State signal which indicates which retarder torque mode is currently generating, limiting, or controlling the torque.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65183": { + "comment": "Exhaust Port Temperature 5", + "length": 8, + "name": "EPT5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhaust.Gas.Port20.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port20.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port19.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port19.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port18.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port18.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port17.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port17.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65184": { + "comment": "Exhaust Port Temperature 4", + "length": 8, + "name": "EPT4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhaust.Gas.Port16.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port16.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port15.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port15.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port14.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port14.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port13.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port13.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65185": { + "comment": "Exhaust Port Temperature 3", + "length": 8, + "name": "EPT3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhaust.Gas.Port12.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port12.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port11.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port11.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port10.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port10.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port9.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port9.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65186": { + "comment": "Exhaust Port Temperature 2", + "length": 8, + "name": "EPT2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhaust.Gas.Port8.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port8.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port7.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port7.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port6.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port6.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port5.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port5.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65187": { + "comment": "Exhaust Port Temperature 1", + "length": 8, + "name": "EPT1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhaust.Gas.Port4.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port4.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port3.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port3.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port2.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port2.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Port1.Temp" : { + "generic_name": "Eng.Exhaust.Gas.Port1.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature at the cylinder exhaust port of the engine.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64996": { + "comment": "Equipment Performance Data", + "length": 8, + "name": "EPD", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Payload.Percentage" : { + "generic_name": "Payload.Percentage", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The current payload of the equipment, reported as a percentage of the equipment's rated payload limit.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64978": { + "comment": "ECU Performance", + "length": 8, + "name": "EP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Data.Memory.Usage" : { + "generic_name": "Data.Memory.Usage", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The used storage capacity of the data buffer memory internal to an ECU, such as a data logger.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Keep.Alive.Battery.Consumption" : { + "generic_name": "Keep.Alive.Battery.Consumption", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The capacity consumed from the direct battery connection since the key was last turned off.", + "unit": "mAhr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64995": { + "comment": "Equipment Operation and Control", + "length": 8, + "name": "EOAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Travel.Velocity.Ctrl.Pos" : { + "generic_name": "Travel.Velocity.Ctrl.Pos", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The position of the travel velocity control component reported as a percentage of the control's full displacement in each", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65193": { + "comment": "Exhaust Oxygen 1", + "length": 8, + "name": "EO1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhst.Gs.Oxygn.Snsr.Clsd.Lp.Oprton" : { + "generic_name": "Eng.Exhst.Gs.Oxygn.Snsr.Clsd.Lp.Oprton", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the engine is using the Exhaust Gas Oxygen sensor to control the air/fuel ratio.", + "is_big_endian": false, + "is_signed": false, + "states": { + "EngNtUsngExhaustGasOxygenSensor": [0], + "EngUsngExhstGsOxygnSnsrFrAClsdL": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Eng.Exhst.Gs.Oxygn.Snsr.Flng.Crrction" : { + "generic_name": "Eng.Exhst.Gs.Oxygn.Snsr.Flng.Crrction", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The amount of fueling change required by the system based on the measured Exhaust Oxygen value compared to the", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Actual.Exhaust.Oxygen" : { + "generic_name": "Eng.Actual.Exhaust.Oxygen", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The actual amount of oxygen in the exhaust represented as a percentage by volume with respect to the total volume of", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Desired.Exhaust.Oxygen" : { + "generic_name": "Eng.Desired.Exhaust.Oxygen", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The desired amount of oxygen in the exhaust represented as a percentage by volume with respect to the total volume of", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Desired.Rated.Exhaust.Oxygen" : { + "generic_name": "Eng.Desired.Rated.Exhaust.Oxygen", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "The desired amount of oxygen in the exhaust at rated conditions represented as a percentage by volume with respect to", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64987": { + "comment": "Extended Joystick Message 3", + "length": 8, + "name": "EJM3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Jystck3.Grip.XAxis.Detent.Pos.Status" : { + "generic_name": "Jystck3.Grip.XAxis.Detent.Pos.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck3.Grip.YAxis.Detent.Pos.Status" : { + "generic_name": "Jystck3.Grip.YAxis.Detent.Pos.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck3.Theta.Axis.Detent.Pos.Status" : { + "generic_name": "Jystck3.Theta.Axis.Detent.Pos.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Theta.Axis.Pos" : { + "generic_name": "Joystick3.Theta.Axis.Pos", + "bit_position": 37, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck3.Tht.Axs.Clckws.Pstv.Ps.Status" : { + "generic_name": "Jystck3.Tht.Axs.Clckws.Pstv.Ps.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck3.Thta.Axis.Neutral.Pos.Status" : { + "generic_name": "Jystck3.Thta.Axis.Neutral.Pos.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Grip.YAxis.Pos" : { + "generic_name": "Joystick3.Grip.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck3.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts" : { + "generic_name": "Jystck3.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck3.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck3.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck3.Grp.YAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck3.Grp.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Grip.XAxis.Pos" : { + "generic_name": "Joystick3.Grip.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck3.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts" : { + "generic_name": "Jystck3.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck3.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck3.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck3.Grp.XAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck3.Grp.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck3.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts" : { + "generic_name": "Jystck3.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64985": { + "comment": "Extended Joystick Message 2", + "length": 8, + "name": "EJM2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Jystck2.Grip.XAxis.Detent.Pos.Status" : { + "generic_name": "Jystck2.Grip.XAxis.Detent.Pos.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck2.Grip.YAxis.Detent.Pos.Status" : { + "generic_name": "Jystck2.Grip.YAxis.Detent.Pos.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck2.Theta.Axis.Detent.Pos.Status" : { + "generic_name": "Jystck2.Theta.Axis.Detent.Pos.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Theta.Axis.Pos" : { + "generic_name": "Joystick2.Theta.Axis.Pos", + "bit_position": 37, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck2.Tht.Axs.Clckws.Pstv.Ps.Status" : { + "generic_name": "Jystck2.Tht.Axs.Clckws.Pstv.Ps.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck2.Thta.Axis.Neutral.Pos.Status" : { + "generic_name": "Jystck2.Thta.Axis.Neutral.Pos.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Grip.YAxis.Pos" : { + "generic_name": "Joystick2.Grip.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck2.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts" : { + "generic_name": "Jystck2.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck2.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck2.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck2.Grp.YAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck2.Grp.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Grip.XAxis.Pos" : { + "generic_name": "Joystick2.Grip.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck2.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts" : { + "generic_name": "Jystck2.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck2.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck2.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck2.Grp.XAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck2.Grp.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck2.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts" : { + "generic_name": "Jystck2.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64983": { + "comment": "Extended Joystick Message 1", + "length": 8, + "name": "EJM1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Jystck1.Grip.XAxis.Detent.Pos.Status" : { + "generic_name": "Jystck1.Grip.XAxis.Detent.Pos.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck1.Grip.YAxis.Detent.Pos.Status" : { + "generic_name": "Jystck1.Grip.YAxis.Detent.Pos.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck1.Theta.Axis.Detent.Pos.Status" : { + "generic_name": "Jystck1.Theta.Axis.Detent.Pos.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Theta.Axis.Pos" : { + "generic_name": "Joystick1.Theta.Axis.Pos", + "bit_position": 37, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck1.Tht.Axs.Clckws.Pstv.Ps.Status" : { + "generic_name": "Jystck1.Tht.Axs.Clckws.Pstv.Ps.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck1.Thta.Axis.Neutral.Pos.Status" : { + "generic_name": "Jystck1.Thta.Axis.Neutral.Pos.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Grip.YAxis.Pos" : { + "generic_name": "Joystick1.Grip.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck1.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts" : { + "generic_name": "Jystck1.Grp.YAxs.Lvr.Frwrd.Pstv.Ps.Stts", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck1.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck1.Grp.YAxs.Lvr.Bck.Ngtv.Ps.Sttus", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck1.Grp.YAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck1.Grp.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Grip.XAxis.Pos" : { + "generic_name": "Joystick1.Grip.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick grip in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck1.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts" : { + "generic_name": "Jystck1.Grp.XAxs.Lvr.Rght.Pstv.Ps.Stts", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck1.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus" : { + "generic_name": "Jystck1.Grp.XAxs.Lvr.Lft.Ngtv.Ps.Sttus", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is on the negative travel side (back, left, counterclockwise, down) relative", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck1.Grp.XAxis.Neutral.Pos.Status" : { + "generic_name": "Jystck1.Grp.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick grip position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck1.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts" : { + "generic_name": "Jystck1.Tht.Axs.Cntr.Clckws.Ngtv.Ps.Stts", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "65170": { + "comment": "Engine Information", + "length": 8, + "name": "EI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Fuel.Rack.Pos" : { + "generic_name": "Eng.Fuel.Rack.Pos", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Measured position of the engine fuel rack.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Gas.Mass.Flow.Rate1" : { + "generic_name": "Eng.Gas.Mass.Flow.Rate1", + "bit_position": 31, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Gas mass flow rate delivered to an engine through its first fuel control system.", + "unit": "kg/h", + "is_big_endian": false, + "is_signed": false + }, + "Instantaneous.Est.Brake.Power" : { + "generic_name": "Instantaneous.Est.Brake.Power", + "bit_position": 47, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Estimate of the power developed by the engine.", + "unit": "kW", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Press" : { + "generic_name": "Eng.Exhaust.Gas.Press", + "bit_position": 7, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 251.99, + "comment": "Gage pressure of the exhaust gasses as measured at the turbine intake of the turbocharger.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Prefilter.Oil.Press" : { + "generic_name": "Eng.Prefilter.Oil.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Gage pressure of the engine oil before the oil reaches the oil filter.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65201": { + "comment": "ECU History", + "length": 8, + "name": "EH", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Total.ECURun.Time" : { + "generic_name": "Total.ECURun.Time", + "bit_position": 31, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "Total time accumulated over the life of the ECU, from ignition switch ON to ignition switch OFF.", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Total.ECUDistance" : { + "generic_name": "Total.ECUDistance", + "bit_position": -1, + "bit_size": 32, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 526385151.9, + "comment": "Total distance accumulated over the life of the ECU.", + "unit": "km", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61450": { + "comment": "Engine Gas Flow Rate", + "length": 8, + "name": "EGF1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Intake.Air.Mass.Flow.Rate" : { + "generic_name": "Eng.Intake.Air.Mass.Flow.Rate", + "bit_position": 15, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Mass flow rate of fresh air entering the engine air intake, before any EGR mixer, if used.", + "unit": "kg/h", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrclton2.Mass.Flow.Rate" : { + "generic_name": "Eng.Exhst.Gs.Rcrclton2.Mass.Flow.Rate", + "bit_position": 31, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Flow rate of gas through the second EGR system.", + "unit": "kg/h", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrclton1.Mass.Flow.Rate" : { + "generic_name": "Eng.Exhst.Gs.Rcrclton1.Mass.Flow.Rate", + "bit_position": -1, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Flow rate of gas through the EGR system.", + "unit": "kg/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65130": { + "comment": "Engine Fuel/lube systems", + "length": 7, + "name": "EFS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Fuel.Pump.Primer.Status" : { + "generic_name": "Fuel.Pump.Primer.Status", + "bit_position": 50, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Parameter used to transmit the actual status of the fuel priming system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "Unavailable": [3] + } + }, + "Eng.Fuel.Supply.Pump.Intake.Press" : { + "generic_name": "Eng.Fuel.Supply.Pump.Intake.Press", + "bit_position": 7, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "Absolute pressure of fuel at the fuel supply pump intake.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Filter.Diff.Press" : { + "generic_name": "Eng.Fuel.Filter.Diff.Press", + "bit_position": 15, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "Differential pressure measured across the fuel filter located between the fuel tank and the supply pump.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Oil.Level.Remote.Reservoir" : { + "generic_name": "Eng.Oil.Level.Remote.Reservoir", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Ratio of current volume of engine oil in a remote reservoir to the maximum required volume.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Waste.Oil.Reservoir.Level" : { + "generic_name": "Eng.Waste.Oil.Reservoir.Level", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Level of crankcase blowby emulsion collected by a container.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "RepresentsCompletelyFull": [4] + } + }, + "Eng.Ventilation.Status" : { + "generic_name": "Eng.Ventilation.Status", + "bit_position": 47, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Engine ventilation control states.", + "is_big_endian": false, + "is_signed": false, + "states": { + "SufficientlyVented": [0], + "VentilationNeeded": [1], + "VentilationDelay": [2], + "CurrentlyVenting": [3], + "ReservedForSAEAssignment": [5], + "NtAblTDtrmnIfSufficientlyVented": [6], + "NotAvailableNotInstalle": [7] + } + }, + "Eng.Oil.Priming.State" : { + "generic_name": "Eng.Oil.Priming.State", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Determination of whether or not the engine is (or has recently been) sufficiently lubricated for starting purposes.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSufficientlyLubricated": [0], + "SufficientlyLubricated": [1], + "UnblTDtrmnIfSffcentlyLubricated": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Eng.Oil.Priming.Pump.Switch" : { + "generic_name": "Eng.Oil.Priming.Pump.Switch", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch input for activating the engine oil priming pump.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Eng.Oil.Pre.Heated.State" : { + "generic_name": "Eng.Oil.Pre.Heated.State", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the engine oil pre-heated sufficiently for starting purposes.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSufficientlyPreheated": [0], + "SufficientlyPreheated": [1], + "UnblTDtrmnIfEngOlIsPrhtdSffcntl": [2], + "NotAvailableNotInstalled": [3] + } + }, + "Eng.Oil.Filter.Outlet.Press" : { + "generic_name": "Eng.Oil.Filter.Outlet.Press", + "bit_position": 31, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Oil pressure (gauge) measured just downstream of oil filter.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Coolant.Preheated.State" : { + "generic_name": "Eng.Coolant.Preheated.State", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the engine coolant is pre-heated sufficiently for starting purposes.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSufficientlyPreheated": [0], + "SufficientlyPreheated": [1], + "UnblTDtrmnEngClntPrhtdSffcently": [2], + "NotAvailableNotInstalled": [3] + } + } + } + }, + "64961": { + "comment": "Engine Fluid Level/Pressure 3", + "length": 8, + "name": "EFL_P3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhst.Vlv.Actton.System.Oil.Press" : { + "generic_name": "Eng.Exhst.Vlv.Actton.System.Oil.Press", + "bit_position": 23, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 251, + "comment": "The absolute pressure of the oil in the hydraulic system that powers the engine exhaust valve actuation system", + "unit": "MPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrcltion1.Outlet.Press" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltion1.Outlet.Press", + "bit_position": 39, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "EGR outlet pressure is measured immediately after the EGR valve.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrcltion1.Intake.Press" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltion1.Intake.Press", + "bit_position": 15, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "EGR intake gage pressure is measured after the EGR cooler and before the EGR valve.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intk.Vlv.Acttion.System.Oil.Press" : { + "generic_name": "Eng.Intk.Vlv.Acttion.System.Oil.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 251, + "comment": "The gage pressure of the oil in the hydraulic system that powers the engine intake valve actuation system", + "unit": "MPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65243": { + "comment": "Engine Fluid Level/Pressure 2", + "length": 8, + "name": "EFL_P2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Injector.Metering.Rail2.Press" : { + "generic_name": "Eng.Injector.Metering.Rail2.Press", + "bit_position": 47, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 251, + "comment": "The gage pressure of fuel in the metering rail #2 as delivered from the supply pump to the injector metering intake.", + "unit": "MPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Injector.Timing.Rail1.Press" : { + "generic_name": "Eng.Injector.Timing.Rail1.Press", + "bit_position": 31, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 251, + "comment": "The gage pressure of fuel in the timing rail delivered from the supply pump to the injector timing intake.", + "unit": "MPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Injector.Metering.Rail1.Press" : { + "generic_name": "Eng.Injector.Metering.Rail1.Press", + "bit_position": 15, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 251, + "comment": "The gage pressure of fuel in the primary, or first, metering rail as delivered from the supply pump to the injector metering", + "unit": "MPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Injection.Ctrl.Press" : { + "generic_name": "Eng.Injection.Ctrl.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 251, + "comment": "The gage pressure of the engine oil in the hydraulic accumulator that powers an intensifier used for fuel injection.", + "unit": "MPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65263": { + "comment": "Engine Fluid Level/Pressure 1", + "length": 8, + "name": "EFL_P1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Coolant.Level" : { + "generic_name": "Eng.Coolant.Level", + "bit_position": 55, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Ratio of volume of liquid found in engine cooling system to total cooling system volume.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Coolant.Press" : { + "generic_name": "Eng.Coolant.Press", + "bit_position": 47, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "Gage pressure of liquid found in engine cooling system.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Crankcase.Press" : { + "generic_name": "Eng.Crankcase.Press", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 251.99, + "comment": "Gage pressure inside engine crankcase.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Oil.Press" : { + "generic_name": "Eng.Oil.Press", + "bit_position": 23, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Gage pressure of oil in engine lubrication system as provided by oil pump.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Oil.Level" : { + "generic_name": "Eng.Oil.Level", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Ratio of current volume of engine sump oil to maximum required volume.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Ex.Crankcase.Blowby.Press" : { + "generic_name": "Eng.Ex.Crankcase.Blowby.Press", + "bit_position": 7, + "bit_size": 8, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 12.5, + "comment": "Differential crankcase blow-by pressure as measured through a tube with a venturi.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Delivery.Press" : { + "generic_name": "Eng.Fuel.Delivery.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Gage pressure of fuel in system as delivered from supply pump to the injection pump.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65171": { + "comment": "Engine Electrical System/Module Information", + "length": 8, + "name": "EES", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Turning.Gear.Engaged" : { + "generic_name": "Turning.Gear.Engaged", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which indicates that the turning gear is engaged.", + "is_big_endian": false, + "is_signed": false, + "states": { + "TurningGearIsNotEngaged": [0], + "TurningGearIsEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Safety.Wire.Status" : { + "generic_name": "Safety.Wire.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status signal which indicates that the safety wire has been activated.", + "is_big_endian": false, + "is_signed": false, + "states": { + "SafetyWireHasNotBeenActivated": [0], + "SafetyWireHasBeenActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Electrical.Load" : { + "generic_name": "Electrical.Load", + "bit_position": -1, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Electrical power delivered by the engine to the electrical system connected to the generator.", + "unit": "kW", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64981": { + "comment": "Electronic Engine Controller 5", + "length": 8, + "name": "EEC5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Vrable.Geometry.Turbo1.Ctrl.Mode" : { + "generic_name": "Eng.Vrable.Geometry.Turbo1.Ctrl.Mode", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates if the variable geometry turbocharger control status is either open loop or closed loop.", + "is_big_endian": false, + "is_signed": false, + "states": { + "openLoop": [0], + "closedLoop": [1], + "SAEReserved": [2], + "notAvailable": [3] + } + }, + "Eng.Trb1.Clclted.Turbine.Intake.Temp" : { + "generic_name": "Eng.Trb1.Clclted.Turbine.Intake.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Calculated value of turbine intake temperature based on engine operating conditions, such as intake manifold", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrculation1.Valve.Ctrl" : { + "generic_name": "Eng.Exhst.Gs.Rcrculation1.Valve.Ctrl", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Desired percentage of maximum Exhaust Gas Recirculation (EGR) valve opening.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Vrbl.Gometry.Turbo1.Actuator.Pos" : { + "generic_name": "Eng.Vrbl.Gometry.Turbo1.Actuator.Pos", + "bit_position": 55, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Sensor that measures the position of the variable geometry turbocharger actuator.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Vrbl.Gmtry.Trb.Ar.Ctrl.Shtff.Valve" : { + "generic_name": "Eng.Vrbl.Gmtry.Trb.Ar.Ctrl.Shtff.Valve", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Isolates vehicle brake air from the Variable Geometry Turbocharger (VGT) system when engine is not running.", + "is_big_endian": false, + "is_signed": false, + "states": { + "VGTAirCtrlShutoffValveIsOff": [0], + "VGTAirCtrlShutoffValveIsOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Trb1.Clclted.Turbine.Outlet.Temp" : { + "generic_name": "Eng.Trb1.Clclted.Turbine.Outlet.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Calculated value of turbocharger compressor outlet air temperature.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65214": { + "comment": "Electronic Engine Controller 4", + "length": 8, + "name": "EEC4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Rotation.Direction" : { + "generic_name": "Eng.Rotation.Direction", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Direction of engine rotation, as reported by the engine.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CounterClockWise": [0], + "ClockWise": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Crnk.Attmpt.Cnt.On.Prsnt.Strt.Attempt" : { + "generic_name": "Crnk.Attmpt.Cnt.On.Prsnt.Strt.Attempt", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Reports the number of cranking cycles undergone during the present start attempt.", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Intake.Manifold.Press.Ctrl.Mode" : { + "generic_name": "Eng.Intake.Manifold.Press.Ctrl.Mode", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the Boost Pressure Closed Loop Control status either open loop or closed loop.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OpenLoop": [0], + "ClosedLoop": [1], + "SAEReserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Rated.Speed" : { + "generic_name": "Eng.Rated.Speed", + "bit_position": 15, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "The maximum governed rotational velocity of the engine crankshaft under full load conditions.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Rated.Power" : { + "generic_name": "Eng.Rated.Power", + "bit_position": -1, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Net brake power that the engine will deliver continuously, specified for a given application at a rated speed.", + "unit": "kW", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65247": { + "comment": "Electronic Engine Controller 3", + "length": 8, + "name": "EEC3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Engs.Dsrd.Oprtng.Spd.Asymmtry.Adjstmnt" : { + "generic_name": "Engs.Dsrd.Oprtng.Spd.Asymmtry.Adjstmnt", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "This byte is utilized in transmission gear selection routines and indicates the engine's preference of lower versus higher", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtratment1.Exhaust.Gas.Mass.Flow" : { + "generic_name": "Aftrtratment1.Exhaust.Gas.Mass.Flow", + "bit_position": 39, + "bit_size": 16, + "factor": 0.2, + "offset": 0, + "min_value": 0, + "max_value": 12851, + "comment": "Measured/calculated exhaust gas mass upstream of the aftertreatment system in exhaust bank 1 and 2.", + "unit": "kg/h", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Intake.Dew.Point" : { + "generic_name": "Aftertreatment2.Intake.Dew.Point", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the temperature on the intake side of the aftertreatment system has exceeded the dew point, as estimated", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotExceededDewPoint": [0], + "ExceededDewPoint": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftertreatment2.Exhaust.Dew.Point" : { + "generic_name": "Aftertreatment2.Exhaust.Dew.Point", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the temperature on the exhaust side of the aftertreatment has exceeded the dew point, as estimated by the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotExceededDewPoint": [0], + "ExceededDewPoint": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftertreatment1.Intake.Dew.Point" : { + "generic_name": "Aftertreatment1.Intake.Dew.Point", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the temperature on the intake side of the aftertreatment system has exceeded the dew point, as estimated", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotExceededDewPoint": [0], + "ExceededDewPoint": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftertreatment1.Exhaust.Dew.Point" : { + "generic_name": "Aftertreatment1.Exhaust.Dew.Point", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the temperature on the exhaust side of the aftertreatment has exceeded the dew point, as estimated by the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotExceededDewPoint": [0], + "ExceededDewPoint": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Est.Eng.Prstic.Losses.Percent.Torque" : { + "generic_name": "Est.Eng.Prstic.Losses.Percent.Torque", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The calculated torque that indicates the estimated amount of torque loss due to engine parasitics, such as cooling fan, air", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "LossesAreIncludedInSPN514": [251] + } + }, + "Engs.Desired.Operating.Speed" : { + "generic_name": "Engs.Desired.Operating.Speed", + "bit_position": 7, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "An indication by the engine of the optimal operating speed of the engine for the current existing conditions.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Nominal.Friction.Percent.Torque" : { + "generic_name": "Nominal.Friction.Percent.Torque", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The calculated torque that indicates the amount of torque required by the basic engine itself added by the loss torque of", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61443": { + "comment": "Electronic Engine Controller 2", + "length": 8, + "name": "EEC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "S.CRThermal.Management.Active" : { + "generic_name": "S.CRThermal.Management.Active", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the exhaust temperatures have been elevated for regeneration of the SCR aftertreatment system or in", + "is_big_endian": false, + "is_signed": false, + "states": { + "SCRThermalManagementIsNotActive": [0], + "SCRThermalManagementIsActive": [1], + "Reserved": [2], + "DontCare": [3] + } + }, + "Mmntry.Eng.Max.Power.Enable.Feedback" : { + "generic_name": "Mmntry.Eng.Max.Power.Enable.Feedback", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Momentarily requesting Engine Maximum Power Enable - feature support feedback", + "is_big_endian": false, + "is_signed": false, + "states": { + "disabled": [0], + "supported": [1], + "reserved": [2], + "dontCare": [3] + } + }, + "Est.Pumping.Percent.Torque" : { + "generic_name": "Est.Pumping.Percent.Torque", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The calculated torque that indicates the estimated amount of torque loss due to the engine air handling system.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "D.PFThermal.Management.Active" : { + "generic_name": "D.PFThermal.Management.Active", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the exhaust temperatures have been elevated for regeneration of the diesel particulate filter aftertreatment", + "is_big_endian": false, + "is_signed": false, + "states": { + "DPFThermalManagementIsNotActive": [0], + "DPFThermalManagementIsActive": [1], + "Reserved": [2], + "DontCare": [3] + } + }, + "Actl.Mx.Available.Eng.Percent.Torque" : { + "generic_name": "Actl.Mx.Available.Eng.Percent.Torque", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "This is the maximum amount of torque that the engine can immediately deliver as a percentage of the reference engine", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Accel.Pedal.Pos2" : { + "generic_name": "Accel.Pedal.Pos2", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The ratio of actual position of the second analog engine speed/torque request input device (such as an accelerator pedal", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Vhcl.Acceleration.Rate.Limit.Status" : { + "generic_name": "Vhcl.Acceleration.Rate.Limit.Status", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status (active or not active) of the system used to limit maximum forward vehicle acceleration.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LimitNotActive": [0], + "LimitActive": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Percent.Load.At.Current.Speed" : { + "generic_name": "Eng.Percent.Load.At.Current.Speed", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The ratio of actual engine percent torque (indicated) to maximum indicated torque available at the current engine speed,", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Accel.Pedal2.Low.Idle.Switch" : { + "generic_name": "Accel.Pedal2.Low.Idle.Switch", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the state of the accelerator pedal 2 low idle switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AcclPedal2NotInLowIdleCondition": [0], + "AccelPedal2InLowIdleCondition": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Road.Speed.Limit.Status" : { + "generic_name": "Road.Speed.Limit.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status (active or not active) of the system used to limit maximum vehicle velocity.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Active": [0], + "NotActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Accel.Pedal.Kickdown.Switch" : { + "generic_name": "Accel.Pedal.Kickdown.Switch", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates whether the accelerator pedal kickdown switch is opened or closed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "KickdownPassive": [0], + "KickdownActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Accel.Pedal1.Low.Idle.Switch" : { + "generic_name": "Accel.Pedal1.Low.Idle.Switch", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the state of the accelerator pedal 1 low idle switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AcclPedal1NotInLowIdleCondition": [0], + "AccelPedal1InLowIdleCondition": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Remote.Accel.Pedal.Pos" : { + "generic_name": "Remote.Accel.Pedal.Pos", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The ratio of actual position of the remote analog engine speed/torque request input device (such as an accelerator pedal", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Accel.Pedal.Pos1" : { + "generic_name": "Accel.Pedal.Pos1", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The ratio of actual position of the analog engine speed/torque request input device (such as an accelerator pedal or", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61444": { + "comment": "Electronic Engine Controller 1", + "length": 8, + "name": "EEC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Src.Addrss.Of.Ctrllng.Dvc.Fr.Eng.Cntrl" : { + "generic_name": "Src.Addrss.Of.Ctrllng.Dvc.Fr.Eng.Cntrl", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "The source address of the SAE J1939 device currently controlling the engine.", + "is_big_endian": false, + "is_signed": false + }, + "Actl.Eng.Prcnt.Trque.High.Resolution" : { + "generic_name": "Actl.Eng.Prcnt.Trque.High.Resolution", + "bit_position": 3, + "bit_size": 4, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 0.875, + "comment": "This parameter displays an additional torque in percent of the reference engine torque.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "0000": [0], + "0125": [1], + "0875": [7], + "1111NotAvailable": [8] + } + }, + "Eng.Demand.Percent.Torque" : { + "generic_name": "Eng.Demand.Percent.Torque", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The requested torque output of the engine by all dynamic internal inputs, including smoke control, noise control and low", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Starter.Mode" : { + "generic_name": "Eng.Starter.Mode", + "bit_position": 47, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "There are several phases in a starting action and different reasons why a start cannot take place.", + "is_big_endian": false, + "is_signed": false, + "states": { + "startNotRqed": [0], + "starterActiveGearNotEngaged": [1], + "starterActiveGearEngaged": [2], + "strtFnshdStrtrNtActvAftrHvngBnA": [3], + "strtrInhbtdDToEngAlreadyRunning": [4], + "strtrInhbtdDTEngNtReadyForStart": [5], + "strtrInhbtdDTDrvlnEnggdOthrTrns": [6], + "strtrInhbtdDToActiveImmobilizer": [7], + "strtrInhbtdDueToStarterOvertemp": [8], + "1011Reserved": [9], + "starterInhibitedReasonUnknown": [12], + "error": [14], + "notAvailable": [15] + } + }, + "Eng.Speed" : { + "generic_name": "Eng.Speed", + "bit_position": 23, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Actual engine speed which is calculated over a minimum crankshaft angle of 720 degrees divided by the number of cylinders.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Actual.Eng.Percent.Torque" : { + "generic_name": "Actual.Eng.Percent.Torque", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The calculated output torque of the engine.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Drivers.Demand.Eng.Percent.Torque" : { + "generic_name": "Drivers.Demand.Eng.Percent.Torque", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The requested torque output of the engine by the driver.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Torque.Mode" : { + "generic_name": "Eng.Torque.Mode", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "State signal which indicates which engine torque mode is currently generating, limiting, or controlling the torque.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Low idle governor/no request (de": [0], + "Accelerator pedal/operator selec": [1], + "Cruise control": [2], + "PTO governor": [3], + "Road speed governor": [4], + "ASR control": [5], + "Transmission control": [6], + "ABS control": [7], + "Torque limiting": [8], + "High speed governor": [9], + "Braking system": [10], + "Remote accelerator": [11], + "Not available": [15] + } + } + } + }, + "64965": { + "comment": "ECU Identification Information", + "length": 8, + "name": "ECUID", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "E.CUType" : { + "generic_name": "E.CUType", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "E.CULocation" : { + "generic_name": "E.CULocation", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "E.CUSerial.Number" : { + "generic_name": "E.CUSerial.Number", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "E.CUPart.Number" : { + "generic_name": "E.CUPart.Number", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65108": { + "comment": "Engine Continuous Torque & Speed Limit", + "length": 8, + "name": "ECT1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Lw.Lmt.Thrshld.Fr.Mx.Trq.Frm.Engine" : { + "generic_name": "Eng.Lw.Lmt.Thrshld.Fr.Mx.Trq.Frm.Engine", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Minimum allowable value for maximum continuous torque from engine", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Lw.Lmt.Thrshld.Fr.Mx.RPMFrm.Engine" : { + "generic_name": "Eng.Lw.Lmt.Thrshld.Fr.Mx.RPMFrm.Engine", + "bit_position": -1, + "bit_size": 8, + "factor": 32, + "offset": 0, + "min_value": 0, + "max_value": 8000, + "comment": "Minimum allowable value for maximum continuous RPM from engine", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Hgh.Lmt.Thrshld.Fr.Mn.Cntns.Trq.Frm.Engn" : { + "generic_name": "Eng.Hgh.Lmt.Thrshld.Fr.Mn.Cntns.Trq.Frm.Engn", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Maximum allowable value for minimum continuous torque from engine", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Hgh.Lmt.Thrshld.Fr.Mn.Cntns.Engn.RPM" : { + "generic_name": "Eng.Hgh.Lmt.Thrshld.Fr.Mn.Cntns.Engn.RPM", + "bit_position": 7, + "bit_size": 8, + "factor": 32, + "offset": 0, + "min_value": 0, + "max_value": 8000, + "comment": "Maximum allowable value for minimum continuous RPM from engine", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Min.Continuous.Torque" : { + "generic_name": "Eng.Min.Continuous.Torque", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Applied limit for minimum continuous engine torque", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Max.Continuous.Torque" : { + "generic_name": "Eng.Max.Continuous.Torque", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Applied limit for maximum continuous engine torque.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Min.Continuous.RPM" : { + "generic_name": "Eng.Min.Continuous.RPM", + "bit_position": 39, + "bit_size": 8, + "factor": 32, + "offset": 0, + "min_value": 0, + "max_value": 8000, + "comment": "Applied limit for minimum continuous engine RPM", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Max.Continuous.RPM" : { + "generic_name": "Eng.Max.Continuous.RPM", + "bit_position": 31, + "bit_size": 8, + "factor": 32, + "offset": 0, + "min_value": 0, + "max_value": 8000, + "comment": "Applied limit for maximum continuous engine RPM", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65251": { + "comment": "Engine Configuration 1", + "length": 39, + "name": "EC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Support.TSC1.Ctrl.Purpose.Group4" : { + "generic_name": "Support.TSC1.Ctrl.Purpose.Group4", + "bit_position": 303, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "This parameter indicates which TSC1 control purposes are supported in group 4 of 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "P25ReservedForAssignmentBySAE": [1] + } + }, + "Support.TSC1.Ctrl.Purpose.Group3" : { + "generic_name": "Support.TSC1.Ctrl.Purpose.Group3", + "bit_position": 295, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "This parameter indicates which TSC1 control purposes are supported in group 3 of 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "P17ReservedForAssignmentBySAE": [1] + } + }, + "Support.TSC1.Ctrl.Purpose.Group2" : { + "generic_name": "Support.TSC1.Ctrl.Purpose.Group2", + "bit_position": 287, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "This parameter indicates which TSC1 control purposes are supported in group 2 of 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "P9ReservedForAssignmentBySAE": [1] + } + }, + "Support.TSC1.Ctrl.Purpose.Group1" : { + "generic_name": "Support.TSC1.Ctrl.Purpose.Group1", + "bit_position": 279, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "This parameter indicates which TSC1 control purposes are supported in group 1 of 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "P1AccelPedal_OperatorSelection": [1] + } + }, + "Support.Variable.Rate.TSC1.Message" : { + "generic_name": "Support.Variable.Rate.TSC1.Message", + "bit_position": 271, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "This parameter indicates which TSC1 transmission rates are supported by the engine ECU in addition to the required", + "is_big_endian": false, + "is_signed": false, + "states": { + "MsTransRate": [1] + } + }, + "Eng.Default.Torque.Limit" : { + "generic_name": "Eng.Default.Torque.Limit", + "bit_position": 255, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Companion parameter to Transmission Torque Limit (SPN 1845).", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Moment.Of.Inertia" : { + "generic_name": "Eng.Moment.Of.Inertia", + "bit_position": 239, + "bit_size": 16, + "factor": 0.004, + "offset": 0, + "min_value": 0, + "max_value": 257.02, + "comment": "Moment of inertia for the engine, including items driven full-time by the engine such as fuel, oil and cooling pumps.", + "unit": "kg*m*m", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Ex.Rng.Rqd.Spd.Ctrl.Rng.Upper.Limit" : { + "generic_name": "Eng.Ex.Rng.Rqd.Spd.Ctrl.Rng.Upper.Limit", + "bit_position": 223, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "The maximum engine speed regardless of load that the engine will allow when operating in a speed control/limit mode,", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Rqd.Torque.Ctrl.Range.Upper.Limit" : { + "generic_name": "Eng.Rqd.Torque.Ctrl.Range.Upper.Limit", + "bit_position": 215, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The maximum engine torque that the engine will allow when operating in a torque control/limit mode.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Rqd.Torque.Ctrl.Range.Lower.Limit" : { + "generic_name": "Eng.Rqd.Torque.Ctrl.Range.Lower.Limit", + "bit_position": 207, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The minimum engine torque that the engine will allow when operating in a torque control/limit mode.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Rqed.Speed.Ctrl.Range.Upper.Limit" : { + "generic_name": "Eng.Rqed.Speed.Ctrl.Range.Upper.Limit", + "bit_position": 199, + "bit_size": 8, + "factor": 10, + "offset": 0, + "min_value": 0, + "max_value": 2500, + "comment": "The maximum engine speed regardless of load that the engine will allow when operating in a speed control/limit mode,", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Rqed.Speed.Ctrl.Range.Lower.Limit" : { + "generic_name": "Eng.Rqed.Speed.Ctrl.Range.Lower.Limit", + "bit_position": 191, + "bit_size": 8, + "factor": 10, + "offset": 0, + "min_value": 0, + "max_value": 2500, + "comment": "The minimum engine speed that the engine will allow when operating in a speed control/limit mode.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Mx.Momentary.Override.Time.Limit" : { + "generic_name": "Eng.Mx.Momentary.Override.Time.Limit", + "bit_position": 183, + "bit_size": 8, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 25, + "comment": "The maximum time limit allowed to override the engine's high idle speed.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Mx.Mmntary.Override.Speed.Point7" : { + "generic_name": "Eng.Mx.Mmntary.Override.Speed.Point7", + "bit_position": 167, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "The maximum engine speed above high idle allowed by the engine control during a momentary high idle override.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Reference.Torque" : { + "generic_name": "Eng.Reference.Torque", + "bit_position": 151, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "This parameter is the 100% reference value for all defined indicated engine torque parameters.", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Speed.At.High.Idle.Point6" : { + "generic_name": "Eng.Speed.At.High.Idle.Point6", + "bit_position": 119, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Engine speed of high idle (point 6) of the engine torque map (see PGN 65251 and supporting document).", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Gain.Of.Endspeed.Governor" : { + "generic_name": "Eng.Gain.Of.Endspeed.Governor", + "bit_position": 135, + "bit_size": 16, + "factor": 0.00078125, + "offset": 0, + "min_value": 0, + "max_value": 50.2, + "comment": "The endspeed governor is defined as a linear line with the following equations (Capital letters mean physical values, small", + "unit": "%/rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Percent.Torque.At.Point5" : { + "generic_name": "Eng.Percent.Torque.At.Point5", + "bit_position": 111, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The torque limit that indicates the available engine torque which can be provided by the engine at point 3, 4, and 5 of the", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Speed.At.Point5" : { + "generic_name": "Eng.Speed.At.Point5", + "bit_position": 95, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Engine speed of point 3, 4, and 5 of the engine torque map (see PGN 65251 and supporting document).", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Percent.Torque.At.Point4" : { + "generic_name": "Eng.Percent.Torque.At.Point4", + "bit_position": 87, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The torque limit that indicates the available engine torque which can be provided by the engine at point 3, 4, and 5 of the", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Speed.At.Point4" : { + "generic_name": "Eng.Speed.At.Point4", + "bit_position": 71, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Engine speed of point 3, 4, and 5 of the engine torque map (see PGN 65251 and supporting document).", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Percent.Torque.At.Point3" : { + "generic_name": "Eng.Percent.Torque.At.Point3", + "bit_position": 63, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The torque limit that indicates the available engine torque which can be provided by the engine at point 3, 4, and 5 of the", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Speed.At.Point3" : { + "generic_name": "Eng.Speed.At.Point3", + "bit_position": 47, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Engine speed of point 3, 4, and 5 of the engine torque map (see PGN 65251 and supporting document).", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Percent.Torque.At.Point2" : { + "generic_name": "Eng.Percent.Torque.At.Point2", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The torque limit that indicates the available engine torque which can be provided by the engine at point 2 of the engine", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Speed.At.Point2" : { + "generic_name": "Eng.Speed.At.Point2", + "bit_position": 23, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Engine speed of point 2 of the engine torque map (see PGN 65251 and supporting document).", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Percent.Torque.At.Idle.Point1" : { + "generic_name": "Eng.Percent.Torque.At.Idle.Point1", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The torque limit that indicates the available engine torque which can be provided by the engine at idle speed.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Speed.At.Idle.Point1" : { + "generic_name": "Eng.Speed.At.Idle.Point1", + "bit_position": -1, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Stationary low idle speed of engine which includes influences due to engine temperature (after power up) and other", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64964": { + "comment": "Electronic Brake Controller 5", + "length": 8, + "name": "EBC5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Brake.Temp.Warning" : { + "generic_name": "Brake.Temp.Warning", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter indicates if the temperature in the service brakes exceeds a certain value.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotActive": [0], + "Active": [1], + "Reserved": [2], + "notAvailable": [3] + } + }, + "Prkng.Brke.Actuator.Fully.Activated" : { + "generic_name": "Prkng.Brke.Actuator.Fully.Activated", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates when the parking brake actuator is fully activated.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PrkngBrkActtorNotFullyActivated": [0], + "PrkngBrkeActuatorFullyActivated": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "X.BRAcceleration.Limit" : { + "generic_name": "X.BRAcceleration.Limit", + "bit_position": 15, + "bit_size": 8, + "factor": 0.1, + "offset": -12.5, + "min_value": -12.5, + "max_value": 12.5, + "comment": "The brake system may temporarily or generally limit the maximum brake performance available for external systems.", + "unit": "m/s/s", + "is_big_endian": false, + "is_signed": false + }, + "X.BRActive.Ctrl.Mode" : { + "generic_name": "X.BRActive.Ctrl.Mode", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates which XBR Control Mode is executed by the brake system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoBrakeDemandBeingExecuted": [0], + "DrvrsBrkDmndBngExctdNExtlBrkDmn": [1], + "AddtnMdOfXBRAcclrtnCtrlBngExctd": [2], + "MxMdOfXBRAcclrtnCtrlBngExecuted": [3], + "1110ReservedForSAEAssignment": [4], + "NotAvailable": [15] + } + }, + "X.BRSystem.State" : { + "generic_name": "X.BRSystem.State", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter indicates which external brake control is allowed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AnyExtlBrkeDemandWillBeAccepted": [0], + "OnlyExtlBrkDmndOfHghstXBRPrrtyW": [1], + "NoExtlBrakeDemandWillBeAccepted": [2], + "NotAvailable": [3] + } + }, + "Foundation.Brake.Use" : { + "generic_name": "Foundation.Brake.Use", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter indicates if the brake system presently uses the foundation brakes.", + "is_big_endian": false, + "is_signed": false, + "states": { + "FoundationBrakesNotInUse": [0], + "FoundationBrakesInUse": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Hill.Holder.Mode" : { + "generic_name": "Hill.Holder.Mode", + "bit_position": 4, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal which indicates the current mode of the hill holder function.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Inactive": [0], + "Active": [1], + "ActvBtWllChngTInctvInAShortTime": [2], + "101Reserved": [3], + "HillHolderNotFunctional": [6], + "NotAvailable": [7] + } + }, + "Halt.Brake.Mode" : { + "generic_name": "Halt.Brake.Mode", + "bit_position": 1, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Signal which indicates the current mode of the halt brake function.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Inactive": [0], + "Active": [1], + "ActiveButNotFunctioningProperly": [2], + "101NotDefined": [3], + "Reserved": [6], + "NotAvailable": [7] + } + } + } + }, + "65196": { + "comment": "Wheel Brake Lining Remaining Information", + "length": 8, + "name": "EBC4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Brk.Lnng.Rmnng.Rear.Axle3.Right.Wheel" : { + "generic_name": "Brk.Lnng.Rmnng.Rear.Axle3.Right.Wheel", + "bit_position": 55, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The percentage of brake lining which can still be measured for the right wheel on the rear axle #3.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Brk.Lnng.Rmning.Rear.Axle3.Left.Wheel" : { + "generic_name": "Brk.Lnng.Rmning.Rear.Axle3.Left.Wheel", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The percentage of brake lining which can still be measured for the left wheel on the rear axle #3.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Brk.Lnng.Rmnng.Rear.Axle2.Right.Wheel" : { + "generic_name": "Brk.Lnng.Rmnng.Rear.Axle2.Right.Wheel", + "bit_position": 39, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The percentage of brake lining which can still be measured for the right wheel on the rear axle #2.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Brk.Lnng.Rmning.Rear.Axle2.Left.Wheel" : { + "generic_name": "Brk.Lnng.Rmning.Rear.Axle2.Left.Wheel", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The percentage of brake lining which can still be measured for the left wheel on the rear axle #2.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Brk.Lnng.Rmnng.Rear.Axle1.Right.Wheel" : { + "generic_name": "Brk.Lnng.Rmnng.Rear.Axle1.Right.Wheel", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The percentage of brake lining which can still be measured for the right wheel on the rear axle #1.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Brk.Lnng.Rmning.Rear.Axle1.Left.Wheel" : { + "generic_name": "Brk.Lnng.Rmning.Rear.Axle1.Left.Wheel", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The percentage of brake lining which can still be measured for the left wheel on the rear axle #1.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Brk.Lnng.Rmnng.Front.Axle.Right.Wheel" : { + "generic_name": "Brk.Lnng.Rmnng.Front.Axle.Right.Wheel", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The percentage of brake lining which can still be measured for the right wheel on the front axle.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Brk.Lnng.Rmning.Front.Axle.Left.Wheel" : { + "generic_name": "Brk.Lnng.Rmning.Front.Axle.Left.Wheel", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The percentage of brake lining which can still be measured for the left wheel on the front axle.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65197": { + "comment": "Wheel Application Pressure High Range Information", + "length": 8, + "name": "EBC3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Brk.App.Prss.Hgh.Rng.Rr.Axl3.Rght.Wheel" : { + "generic_name": "Brk.App.Prss.Hgh.Rng.Rr.Axl3.Rght.Wheel", + "bit_position": 55, + "bit_size": 8, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 1250, + "comment": "The brake application pressure for the right wheel on the rear axle #3.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Brk.App.Prss.Hgh.Rng.Rr.Axl3.Left.Wheel" : { + "generic_name": "Brk.App.Prss.Hgh.Rng.Rr.Axl3.Left.Wheel", + "bit_position": 47, + "bit_size": 8, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 1250, + "comment": "The brake application pressure for the left wheel on the rear axle #3.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Brk.App.Prss.Hgh.Rng.Rr.Axl2.Rght.Wheel" : { + "generic_name": "Brk.App.Prss.Hgh.Rng.Rr.Axl2.Rght.Wheel", + "bit_position": 39, + "bit_size": 8, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 1250, + "comment": "The brake application pressure for the right wheel on the rear axle #2.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Brk.App.Prss.Hgh.Rng.Rr.Axl2.Left.Wheel" : { + "generic_name": "Brk.App.Prss.Hgh.Rng.Rr.Axl2.Left.Wheel", + "bit_position": 31, + "bit_size": 8, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 1250, + "comment": "The brake application pressure for the left wheel on the rear axle #2.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Brk.App.Prss.Hgh.Rng.Rr.Axl1.Rght.Wheel" : { + "generic_name": "Brk.App.Prss.Hgh.Rng.Rr.Axl1.Rght.Wheel", + "bit_position": 23, + "bit_size": 8, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 1250, + "comment": "The brake application pressure for the right wheel on the rear axle #1.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Brk.App.Prss.Hgh.Rng.Rr.Axl1.Left.Wheel" : { + "generic_name": "Brk.App.Prss.Hgh.Rng.Rr.Axl1.Left.Wheel", + "bit_position": 15, + "bit_size": 8, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 1250, + "comment": "The brake application pressure for the left wheel on the rear axle #1.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Brk.App.Prss.Hgh.Rng.Frnt.Axl.Rght.Whel" : { + "generic_name": "Brk.App.Prss.Hgh.Rng.Frnt.Axl.Rght.Whel", + "bit_position": 7, + "bit_size": 8, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 1250, + "comment": "The brake application pressure for the right wheel on the front axle.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Brk.App.Prss.Hgh.Rng.Frnt.Axl.Lft.Wheel" : { + "generic_name": "Brk.App.Prss.Hgh.Rng.Frnt.Axl.Lft.Wheel", + "bit_position": -1, + "bit_size": 8, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 1250, + "comment": "The brake application pressure for the left wheel on the front axle.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65215": { + "comment": "Wheel Speed Information", + "length": 8, + "name": "EBC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Rlative.Speed.Rear.Axle2.Right.Wheel" : { + "generic_name": "Rlative.Speed.Rear.Axle2.Right.Wheel", + "bit_position": 55, + "bit_size": 8, + "factor": 0.0625, + "offset": -7.8125, + "min_value": -7.8125, + "max_value": 7.8125, + "comment": "The speed of the rear axle #2, right wheel relative to the front axle speed, SPN 904.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Relative.Speed.Rear.Axle2.Left.Wheel" : { + "generic_name": "Relative.Speed.Rear.Axle2.Left.Wheel", + "bit_position": 47, + "bit_size": 8, + "factor": 0.0625, + "offset": -7.8125, + "min_value": -7.8125, + "max_value": 7.8125, + "comment": "The speed of the rear axle #2, left wheel relative to the front axle speed, SPN 904.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Rlative.Speed.Rear.Axle1.Right.Wheel" : { + "generic_name": "Rlative.Speed.Rear.Axle1.Right.Wheel", + "bit_position": 39, + "bit_size": 8, + "factor": 0.0625, + "offset": -7.8125, + "min_value": -7.8125, + "max_value": 7.8125, + "comment": "The speed of the rear axle #1, right wheel relative to the front axle speed, SPN 904.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Relative.Speed.Rear.Axle1.Left.Wheel" : { + "generic_name": "Relative.Speed.Rear.Axle1.Left.Wheel", + "bit_position": 31, + "bit_size": 8, + "factor": 0.0625, + "offset": -7.8125, + "min_value": -7.8125, + "max_value": 7.8125, + "comment": "The speed of the rear axle #1, left wheel relative to the front axle speed, SPN 904.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Rlative.Speed.Front.Axle.Right.Wheel" : { + "generic_name": "Rlative.Speed.Front.Axle.Right.Wheel", + "bit_position": 23, + "bit_size": 8, + "factor": 0.0625, + "offset": -7.8125, + "min_value": -7.8125, + "max_value": 7.8125, + "comment": "The speed of the front axle, right wheel relative to the front axle speed, SPN 904.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Relative.Speed.Front.Axle.Left.Wheel" : { + "generic_name": "Relative.Speed.Front.Axle.Left.Wheel", + "bit_position": 15, + "bit_size": 8, + "factor": 0.0625, + "offset": -7.8125, + "min_value": -7.8125, + "max_value": 7.8125, + "comment": "The speed of the front axle, left wheel relative to the front axle speed, SPN 904.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Front.Axle.Speed" : { + "generic_name": "Front.Axle.Speed", + "bit_position": -1, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 250.996, + "comment": "The average speed of the two front wheels.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61441": { + "comment": "Electronic Brake Controller 1", + "length": 8, + "name": "EBC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Aux.Shutdown.Switch" : { + "generic_name": "Eng.Aux.Shutdown.Switch", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which requests that all engine fueling stop.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Src.Addrss.Of.Ctrllng.Dvc.Fr.Brk.Cntrl" : { + "generic_name": "Src.Addrss.Of.Ctrllng.Dvc.Fr.Brk.Cntrl", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "The source address of the SAE J1939 device currently controlling the brake system.", + "is_big_endian": false, + "is_signed": false + }, + "Brake.Pedal.Pos" : { + "generic_name": "Brake.Pedal.Pos", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Ratio of brake pedal position to maximum pedal position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Trctr.Mntd.Triler.ABSWarning.Signal" : { + "generic_name": "Trctr.Mntd.Triler.ABSWarning.Signal", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter commands the tractor-mounted trailer ABS optical warning signal.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Trailer.ABSStatus" : { + "generic_name": "Trailer.ABSStatus", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal which indicates that ABS in the trailer is actively controlling the brakes.", + "is_big_endian": false, + "is_signed": false, + "states": { + "InformationAvailableButNotActive": [0], + "TrailerABSActive": [1], + "Reserved": [2], + "NotAvailableOrNotSupported": [3] + } + }, + "Halt.Brake.Switch" : { + "generic_name": "Halt.Brake.Switch", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the position of the halt brake switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HaltBrakeSwitchPassive": [0], + "HaltBrakeSwitchActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "A.TC_.ASRInformation.Signal" : { + "generic_name": "A.TC_.ASRInformation.Signal", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter commands the ATC/ASR driver information signal, for example a dash lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "A.BS_.EBSAmber.Warning.Signal" : { + "generic_name": "A.BS_.EBSAmber.Warning.Signal", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter commands the ABS/EBS amber/yellow optical warning signal", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "E.BSRed.Warning.Signal" : { + "generic_name": "E.BSRed.Warning.Signal", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter commands the EBS red optical warning signal", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "A.BSFully.Operational" : { + "generic_name": "A.BSFully.Operational", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates whether an ABS system is fully operational or whether its functionality is reduced by a defect or by", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotFullyOperational": [0], + "FullyOperational": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Retarder.Selection" : { + "generic_name": "Eng.Retarder.Selection", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The position of the operator controlled selector, expressed as a percentage and determined by the ratio of the current", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Remote.Accel.Enable.Switch" : { + "generic_name": "Remote.Accel.Enable.Switch", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates that the remote accelerator has been enabled and controls the engine.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Derate.Switch" : { + "generic_name": "Eng.Derate.Switch", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal used to activate the torque limiting feature of the engine.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Accel.Interlock.Switch" : { + "generic_name": "Accel.Interlock.Switch", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal used to disable the accelerator and remote accelerator inputs, causing the engine to return to idle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Traction.Ctrl.Override.Switch" : { + "generic_name": "Traction.Ctrl.Override.Switch", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the position of the traction control override switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailableNotInstalled": [3] + } + }, + "A.SRHill.Holder.Switch" : { + "generic_name": "A.SRHill.Holder.Switch", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the position of the ASR [hill holder] switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ASRHillHolderSwitchPassive": [0], + "ASRHillHolderSwitchActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "A.SROffroad.Switch" : { + "generic_name": "A.SROffroad.Switch", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the position of the ASR off-road switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ASROffroadSwitchPassive": [0], + "ASROffroadSwitchActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "A.BSOffroad.Switch" : { + "generic_name": "A.BSOffroad.Switch", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the position of the ABS off-road switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ABSOffroadSwitchPassive": [0], + "ABSOffroadSwitchActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "E.BSBrake.Switch" : { + "generic_name": "E.BSBrake.Switch", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates that the brake pedal is being pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "BrakePedalIsNotBeingPressed": [0], + "BrakePedalIsBeingPressed": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Anti.Lock.Braking.Active" : { + "generic_name": "Anti.Lock.Braking.Active", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal which indicates that the ABS is active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ABSPassiveButInstalled": [0], + "ABSActive": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "A.SRBrake.Ctrl.Active" : { + "generic_name": "A.SRBrake.Ctrl.Active", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal which indicates that ASR brake control is active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ASRBrakeCtrlPassiveButInstalled": [0], + "ASRBrakeCtrlActive": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "A.SREng.Ctrl.Active" : { + "generic_name": "A.SREng.Ctrl.Active", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal which indicates that ASR engine control has been commanded to be active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ASREngCtrlPassiveButInstalled": [0], + "ASREngCtrlActive": [1], + "Reserved": [2], + "NotAvailable": [3] + } + } + } + }, + "61446": { + "comment": "Electronic Axle Controller 1", + "length": 8, + "name": "EAC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Rear.Axle.Group.Engagement.Status" : { + "generic_name": "Rear.Axle.Group.Engagement.Status", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Rear axle group engagement status", + "is_big_endian": false, + "is_signed": false, + "states": { + "rearAxleGroupDisengaged": [0], + "rearAxleGroupEngaged": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Front.Axle.Group.Engagement.Status" : { + "generic_name": "Front.Axle.Group.Engagement.Status", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Front axle group engagement status", + "is_big_endian": false, + "is_signed": false, + "states": { + "frontAxleGroupDisengaged": [0], + "frontAxleGroupEngaged": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Diff.Lock.State.Central.Rear" : { + "generic_name": "Diff.Lock.State.Central.Rear", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State used which indicates the condition of the central rear differential lock.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DiffLockDisengaged": [0], + "DiffLockEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Diff.Lock.State.Central.Front" : { + "generic_name": "Diff.Lock.State.Central.Front", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State used which indicates the condition of the central front differential lock.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DiffLockDisengaged": [0], + "DiffLockEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Diff.Lock.State.Central" : { + "generic_name": "Diff.Lock.State.Central", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State used which indicates the condition of the central differential lock.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DiffLockDisengaged": [0], + "DiffLockEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Diff.Lock.State.Rear.Axle2" : { + "generic_name": "Diff.Lock.State.Rear.Axle2", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State used which indicates the condition of the rear axle 2 differential lock.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DiffLockDisengaged": [0], + "DiffLockEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Diff.Lock.State.Rear.Axle1" : { + "generic_name": "Diff.Lock.State.Rear.Axle1", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State used which indicates the condition of the rear axle 1 differential lock.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DiffLockDisengaged": [0], + "DiffLockEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Diff.Lock.State.Front.Axle2" : { + "generic_name": "Diff.Lock.State.Front.Axle2", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State used which indicates the condition of the front axle 2 differential lock.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DiffLockDisengaged": [0], + "DiffLockEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Diff.Lock.State.Front.Axle1" : { + "generic_name": "Diff.Lock.State.Front.Axle1", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State used which indicates the condition of the front axle 1 differential lock.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DiffLockDisengaged": [0], + "DiffLockEngaged": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Location" : { + "generic_name": "Location", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "To identify to which of several similar devices (such as tires or fuel tanks) the information applies.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65172": { + "comment": "Engine Auxiliary Coolant", + "length": 8, + "name": "EAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Sea.Water.Pump.Outlet.Press" : { + "generic_name": "Sea.Water.Pump.Outlet.Press", + "bit_position": 15, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "Gauge pressure of liquid found at outlet of sea water pump in sea water cooling system.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Aux.Coolant.Temp" : { + "generic_name": "Eng.Aux.Coolant.Temp", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of coolant found in the intercooler which is located after the turbocharger.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Aux.Coolant.Press" : { + "generic_name": "Eng.Aux.Coolant.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Gage pressure of coolant found in the intercooler which is located after the turbocharger.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65131": { + "comment": "Driver's Identification", + "length": 8, + "name": "DI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Driver2" : { + "generic_name": "Driver2", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Driver1" : { + "generic_name": "Driver1", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65276": { + "comment": "Dash Display", + "length": 8, + "name": "DD", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Fuel.Level2" : { + "generic_name": "Fuel.Level2", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Ratio of volume of fuel to the total volume of fuel in the second or right-side storage container.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Fuel.Level1" : { + "generic_name": "Fuel.Level1", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Ratio of volume of fuel to the total volume of fuel storage container.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Cargo.Ambient.Temp" : { + "generic_name": "Cargo.Ambient.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of air inside vehicle container used to accommodate cargo.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Oil.Filter.Diff.Press" : { + "generic_name": "Eng.Oil.Filter.Diff.Press", + "bit_position": 23, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Change in engine oil pressure, measured across the filter, due to the filter and any accumulation of solid or semisolid", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Fuel.Filter.Diff.Press" : { + "generic_name": "Eng.Fuel.Filter.Diff.Press", + "bit_position": 15, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "Differential pressure measured across the fuel filter located between the fuel tank and the supply pump.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Washer.Fluid.Level" : { + "generic_name": "Washer.Fluid.Level", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Ratio of volume of liquid to total container volume of fluid reservoir in windshield wash system.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64966": { + "comment": "Cold Start Aids", + "length": 8, + "name": "CSA", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Start.Enable.Device2.Config" : { + "generic_name": "Eng.Start.Enable.Device2.Config", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "The start enable device installed for start enable device 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoStartEnableDevice2Installed": [0], + "GlowPlugsInstalled": [1], + "FuelledStartInstalled": [2], + "EtherInjectionInstalled": [3], + "ElctricIntakeAirHeaterInstalled": [4], + "1110Reserved": [5], + "NotAvailable": [15] + } + }, + "Eng.Start.Enable.Device1.Config" : { + "generic_name": "Eng.Start.Enable.Device1.Config", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "The start enable device installed for start enable device 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoStartEnableDevice1Installed": [0], + "GlowPlugsInstalled": [1], + "FuelledStartInstalled": [2], + "EtherInjectionInstalled": [3], + "ElctricIntakeAirHeaterInstalled": [4], + "1110Reserved": [5], + "NotAvailable": [15] + } + }, + "Eng.Start.Enable.Device2" : { + "generic_name": "Eng.Start.Enable.Device2", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Devices that assist an engine in starting, e.", + "is_big_endian": false, + "is_signed": false, + "states": { + "StartEnableOFF": [0], + "StartEnableON": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Start.Enable.Device1" : { + "generic_name": "Eng.Start.Enable.Device1", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Devices that assist an Engine in starting, e.", + "is_big_endian": false, + "is_signed": false, + "states": { + "StartEnableOFF": [0], + "StartEnableON": [1], + "Reserved": [2], + "NotAvailable": [3] + } + } + } + }, + "65136": { + "comment": "Combination Vehicle Weight", + "length": 8, + "name": "CVW", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Powered.Vehicle.Weight" : { + "generic_name": "Powered.Vehicle.Weight", + "bit_position": -1, + "bit_size": 16, + "factor": 10, + "offset": 0, + "min_value": 0, + "max_value": 642550, + "comment": "Total mass imposed by the tires of the powered vehicle on the road surface.", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Gross.Combination.Vehicle.Weight" : { + "generic_name": "Gross.Combination.Vehicle.Weight", + "bit_position": 15, + "bit_size": 16, + "factor": 10, + "offset": 0, + "min_value": 0, + "max_value": 642550, + "comment": "The total weight of the truck and all attached trailers.", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "53246": { + "comment": "Continuous Torque & Speed Limit Request", + "length": 8, + "name": "CTL", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Mx.Cntnuous.Retarder.Torque.Limit.Rq" : { + "generic_name": "Mx.Cntnuous.Retarder.Torque.Limit.Rq", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Requested maximum continuous retarder torque (operating range: -125 to 0%)", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Mn.Cntnuous.Retarder.Torque.Limit.Rq" : { + "generic_name": "Mn.Cntnuous.Retarder.Torque.Limit.Rq", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Requested minimum continuous retarder torque (operating range: -125 to 0%)", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Mx.Cntinuous.Retarder.Speed.Limit.Rq" : { + "generic_name": "Mx.Cntinuous.Retarder.Speed.Limit.Rq", + "bit_position": 39, + "bit_size": 8, + "factor": 32, + "offset": 0, + "min_value": 0, + "max_value": 8000, + "comment": "Requested maximum continuous retarder speed", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Mn.Cntinuous.Retarder.Speed.Limit.Rq" : { + "generic_name": "Mn.Cntinuous.Retarder.Speed.Limit.Rq", + "bit_position": 31, + "bit_size": 8, + "factor": 32, + "offset": 0, + "min_value": 0, + "max_value": 8000, + "comment": "Requested minimum continuous retarder speed", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Torque.Limit.Rq.Max.Continuous" : { + "generic_name": "Eng.Torque.Limit.Rq.Max.Continuous", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Requested maximum continuous engine torque (operating range: 0 to 125%)", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Torque.Limit.Rq.Min.Continuous" : { + "generic_name": "Eng.Torque.Limit.Rq.Min.Continuous", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Requested minimum continuous engine torque (operating range: 0 to 125%)", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Speed.Limit.Rq.Max.Continuous" : { + "generic_name": "Eng.Speed.Limit.Rq.Max.Continuous", + "bit_position": 7, + "bit_size": 8, + "factor": 32, + "offset": 0, + "min_value": 0, + "max_value": 8000, + "comment": "Requested maximum continuous engine speed", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Speed.Limit.Rq.Min.Continuous" : { + "generic_name": "Eng.Speed.Limit.Rq.Min.Continuous", + "bit_position": -1, + "bit_size": 8, + "factor": 32, + "offset": 0, + "min_value": 0, + "max_value": 8000, + "comment": "Requested minimum continuous engine speed", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65152": { + "comment": "Combustion Time 6", + "length": 8, + "name": "CT6", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Average.Combustion.Time" : { + "generic_name": "Eng.Average.Combustion.Time", + "bit_position": 15, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The average combustion time of all cylinders of an engine.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Desired.Combustion.Time" : { + "generic_name": "Eng.Desired.Combustion.Time", + "bit_position": -1, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The desired combustion time based upon engine load and speed lookup maps.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65151": { + "comment": "Combustion Time 5", + "length": 8, + "name": "CT5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl20.Combustion.Time" : { + "generic_name": "Eng.Cyl20.Combustion.Time", + "bit_position": 47, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl19.Combustion.Time" : { + "generic_name": "Eng.Cyl19.Combustion.Time", + "bit_position": 31, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl18.Combustion.Time" : { + "generic_name": "Eng.Cyl18.Combustion.Time", + "bit_position": 15, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl17.Combustion.Time" : { + "generic_name": "Eng.Cyl17.Combustion.Time", + "bit_position": -1, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65150": { + "comment": "Combustion Time 4", + "length": 8, + "name": "CT4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl16.Combustion.Time" : { + "generic_name": "Eng.Cyl16.Combustion.Time", + "bit_position": 47, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl15.Combustion.Time" : { + "generic_name": "Eng.Cyl15.Combustion.Time", + "bit_position": 31, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl14.Combustion.Time" : { + "generic_name": "Eng.Cyl14.Combustion.Time", + "bit_position": 15, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl13.Combustion.Time" : { + "generic_name": "Eng.Cyl13.Combustion.Time", + "bit_position": -1, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65149": { + "comment": "Combustion Time 3", + "length": 8, + "name": "CT3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl12.Combustion.Time" : { + "generic_name": "Eng.Cyl12.Combustion.Time", + "bit_position": 47, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl11.Combustion.Time" : { + "generic_name": "Eng.Cyl11.Combustion.Time", + "bit_position": 31, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl10.Combustion.Time" : { + "generic_name": "Eng.Cyl10.Combustion.Time", + "bit_position": 15, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl9.Combustion.Time" : { + "generic_name": "Eng.Cyl9.Combustion.Time", + "bit_position": -1, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65148": { + "comment": "Combustion Time 2", + "length": 8, + "name": "CT2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl8.Combustion.Time" : { + "generic_name": "Eng.Cyl8.Combustion.Time", + "bit_position": 47, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl7.Combustion.Time" : { + "generic_name": "Eng.Cyl7.Combustion.Time", + "bit_position": 31, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl6.Combustion.Time" : { + "generic_name": "Eng.Cyl6.Combustion.Time", + "bit_position": 15, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl5.Combustion.Time" : { + "generic_name": "Eng.Cyl5.Combustion.Time", + "bit_position": -1, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65147": { + "comment": "Combustion Time 1", + "length": 8, + "name": "CT1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Cyl4.Combustion.Time" : { + "generic_name": "Eng.Cyl4.Combustion.Time", + "bit_position": 47, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl3.Combustion.Time" : { + "generic_name": "Eng.Cyl3.Combustion.Time", + "bit_position": 31, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl2.Combustion.Time" : { + "generic_name": "Eng.Cyl2.Combustion.Time", + "bit_position": 15, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Cyl1.Combustion.Time" : { + "generic_name": "Eng.Cyl1.Combustion.Time", + "bit_position": -1, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "The amount of time from when the ignition of the fuel is initiated to when the fuel is completely ignited (i.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64969": { + "comment": "Electronic Control Module Information", + "length": 8, + "name": "CMI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Total.Count.Of.Config.Changes.Made" : { + "generic_name": "Total.Count.Of.Config.Changes.Made", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Total number of times changes have been made to any of the configurable parameters.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64980": { + "comment": "Cab Message 3", + "length": 8, + "name": "CM3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trans.Oil.Level.Rq" : { + "generic_name": "Trans.Oil.Level.Rq", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Conveys operator or vehicle system desire for a transmission oil level reading to be taken.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoTransOilLevelReadingDesired": [0], + "TransOilLevelReadingDesired": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Fifth.Wheel.Release.Ctrl" : { + "generic_name": "Fifth.Wheel.Release.Ctrl", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Operator input used to release the fifth wheel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CouplerLocked": [0], + "CplrUnlckdTrlrCnBUnhtchdHitched": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Ffth.Whl.Rlase.Ctrl.Security.Lockout" : { + "generic_name": "Ffth.Whl.Rlase.Ctrl.Security.Lockout", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Operator's fifth wheel release control interlock.", + "is_big_endian": false, + "is_signed": false, + "states": { + "FifthWheelReleaseDisabled": [0], + "FifthWheelReleaseEnabled": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Transfer.Case.Selector.Switch" : { + "generic_name": "Transfer.Case.Selector.Switch", + "bit_position": -1, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Operator switch to select the condition of the transfer case.", + "is_big_endian": false, + "is_signed": false, + "states": { + "2WheelHigh": [0], + "4WheelHigh": [1], + "Neutral": [2], + "2WheelLow": [3], + "4WheelLow": [4], + "ReservedForSAEAssignment": [5], + "ErrorIndicator": [6], + "NotAvailable": [7] + } + } + } + }, + "57598": { + "comment": "Cab Message 1", + "length": 8, + "name": "CM1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Dsl.Prtclt.Fltr.Rgnrton.Force.Switch" : { + "generic_name": "Dsl.Prtclt.Fltr.Rgnrton.Force.Switch", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of a switch available to the operator that forces diesel particulate filter regeneration.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Dsl.Prtclt.Fltr.Rgnrtn.Inhbit.Switch" : { + "generic_name": "Dsl.Prtclt.Fltr.Rgnrtn.Inhbit.Switch", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the state of a switch available to the operator that inhibits diesel particulate filter regeneration.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Selected.Max.Vehicle.Speed.Limit" : { + "generic_name": "Selected.Max.Vehicle.Speed.Limit", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "User selected maximum vehicle speed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "sUsdTIndctThtAMxVhclSpdIsNtSlct": [0] + } + }, + "Rq.Cab.Zone.Heating" : { + "generic_name": "Rq.Cab.Zone.Heating", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Request to activate cab zone heating.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DoNotCabEngZone": [0], + "HeatCabZone": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Rq.Eng.Zone.Heating" : { + "generic_name": "Rq.Eng.Zone.Heating", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Request to activate engine zone heating.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DoNotHeatEngZone": [0], + "HeatEngZone": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Aux.Heater.Mode.Rq" : { + "generic_name": "Aux.Heater.Mode.Rq", + "bit_position": 47, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Request to activate the auxiliary heater.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DeactivateAuxHeater": [0], + "OffDTADRPrErpnRgltnsFrTrnsprtOf": [1], + "EconomyMode": [2], + "NormalMode": [3], + "1101NotDefined": [4], + "Reserved": [14], + "DontCare_TakeNoAction": [15] + } + }, + "Eng.Automatic.Start.Enable.Switch" : { + "generic_name": "Eng.Automatic.Start.Enable.Switch", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which enables the idle management system to be enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "SwitchInOffState": [0], + "SwitchInOnState": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Atmatic.Gear.Shifting.Enable.Switch" : { + "generic_name": "Atmatic.Gear.Shifting.Enable.Switch", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that automated gear shifting is enabled via a switch", + "is_big_endian": false, + "is_signed": false, + "states": { + "AutomatedGearShiftingIsDisabled": [0], + "AutomatedGearShiftingIsEnabled": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Vhcl.Lmtng.Spd.Gvernor.Enable.Switch" : { + "generic_name": "Vhcl.Lmtng.Spd.Gvernor.Enable.Switch", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which enables the Vehicle Limiting Speed Governor (VLSG) such that the vehicle speed may be either", + "is_big_endian": false, + "is_signed": false, + "states": { + "SwitchDisabled": [0], + "SwitchedEnabled": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Vhcl.Lmtng.Spd.Gvrnr.Incrment.Switch" : { + "generic_name": "Vhcl.Lmtng.Spd.Gvrnr.Incrment.Switch", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which increases the Vehicle Limiting Speed Governor (VLSG).", + "is_big_endian": false, + "is_signed": false, + "states": { + "SwitchInOffState": [0], + "SwitchInOnStateIncrease": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Vhcl.Lmtng.Spd.Gvrnr.Dcrement.Switch" : { + "generic_name": "Vhcl.Lmtng.Spd.Gvrnr.Dcrement.Switch", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which decreases the Vehicle Limiting Speed Governor (VLSG).", + "is_big_endian": false, + "is_signed": false, + "states": { + "SwitchInOffState": [0], + "SwitchInOnStateDecrease": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Seat.Belt.Switch" : { + "generic_name": "Seat.Belt.Switch", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of switch used to determine if Seat Belt is buckled", + "is_big_endian": false, + "is_signed": false, + "states": { + "NOTBuckled": [0], + "OKSeatBeltIsBuckled": [1], + "ErrrSwtchStteCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Operator.Seat.Direction.Switch" : { + "generic_name": "Operator.Seat.Direction.Switch", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Senses whether the operator seat is in the forward driving position", + "is_big_endian": false, + "is_signed": false, + "states": { + "OperatorSeatNotFacingForward": [0], + "OperatorSeatIsFacingForward": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Battery.Main.Switch.Hold.Rq" : { + "generic_name": "Battery.Main.Switch.Hold.Rq", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Request to hold the battery main switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ReleaseBatteryMainSwitch": [0], + "HoldBatteryMainSwitch": [1], + "undefined": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Aux.Heater.Coolant.Pump.Rq" : { + "generic_name": "Aux.Heater.Coolant.Pump.Rq", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether to activate the auxiliary heater coolant water pump.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DeactivateWaterPump": [0], + "ActivateWaterPump": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Cab.Interior.Temp.Cmd" : { + "generic_name": "Cab.Interior.Temp.Cmd", + "bit_position": 7, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Parameter used to command a certain cab interior temperature.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Rqed.Percent.Fan.Speed" : { + "generic_name": "Rqed.Percent.Fan.Speed", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Fan speed as a ratio of the actual fan drive (current speed) to the fully engaged fan drive (maximum fan speed).", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "53502": { + "comment": "Cab Illumination Message", + "length": 8, + "name": "CL", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Illumination.Brightness.Percent" : { + "generic_name": "Illumination.Brightness.Percent", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Commanded backlight brightness level for all cab displays", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65259": { + "comment": "Component Identification", + "length": 8, + "name": "CI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Unit.Number" : { + "generic_name": "Unit.Number", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Serial.Number" : { + "generic_name": "Serial.Number", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Model" : { + "generic_name": "Model", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Make" : { + "generic_name": "Make", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65265": { + "comment": "Cruise Control/Vehicle Speed", + "length": 8, + "name": "CCVS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Park.Brake.Release.Inhibit.Rq" : { + "generic_name": "Park.Brake.Release.Inhibit.Rq", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Park Brake Release Inhibit Request signals the desire that an applied park brake remain applied and limit the ability of the", + "is_big_endian": false, + "is_signed": false, + "states": { + "ParkBrakeReleaseInhibitNotRqed": [0], + "ParkBrakeReleaseInhibitRqed": [1], + "SAEReserved": [2], + "Unavailable": [3] + } + }, + "P.TOGovernor.State" : { + "generic_name": "P.TOGovernor.State", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "This parameter is used to indicate the current state or mode of operation by the power takeoff (PTO) governor.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_Disabled": [0], + "Hold": [1], + "RemoteHold": [2], + "Standby": [3], + "RemoteStandby": [4], + "Set": [5], + "Decelerate_Coast": [6], + "Resume": [7], + "Accelerate": [8], + "AccelOverride": [9], + "PreprogrammedSetSpeed1": [10], + "PreprogrammedSetSpeed2": [11], + "PreprogrammedSetSpeed3": [12], + "PreprogrammedSetSpeed4": [13], + "PreprogrammedSetSpeed5": [14], + "PreprogrammedSetSpeed6": [15], + "PreprogrammedSetSpeed7": [16], + "PreprogrammedSetSpeed8": [17], + "PTOSetSpeedMemory1": [18], + "PTOSetSpeedMemory2": [19], + "11110NotDefined": [20], + "NotAvailable": [31] + } + }, + "Eng.Shutdown.Override.Switch" : { + "generic_name": "Eng.Shutdown.Override.Switch", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the position of the engine shutdown override switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Test.Mode.Switch" : { + "generic_name": "Eng.Test.Mode.Switch", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the position of the engine test mode switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Idle.Decrement.Switch" : { + "generic_name": "Eng.Idle.Decrement.Switch", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the position of the idle decrement switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Idle.Increment.Switch" : { + "generic_name": "Eng.Idle.Increment.Switch", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the position of the idle increment switch.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Cruise.Ctrl.States" : { + "generic_name": "Cruise.Ctrl.States", + "bit_position": 52, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "This parameter is used to indicate the current state, or mode, of operation by the cruise control device.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off_Disabled": [0], + "Hold": [1], + "Accelerate": [2], + "Decelerate": [3], + "Resume": [4], + "Set": [5], + "AccelOverride": [6], + "NotAvailable": [7] + } + }, + "Cruise.Ctrl.Set.Speed" : { + "generic_name": "Cruise.Ctrl.Set.Speed", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Value of set (chosen) velocity of velocity control system.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Cruise.Ctrl.Accelerate.Switch" : { + "generic_name": "Cruise.Ctrl.Accelerate.Switch", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal of the cruise control activator which indicates that the activator is in the position [accelerate.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CrsCtrlActvtrNotInPosAccelerate": [0], + "CrsCtrlActivatorInPosAccelerate": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Cruise.Ctrl.Resume.Switch" : { + "generic_name": "Cruise.Ctrl.Resume.Switch", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal of the cruise control activator which indicates that the activator is in the position [resume.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CrseCtrlActivatorNotInPosResume": [0], + "CruiseCtrlActivatorInPosResume": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Cruise.Ctrl.Coast.Switch" : { + "generic_name": "Cruise.Ctrl.Coast.Switch", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal of the cruise control activator which indicates that the activator is in the position [coast (decelerate).", + "is_big_endian": false, + "is_signed": false, + "states": { + "CriseCtrlActivatorNotInPosCoast": [0], + "CruiseCtrlActivatorInPosCoast": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Cruise.Ctrl.Set.Switch" : { + "generic_name": "Cruise.Ctrl.Set.Switch", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal of the cruise control activator which indicates that the activator is in the position [set.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CruiseCtrlActivatorNotInPosSet": [0], + "CruiseCtrlActivatorInPosSet": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Clutch.Switch" : { + "generic_name": "Clutch.Switch", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates that the clutch pedal is being pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ClutchPedalReleased": [0], + "ClutchPedalDepressed": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Brake.Switch" : { + "generic_name": "Brake.Switch", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates that the driver operated brake foot pedal is being pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "BrakePedalReleased": [0], + "BrakePedalDepressed": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Cruise.Ctrl.Enable.Switch" : { + "generic_name": "Cruise.Ctrl.Enable.Switch", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates that it is possible to manage the cruise control function.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CruiseCtrlDisabled": [0], + "CruiseCtrlEnabled": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Cruise.Ctrl.Active" : { + "generic_name": "Cruise.Ctrl.Active", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Cruise control is switched on.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CruiseCtrlSwitchedOff": [0], + "CruiseCtrlSwitchedOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Wheel.Based.Vehicle.Speed" : { + "generic_name": "Wheel.Based.Vehicle.Speed", + "bit_position": 7, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 250.996, + "comment": "Speed of the vehicle as calculated from wheel or tailshaft speed.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Cruise.Ctrl.Pause.Switch" : { + "generic_name": "Cruise.Ctrl.Pause.Switch", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the position of the Cruise Control Pause Switch used on Remote Cruise Control applications.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "ErrorIndicator": [2], + "TakeNoAction": [3] + } + }, + "Parking.Brake.Switch" : { + "generic_name": "Parking.Brake.Switch", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates when the parking brake is set.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ParkingBrakeNotSet": [0], + "ParkingBrakeSet": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Two.Speed.Axle.Switch" : { + "generic_name": "Two.Speed.Axle.Switch", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch signal which indicates the current axle range.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LowSpeedRange": [0], + "HighSpeedRange": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "65261": { + "comment": "Cruise Control/Vehicle Speed Setup", + "length": 8, + "name": "CCSS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Cruise.Ctrl.Low.Set.Limit.Speed" : { + "generic_name": "Cruise.Ctrl.Low.Set.Limit.Speed", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Minimum vehicle velocity at which cruise can be set or minimum vehicle velocity for cruise operation before it will exit", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Cruise.Ctrl.High.Set.Limit.Speed" : { + "generic_name": "Cruise.Ctrl.High.Set.Limit.Speed", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Maximum vehicle velocity at which cruise can be set.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Max.Vehicle.Speed.Limit" : { + "generic_name": "Max.Vehicle.Speed.Limit", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Maximum vehicle velocity allowed.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65127": { + "comment": "Climate Control Configuration", + "length": 8, + "name": "CCC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aux.Heater.Max.Output.Power" : { + "generic_name": "Aux.Heater.Max.Output.Power", + "bit_position": -1, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "The maximum output power of the auxiliary heater.", + "unit": "W", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65212": { + "comment": "Compression/Service Brake Information", + "length": 16, + "name": "CBI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trip.Service.Brake.Apps" : { + "generic_name": "Trip.Service.Brake.Apps", + "bit_position": 95, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4227858431, + "comment": "Total number of times the service brakes have been activated since the last trip reset.", + "unit": "appl", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Service.Brake.Distance" : { + "generic_name": "Trip.Service.Brake.Distance", + "bit_position": 63, + "bit_size": 32, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 526385151.9, + "comment": "Total distance over which the service brakes have been active since the last trip reset.", + "unit": "km", + "is_big_endian": false, + "is_signed": false + }, + "Trip.Compression.Brake.Distance" : { + "generic_name": "Trip.Compression.Brake.Distance", + "bit_position": 31, + "bit_size": 32, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 526385151.9, + "comment": "Total distance over which the compression brakes have been active since the last trip reset.", + "unit": "km", + "is_big_endian": false, + "is_signed": false + }, + "Total.Compression.Brake.Distance" : { + "generic_name": "Total.Compression.Brake.Distance", + "bit_position": -1, + "bit_size": 32, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 526385151.9, + "comment": "Total distance over which the compression brakes have been active for the life of the engine.", + "unit": "km", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64993": { + "comment": "Cab A/C Climate System Information", + "length": 8, + "name": "CACI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Cb.A_.CRfrgrnt.Cmprssor.Outlet.Press" : { + "generic_name": "Cb.A_.CRfrgrnt.Cmprssor.Outlet.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 16, + "offset": 0, + "min_value": 0, + "max_value": 4000, + "comment": "This is the gage pressure at the compressor outlet in the cab air conditioning system.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65104": { + "comment": "Battery Temperature", + "length": 8, + "name": "BT1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Battery2.Temp" : { + "generic_name": "Battery2.Temp", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of the battery 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Battery1.Temp" : { + "generic_name": "Battery1.Temp", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of the battery 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64775": { + "comment": "Direct Lamp Control Command 1", + "length": 8, + "name": "DLCC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Fuel.Filter.Restricted.Lamp.Cmd" : { + "generic_name": "Eng.Fuel.Filter.Restricted.Lamp.Cmd", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Vehicle Fuel Filter Restricted Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Flash": [2], + "NotAvailable": [3] + } + }, + "Eng.Air.Filter.Restriction.Lamp.Cmd" : { + "generic_name": "Eng.Air.Filter.Restriction.Lamp.Cmd", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Engine Air Filter Restriction Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Idle.Management.Active.Lamp.Cmd" : { + "generic_name": "Eng.Idle.Management.Active.Lamp.Cmd", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Engine Idle Management Active Lamp", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Coolant.Level.Low.Lamp.Cmd" : { + "generic_name": "Eng.Coolant.Level.Low.Lamp.Cmd", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Engine Coolant Level Low Lamp", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Coolant.Temp.High.Lamp.Cmd" : { + "generic_name": "Eng.Coolant.Temp.High.Lamp.Cmd", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Engine Coolant Temperature High Lamp", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Oil.Press.Low.Lamp.Cmd" : { + "generic_name": "Eng.Oil.Press.Low.Lamp.Cmd", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Engine Oil Pressure Low Lamp", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Cmprssn.Brk.Enbl.Swtch.Indctr.Lmp.Cmd" : { + "generic_name": "Cmprssn.Brk.Enbl.Swtch.Indctr.Lmp.Cmd", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling Compression Brake Enable Switch Indicator Lamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOFF": [0], + "LampON": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Brake.Active.Lamp.Cmd" : { + "generic_name": "Eng.Brake.Active.Lamp.Cmd", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Engine Brake Active Lamp", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "O.BDMalfunction.Indicator.Lamp.Cmd" : { + "generic_name": "O.BDMalfunction.Indicator.Lamp.Cmd", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the OBD Malfunction Indicator Lamp", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Red.Stop.Lamp.Cmd" : { + "generic_name": "Eng.Red.Stop.Lamp.Cmd", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Engine Red Stop Lamp", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Amber.Warning.Lamp.Cmd" : { + "generic_name": "Eng.Amber.Warning.Lamp.Cmd", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Engine Amber Warning Lamp", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Eng.Protect.Lamp.Cmd" : { + "generic_name": "Eng.Protect.Lamp.Cmd", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal directly controlling the Engine Protect Lamp", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + } + } + }, + "64792": { + "comment": "Collision Sensor Information", + "length": 8, + "name": "CSI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Rear.Collision.Sensor4.Type" : { + "generic_name": "Rear.Collision.Sensor4.Type", + "bit_position": 59, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Rear Collision Sensor 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Rear.Collision.Sensor3.Type" : { + "generic_name": "Rear.Collision.Sensor3.Type", + "bit_position": 55, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Rear Collision Sensor 3.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Rear.Collision.Sensor2.Type" : { + "generic_name": "Rear.Collision.Sensor2.Type", + "bit_position": 51, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Rear Collision Sensor 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Rear.Collision.Sensor1.Type" : { + "generic_name": "Rear.Collision.Sensor1.Type", + "bit_position": 47, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Rear Collision Sensor 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Sde.Collision.Sensor.Rear.Right.Type" : { + "generic_name": "Sde.Collision.Sensor.Rear.Right.Type", + "bit_position": 43, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Side Collision Sensor Rear - Right.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Sd.Cllsion.Sensor.Mid.Rear.Right.Type" : { + "generic_name": "Sd.Cllsion.Sensor.Mid.Rear.Right.Type", + "bit_position": 39, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Side Collision Sensor Mid Rear - Right.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Sd.Cllson.Sensor.Mid.Front.Right.Type" : { + "generic_name": "Sd.Cllson.Sensor.Mid.Front.Right.Type", + "bit_position": 35, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Side Collision Sensor Mid Front - Right.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Sd.Collision.Sensor.Front.Right.Type" : { + "generic_name": "Sd.Collision.Sensor.Front.Right.Type", + "bit_position": 31, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Side Collision Sensor Front - Right.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Side.Collision.Sensor.Rear.Left.Type" : { + "generic_name": "Side.Collision.Sensor.Rear.Left.Type", + "bit_position": 27, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Side Collision Sensor Rear - Left.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Sd.Cllision.Sensor.Mid.Rear.Left.Type" : { + "generic_name": "Sd.Cllision.Sensor.Mid.Rear.Left.Type", + "bit_position": 23, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Side Collision Sensor Mid Rear - Left.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Sd.Cllsion.Sensor.Mid.Front.Left.Type" : { + "generic_name": "Sd.Cllsion.Sensor.Mid.Front.Left.Type", + "bit_position": 19, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Side Collision Sensor Mid Front - Left.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Sde.Collision.Sensor.Front.Left.Type" : { + "generic_name": "Sde.Collision.Sensor.Front.Left.Type", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Side Collision Sensor Front - Left.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Frontal.Collision.Sensor4.Type" : { + "generic_name": "Frontal.Collision.Sensor4.Type", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Frontal Collision Sensor 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Frontal.Collision.Sensor3.Type" : { + "generic_name": "Frontal.Collision.Sensor3.Type", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Frontal Collision Sensor 3.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Frontal.Collision.Sensor2.Type" : { + "generic_name": "Frontal.Collision.Sensor2.Type", + "bit_position": 3, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Frontal Collision Sensor 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + }, + "Frontal.Collision.Sensor1.Type" : { + "generic_name": "Frontal.Collision.Sensor1.Type", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Type of Frontal Collision Sensor 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AccelerationSensor": [0], + "PressSensor": [1], + "RollrateSensor": [2], + "SonicSensor": [3], + "FiberopticSensor": [4], + "RadarSensor": [5], + "LidarSensor": [6], + "OpticalSensor": [7], + "1101Reserved": [8], + "ErrrTypOfSnsrCannotBeDetermined": [14], + "NotAvailable": [15] + } + } + } + }, + "61483": { + "comment": "Crash Notification", + "length": 8, + "name": "CN", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Crash.Checksum" : { + "generic_name": "Crash.Checksum", + "bit_position": 59, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "The Crash Checksum is used to verify the signal path from the airbag ECU to other devices in case of a crash.", + "is_big_endian": false, + "is_signed": false + }, + "Crash.Counter" : { + "generic_name": "Crash.Counter", + "bit_position": 55, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "The Crash Counter prevents other ECUs from reacting to a faulty transmission of the Crash Notification PGN and serves", + "is_big_endian": false, + "is_signed": false + }, + "Crash.Type" : { + "generic_name": "Crash.Type", + "bit_position": -1, + "bit_size": 5, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "Type of crash event.", + "is_big_endian": false, + "is_signed": false, + "states": { + "FrontalCrash": [1], + "RearCrash": [2], + "SideCrash": [8], + "Rollover": [16] + } + } + } + }, + "64757": { + "comment": "Charge Air Cooler 2 Precooler", + "length": 8, + "name": "CAC2P", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Chrg.Ar.Clr2.Prcooler.Efficiency" : { + "generic_name": "Eng.Chrg.Ar.Clr2.Prcooler.Efficiency", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Engine charge air cooler 2 (CAC2) precooler efficiency is an indication of the precooler's ability to reduce the temperature", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Chrg.Ar.Clr2.Prcooler.Outlet.Temp" : { + "generic_name": "Eng.Chrg.Ar.Clr2.Prcooler.Outlet.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion air measured at the charge air cooler 2 precooler outlet.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Chrg.Ar.Clr2.Prcooler.Intake.Temp" : { + "generic_name": "Eng.Chrg.Ar.Clr2.Prcooler.Intake.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion air measured at the charge air cooler 2 precooler Intake.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64756": { + "comment": "Charge Air Cooler 2", + "length": 8, + "name": "CAC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Charge.Air.Cooler2.Efficiency" : { + "generic_name": "Eng.Charge.Air.Cooler2.Efficiency", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Engine charge air cooler 2 (CAC2) is an indication of the CAC's ability to reduce the temperature of the combustion air", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Chrg.Air.Cooler2.Ambient.Air.Temp" : { + "generic_name": "Eng.Chrg.Air.Cooler2.Ambient.Air.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the air surrounding charge air cooler 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Charge.Air.Cooler2.Outlet.Temp" : { + "generic_name": "Eng.Charge.Air.Cooler2.Outlet.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of combustion air after it exits from the Charge Air Cooler 2 but before any mixing of recirculated exhaust", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Charge.Air.Cooler2.Intake.Temp" : { + "generic_name": "Eng.Charge.Air.Cooler2.Intake.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion air measured at the charge air cooler 2 Intake.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64759": { + "comment": "Charge Air Cooler 1 Precooler", + "length": 8, + "name": "CAC1P", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Chrg.Ar.Clr1.Prcooler.Efficiency" : { + "generic_name": "Eng.Chrg.Ar.Clr1.Prcooler.Efficiency", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Engine charge air cooler 1 (CAC1) precooler efficiency is an indication of the precooler's ability to reduce the temperature", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Chrg.Ar.Clr1.Prcooler.Outlet.Temp" : { + "generic_name": "Eng.Chrg.Ar.Clr1.Prcooler.Outlet.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion air measured at the charge air cooler 1 precooler outlet.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Chrg.Ar.Clr1.Prcooler.Intake.Temp" : { + "generic_name": "Eng.Chrg.Ar.Clr1.Prcooler.Intake.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion air measured at the charge air cooler 1 precooler intake.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64758": { + "comment": "Charge Air Cooler 1", + "length": 8, + "name": "CAC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Charge.Air.Cooler1.Efficiency" : { + "generic_name": "Eng.Charge.Air.Cooler1.Efficiency", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Engine charge air cooler 1(CAC1) efficiency is an indication of the CAC's ability to reduce the temperature of the", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Chrg.Air.Cooler1.Ambient.Air.Temp" : { + "generic_name": "Eng.Chrg.Air.Cooler1.Ambient.Air.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the air surrounding charge air cooler 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Charge.Air.Cooler1.Intake.Temp" : { + "generic_name": "Eng.Charge.Air.Cooler1.Intake.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the combustion air measured at the CAC 1 Intake.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64806": { + "comment": "Basic Joystick Message 9", + "length": 8, + "name": "BJM9", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Joystick9.Button9.Pressed.Status" : { + "generic_name": "Joystick9.Button9.Pressed.Status", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Button10.Pressed.Status" : { + "generic_name": "Joystick9.Button10.Pressed.Status", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Button11.Pressed.Status" : { + "generic_name": "Joystick9.Button11.Pressed.Status", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Button12.Pressed.Status" : { + "generic_name": "Joystick9.Button12.Pressed.Status", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Button5.Pressed.Status" : { + "generic_name": "Joystick9.Button5.Pressed.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Button6.Pressed.Status" : { + "generic_name": "Joystick9.Button6.Pressed.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Button7.Pressed.Status" : { + "generic_name": "Joystick9.Button7.Pressed.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Button8.Pressed.Status" : { + "generic_name": "Joystick9.Button8.Pressed.Status", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Button1.Pressed.Status" : { + "generic_name": "Joystick9.Button1.Pressed.Status", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Button2.Pressed.Status" : { + "generic_name": "Joystick9.Button2.Pressed.Status", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Button3.Pressed.Status" : { + "generic_name": "Joystick9.Button3.Pressed.Status", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.Button4.Pressed.Status" : { + "generic_name": "Joystick9.Button4.Pressed.Status", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.XAxis.Detent.Pos.Status" : { + "generic_name": "Joystick9.XAxis.Detent.Pos.Status", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.YAxis.Detent.Pos.Status" : { + "generic_name": "Joystick9.YAxis.Detent.Pos.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.YAxis.Pos" : { + "generic_name": "Joystick9.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck9.YAxs.Lvr.Frwrd.Pstv.Ps.Status" : { + "generic_name": "Jystck9.YAxs.Lvr.Frwrd.Pstv.Ps.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck9.YAxs.Lvr.Bck.Ngtve.Pos.Status" : { + "generic_name": "Jystck9.YAxs.Lvr.Bck.Ngtve.Pos.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.YAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick9.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.XAxis.Pos" : { + "generic_name": "Joystick9.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck9.XAxs.Lvr.Rght.Pstv.Pos.Status" : { + "generic_name": "Jystck9.XAxs.Lvr.Rght.Pstv.Pos.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck9.XAxs.Lvr.Lft.Ngtve.Pos.Status" : { + "generic_name": "Jystck9.XAxs.Lvr.Lft.Ngtve.Pos.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick9.XAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick9.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64808": { + "comment": "Basic Joystick Message 8", + "length": 8, + "name": "BJM8", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Joystick8.Button9.Pressed.Status" : { + "generic_name": "Joystick8.Button9.Pressed.Status", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Button10.Pressed.Status" : { + "generic_name": "Joystick8.Button10.Pressed.Status", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Button11.Pressed.Status" : { + "generic_name": "Joystick8.Button11.Pressed.Status", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Button12.Pressed.Status" : { + "generic_name": "Joystick8.Button12.Pressed.Status", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Button5.Pressed.Status" : { + "generic_name": "Joystick8.Button5.Pressed.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Button6.Pressed.Status" : { + "generic_name": "Joystick8.Button6.Pressed.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Button7.Pressed.Status" : { + "generic_name": "Joystick8.Button7.Pressed.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Button8.Pressed.Status" : { + "generic_name": "Joystick8.Button8.Pressed.Status", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Button1.Pressed.Status" : { + "generic_name": "Joystick8.Button1.Pressed.Status", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Button2.Pressed.Status" : { + "generic_name": "Joystick8.Button2.Pressed.Status", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Button3.Pressed.Status" : { + "generic_name": "Joystick8.Button3.Pressed.Status", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.Button4.Pressed.Status" : { + "generic_name": "Joystick8.Button4.Pressed.Status", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.XAxis.Detent.Pos.Status" : { + "generic_name": "Joystick8.XAxis.Detent.Pos.Status", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.YAxis.Detent.Pos.Status" : { + "generic_name": "Joystick8.YAxis.Detent.Pos.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.YAxis.Pos" : { + "generic_name": "Joystick8.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck8.YAxs.Lvr.Frwrd.Pstv.Ps.Status" : { + "generic_name": "Jystck8.YAxs.Lvr.Frwrd.Pstv.Ps.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck8.YAxs.Lvr.Bck.Ngtve.Pos.Status" : { + "generic_name": "Jystck8.YAxs.Lvr.Bck.Ngtve.Pos.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.YAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick8.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.XAxis.Pos" : { + "generic_name": "Joystick8.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck8.XAxs.Lvr.Rght.Pstv.Pos.Status" : { + "generic_name": "Jystck8.XAxs.Lvr.Rght.Pstv.Pos.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck8.XAxs.Lvr.Lft.Ngtve.Pos.Status" : { + "generic_name": "Jystck8.XAxs.Lvr.Lft.Ngtve.Pos.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick8.XAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick8.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64810": { + "comment": "Basic Joystick Message 7", + "length": 8, + "name": "BJM7", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Joystick7.Button9.Pressed.Status" : { + "generic_name": "Joystick7.Button9.Pressed.Status", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Button10.Pressed.Status" : { + "generic_name": "Joystick7.Button10.Pressed.Status", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Button11.Pressed.Status" : { + "generic_name": "Joystick7.Button11.Pressed.Status", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Button12.Pressed.Status" : { + "generic_name": "Joystick7.Button12.Pressed.Status", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Button5.Pressed.Status" : { + "generic_name": "Joystick7.Button5.Pressed.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Button6.Pressed.Status" : { + "generic_name": "Joystick7.Button6.Pressed.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Button7.Pressed.Status" : { + "generic_name": "Joystick7.Button7.Pressed.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Button8.Pressed.Status" : { + "generic_name": "Joystick7.Button8.Pressed.Status", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Button1.Pressed.Status" : { + "generic_name": "Joystick7.Button1.Pressed.Status", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Button2.Pressed.Status" : { + "generic_name": "Joystick7.Button2.Pressed.Status", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Button3.Pressed.Status" : { + "generic_name": "Joystick7.Button3.Pressed.Status", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.Button4.Pressed.Status" : { + "generic_name": "Joystick7.Button4.Pressed.Status", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.XAxis.Detent.Pos.Status" : { + "generic_name": "Joystick7.XAxis.Detent.Pos.Status", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.YAxis.Detent.Pos.Status" : { + "generic_name": "Joystick7.YAxis.Detent.Pos.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.YAxis.Pos" : { + "generic_name": "Joystick7.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck7.YAxs.Lvr.Frwrd.Pstv.Ps.Status" : { + "generic_name": "Jystck7.YAxs.Lvr.Frwrd.Pstv.Ps.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck7.YAxs.Lvr.Bck.Ngtve.Pos.Status" : { + "generic_name": "Jystck7.YAxs.Lvr.Bck.Ngtve.Pos.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.YAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick7.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.XAxis.Pos" : { + "generic_name": "Joystick7.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck7.XAxs.Lvr.Rght.Pstv.Pos.Status" : { + "generic_name": "Jystck7.XAxs.Lvr.Rght.Pstv.Pos.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck7.XAxs.Lvr.Lft.Ngtve.Pos.Status" : { + "generic_name": "Jystck7.XAxs.Lvr.Lft.Ngtve.Pos.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick7.XAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick7.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64812": { + "comment": "Basic Joystick Message 6", + "length": 8, + "name": "BJM6", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Joystick6.Button9.Pressed.Status" : { + "generic_name": "Joystick6.Button9.Pressed.Status", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Button10.Pressed.Status" : { + "generic_name": "Joystick6.Button10.Pressed.Status", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Button11.Pressed.Status" : { + "generic_name": "Joystick6.Button11.Pressed.Status", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Button12.Pressed.Status" : { + "generic_name": "Joystick6.Button12.Pressed.Status", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Button5.Pressed.Status" : { + "generic_name": "Joystick6.Button5.Pressed.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Button6.Pressed.Status" : { + "generic_name": "Joystick6.Button6.Pressed.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Button7.Pressed.Status" : { + "generic_name": "Joystick6.Button7.Pressed.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Button8.Pressed.Status" : { + "generic_name": "Joystick6.Button8.Pressed.Status", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Button1.Pressed.Status" : { + "generic_name": "Joystick6.Button1.Pressed.Status", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Button2.Pressed.Status" : { + "generic_name": "Joystick6.Button2.Pressed.Status", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Button3.Pressed.Status" : { + "generic_name": "Joystick6.Button3.Pressed.Status", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.Button4.Pressed.Status" : { + "generic_name": "Joystick6.Button4.Pressed.Status", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.XAxis.Detent.Pos.Status" : { + "generic_name": "Joystick6.XAxis.Detent.Pos.Status", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.YAxis.Detent.Pos.Status" : { + "generic_name": "Joystick6.YAxis.Detent.Pos.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.YAxis.Pos" : { + "generic_name": "Joystick6.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck6.YAxs.Lvr.Frwrd.Pstv.Ps.Status" : { + "generic_name": "Jystck6.YAxs.Lvr.Frwrd.Pstv.Ps.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck6.YAxs.Lvr.Bck.Ngtve.Pos.Status" : { + "generic_name": "Jystck6.YAxs.Lvr.Bck.Ngtve.Pos.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.YAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick6.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.XAxis.Pos" : { + "generic_name": "Joystick6.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck6.XAxs.Lvr.Rght.Pstv.Pos.Status" : { + "generic_name": "Jystck6.XAxs.Lvr.Rght.Pstv.Pos.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck6.XAxs.Lvr.Lft.Ngtve.Pos.Status" : { + "generic_name": "Jystck6.XAxs.Lvr.Lft.Ngtve.Pos.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick6.XAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick6.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64814": { + "comment": "Basic Joystick Message 5", + "length": 8, + "name": "BJM5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Joystick5.Button9.Pressed.Status" : { + "generic_name": "Joystick5.Button9.Pressed.Status", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Button10.Pressed.Status" : { + "generic_name": "Joystick5.Button10.Pressed.Status", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Button11.Pressed.Status" : { + "generic_name": "Joystick5.Button11.Pressed.Status", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Button12.Pressed.Status" : { + "generic_name": "Joystick5.Button12.Pressed.Status", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Button5.Pressed.Status" : { + "generic_name": "Joystick5.Button5.Pressed.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Button6.Pressed.Status" : { + "generic_name": "Joystick5.Button6.Pressed.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Button7.Pressed.Status" : { + "generic_name": "Joystick5.Button7.Pressed.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Button8.Pressed.Status" : { + "generic_name": "Joystick5.Button8.Pressed.Status", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Button1.Pressed.Status" : { + "generic_name": "Joystick5.Button1.Pressed.Status", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Button2.Pressed.Status" : { + "generic_name": "Joystick5.Button2.Pressed.Status", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Button3.Pressed.Status" : { + "generic_name": "Joystick5.Button3.Pressed.Status", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.Button4.Pressed.Status" : { + "generic_name": "Joystick5.Button4.Pressed.Status", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.XAxis.Detent.Pos.Status" : { + "generic_name": "Joystick5.XAxis.Detent.Pos.Status", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.YAxis.Detent.Pos.Status" : { + "generic_name": "Joystick5.YAxis.Detent.Pos.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.YAxis.Pos" : { + "generic_name": "Joystick5.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck5.YAxs.Lvr.Frwrd.Pstv.Ps.Status" : { + "generic_name": "Jystck5.YAxs.Lvr.Frwrd.Pstv.Ps.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck5.YAxs.Lvr.Bck.Ngtve.Pos.Status" : { + "generic_name": "Jystck5.YAxs.Lvr.Bck.Ngtve.Pos.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.YAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick5.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.XAxis.Pos" : { + "generic_name": "Joystick5.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck5.XAxs.Lvr.Rght.Pstv.Pos.Status" : { + "generic_name": "Jystck5.XAxs.Lvr.Rght.Pstv.Pos.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck5.XAxs.Lvr.Lft.Ngtve.Pos.Status" : { + "generic_name": "Jystck5.XAxs.Lvr.Lft.Ngtve.Pos.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick5.XAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick5.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64816": { + "comment": "Basic Joystick Message 4", + "length": 8, + "name": "BJM4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Joystick4.Button9.Pressed.Status" : { + "generic_name": "Joystick4.Button9.Pressed.Status", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Button10.Pressed.Status" : { + "generic_name": "Joystick4.Button10.Pressed.Status", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Button11.Pressed.Status" : { + "generic_name": "Joystick4.Button11.Pressed.Status", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Button12.Pressed.Status" : { + "generic_name": "Joystick4.Button12.Pressed.Status", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Button5.Pressed.Status" : { + "generic_name": "Joystick4.Button5.Pressed.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Button6.Pressed.Status" : { + "generic_name": "Joystick4.Button6.Pressed.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Button7.Pressed.Status" : { + "generic_name": "Joystick4.Button7.Pressed.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Button8.Pressed.Status" : { + "generic_name": "Joystick4.Button8.Pressed.Status", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Button1.Pressed.Status" : { + "generic_name": "Joystick4.Button1.Pressed.Status", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Button2.Pressed.Status" : { + "generic_name": "Joystick4.Button2.Pressed.Status", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Button3.Pressed.Status" : { + "generic_name": "Joystick4.Button3.Pressed.Status", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.Button4.Pressed.Status" : { + "generic_name": "Joystick4.Button4.Pressed.Status", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.XAxis.Detent.Pos.Status" : { + "generic_name": "Joystick4.XAxis.Detent.Pos.Status", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.YAxis.Detent.Pos.Status" : { + "generic_name": "Joystick4.YAxis.Detent.Pos.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.YAxis.Pos" : { + "generic_name": "Joystick4.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck4.YAxs.Lvr.Frwrd.Pstv.Ps.Status" : { + "generic_name": "Jystck4.YAxs.Lvr.Frwrd.Pstv.Ps.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck4.YAxs.Lvr.Bck.Ngtve.Pos.Status" : { + "generic_name": "Jystck4.YAxs.Lvr.Bck.Ngtve.Pos.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.YAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick4.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.XAxis.Pos" : { + "generic_name": "Joystick4.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck4.XAxs.Lvr.Rght.Pstv.Pos.Status" : { + "generic_name": "Jystck4.XAxs.Lvr.Rght.Pstv.Pos.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck4.XAxs.Lvr.Lft.Ngtve.Pos.Status" : { + "generic_name": "Jystck4.XAxs.Lvr.Lft.Ngtve.Pos.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick4.XAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick4.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64804": { + "comment": "Basic Joystick Message 10", + "length": 8, + "name": "BJM10", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Joystick10.Button9.Pressed.Status" : { + "generic_name": "Joystick10.Button9.Pressed.Status", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Button10.Pressed.Status" : { + "generic_name": "Joystick10.Button10.Pressed.Status", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Button11.Pressed.Status" : { + "generic_name": "Joystick10.Button11.Pressed.Status", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Button12.Pressed.Status" : { + "generic_name": "Joystick10.Button12.Pressed.Status", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Button5.Pressed.Status" : { + "generic_name": "Joystick10.Button5.Pressed.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Button6.Pressed.Status" : { + "generic_name": "Joystick10.Button6.Pressed.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Button7.Pressed.Status" : { + "generic_name": "Joystick10.Button7.Pressed.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Button8.Pressed.Status" : { + "generic_name": "Joystick10.Button8.Pressed.Status", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Button1.Pressed.Status" : { + "generic_name": "Joystick10.Button1.Pressed.Status", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Button2.Pressed.Status" : { + "generic_name": "Joystick10.Button2.Pressed.Status", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Button3.Pressed.Status" : { + "generic_name": "Joystick10.Button3.Pressed.Status", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.Button4.Pressed.Status" : { + "generic_name": "Joystick10.Button4.Pressed.Status", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.XAxis.Detent.Pos.Status" : { + "generic_name": "Joystick10.XAxis.Detent.Pos.Status", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.YAxis.Detent.Pos.Status" : { + "generic_name": "Joystick10.YAxis.Detent.Pos.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.YAxis.Pos" : { + "generic_name": "Joystick10.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck10.YAxs.Lvr.Frwrd.Pstv.Ps.Sttus" : { + "generic_name": "Jystck10.YAxs.Lvr.Frwrd.Pstv.Ps.Sttus", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck10.YAxs.Lvr.Bck.Ngtv.Pos.Status" : { + "generic_name": "Jystck10.YAxs.Lvr.Bck.Ngtv.Pos.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.YAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick10.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.XAxis.Pos" : { + "generic_name": "Joystick10.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck10.XAxs.Lvr.Rght.Pstv.Ps.Status" : { + "generic_name": "Jystck10.XAxs.Lvr.Rght.Pstv.Ps.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck10.XAxs.Lvr.Lft.Ngtv.Pos.Status" : { + "generic_name": "Jystck10.XAxs.Lvr.Lft.Ngtv.Pos.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick10.XAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick10.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64791": { + "comment": "Beltlock and Airbag Deactivation Switch Information", + "length": 8, + "name": "BDS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Pssngr.Arbg.Dctvation.Switch.Status" : { + "generic_name": "Pssngr.Arbg.Dctvation.Switch.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of switch used to deactivate Passenger Airbag manually.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PassengerAirbagActivated": [0], + "PassengerAirbagDeactivated": [1], + "ErrrSttOfDctvtnSwtchCnntBDtrmnd": [2], + "NotAvailable": [3] + } + }, + "Beltlock10.Status" : { + "generic_name": "Beltlock10.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of switch used to determine if Beltlock 10 is buckled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Unlocked": [0], + "Locked": [1], + "ErrrBltlckSttCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Beltlock9.Status" : { + "generic_name": "Beltlock9.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of switch used to determine if Beltlock 9 is buckled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Unlocked": [0], + "Locked": [1], + "ErrrBltlckSttCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Beltlock8.Status" : { + "generic_name": "Beltlock8.Status", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of switch used to determine if Beltlock 8 is buckled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Unlocked": [0], + "Locked": [1], + "ErrrBltlckSttCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Beltlock7.Status" : { + "generic_name": "Beltlock7.Status", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of switch used to determine if Beltlock 7 is buckled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Unlocked": [0], + "Locked": [1], + "ErrrBltlckSttCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Beltlock6.Status" : { + "generic_name": "Beltlock6.Status", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of switch used to determine if Beltlock 6 is buckled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Unlocked": [0], + "Locked": [1], + "ErrrBltlckSttCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Beltlock5.Status" : { + "generic_name": "Beltlock5.Status", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of switch used to determine if Beltlock 5 is buckled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Unlocked": [0], + "Locked": [1], + "ErrrBltlckSttCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Beltlock4.Status" : { + "generic_name": "Beltlock4.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of switch used to determine if Beltlock 4 is buckled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Unlocked": [0], + "Locked": [1], + "ErrrBltlckSttCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Beltlock3.Status" : { + "generic_name": "Beltlock3.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of switch used to determine if Beltlock 3 is buckled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Unlocked": [0], + "Locked": [1], + "ErrrBltlckSttCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Passenger.Beltlock.Status" : { + "generic_name": "Passenger.Beltlock.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of switch used to determine if Passenger Beltlock is buckled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Unlocked": [0], + "Locked": [1], + "ErrrBltlckSttCannotBeDetermined": [2], + "NotAvailable": [3] + } + }, + "Driver.Beltlock.Status" : { + "generic_name": "Driver.Beltlock.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of switch used to determine if Driver Beltlock is buckled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Unlocked": [0], + "Locked": [1], + "ErrrBltlckSttCannotBeDetermined": [2], + "NotAvailable": [3] + } + } + } + }, + "64788": { + "comment": "Battery Charger 2", + "length": 8, + "name": "BCH2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Battery.Charger2.Output.Current" : { + "generic_name": "Battery.Charger2.Output.Current", + "bit_position": 23, + "bit_size": 16, + "factor": 0.05, + "offset": -1600, + "min_value": -1600, + "max_value": 1612.75, + "comment": "Output current of the battery charger connected to the main battery.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Battery.Charger2.Output.Voltage" : { + "generic_name": "Battery.Charger2.Output.Voltage", + "bit_position": 7, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Output voltage measured on the battery terminals of the offline battery charger connected to the auxiliary battery.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Battery.Charger2.Power.Line.State" : { + "generic_name": "Battery.Charger2.Power.Line.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A state of the battery charger connection to the power line for the charger connected to the auxiliary battery.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DscnnctdPwrLnIsDscnnctdFrmThChr": [0], + "CnnctdPwrLnIsCnnctdToTheCharger": [1] + } + }, + "Battery.Charger2.State" : { + "generic_name": "Battery.Charger2.State", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "A state of the offline battery charger connected to the auxiliary battery.", + "is_big_endian": false, + "is_signed": false, + "states": { + "IdlngPwrLnThBttryIsDscnnctdFrmT": [0], + "ChargingBattery": [1] + } + } + } + }, + "64789": { + "comment": "Battery Charger 1", + "length": 8, + "name": "BCH1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Battery.Charger1.Output.Current" : { + "generic_name": "Battery.Charger1.Output.Current", + "bit_position": 23, + "bit_size": 16, + "factor": 0.05, + "offset": -1600, + "min_value": -1600, + "max_value": 1612.75, + "comment": "Output current of the battery charger connected to the main battery.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Battery.Charger1.Output.Voltage" : { + "generic_name": "Battery.Charger1.Output.Voltage", + "bit_position": 7, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Output voltage measured on the battery terminals of the battery charger connected to the main battery.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Battery.Charger1.Power.Line.State" : { + "generic_name": "Battery.Charger1.Power.Line.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A state of the battery charger connection to the power line for the charger connected to the main battery.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DscnnctdPwrLnIsDscnnctdFrmThChr": [0], + "CnnctdPwrLnIsCnnctdToTheCharger": [1] + } + }, + "Battery.Charger1.State" : { + "generic_name": "Battery.Charger1.State", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "A state of the battery charger connected to the main battery.", + "is_big_endian": false, + "is_signed": false, + "states": { + "IdlngPwrLnThBttryIsDscnnctdFrmT": [0], + "ChargingBattery": [1] + } + } + } + }, + "64797": { + "comment": "Aftertreatment Differential Temperature 2", + "length": 8, + "name": "ATDT2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Thr.Wy.Ctlyst.Dff.Gs.Temp" : { + "generic_name": "Aftrtrtmnt2.Thr.Wy.Ctlyst.Dff.Gs.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The differential engine combustion byproducts gas temperature measured between the intake and outlet of the three way", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Thr.Wy.Ctlyst.Dff.Gs.Temp" : { + "generic_name": "Aftrtrtmnt1.Thr.Wy.Ctlyst.Dff.Gs.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The differential engine combustion byproducts gas temperature measured between the intake and outlet of the three way", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64798": { + "comment": "Aftertreatment Differential Temperature 1", + "length": 8, + "name": "ATDT1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Dff.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Dff.Gs.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The differential engine combustion byproducts gas temperature measured between the intake and outlet of the gas", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Dff.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Dff.Gs.Tmp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The differential engine combustion byproducts gas temperature measured between the intake and outlet of the gas", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64749": { + "comment": "Aftertreatment 2 Warm Up Diesel Oxidation Catalyst Information", + "length": 8, + "name": "AT2WUDOC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Wrm.Up.Dsl.Oxdtn.Ctlyst.Otlt.Tmp" : { + "generic_name": "Aftrtrtmnt2.Wrm.Up.Dsl.Oxdtn.Ctlyst.Otlt.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts leaving the warm up Diesel Oxidation Catalyst in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Wrm.Up.Dsl.Oxdtn.Ctlyst.Intk.Tmp" : { + "generic_name": "Aftrtrtmnt2.Wrm.Up.Dsl.Oxdtn.Ctlyst.Intk.Tmp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts entering the warm up Diesel Oxidation Catalyst in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64837": { + "comment": "Aftertreatment 2 Three Way Catalytic Converter", + "length": 8, + "name": "AT2TWCC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Thr.Wy.Ctlytc.Cnvrtr.Dff.Prss.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Thr.Wy.Ctlytc.Cnvrtr.Dff.Prss.Prlmnry.FMI", + "bit_position": 57, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the Three Way Catalytic Converter differential pressure sensor", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Thr.Wy.Ctlytc.Cnvrtr.Otlt.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Thr.Wy.Ctlytc.Cnvrtr.Otlt.Gs.Tmp.Prlmnry.FMI", + "bit_position": 52, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the Three Way Catalytic Converter outlet gas temperature", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Thr.Wy.Ctlytc.Cnvrtr.Intk.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Thr.Wy.Ctlytc.Cnvrtr.Intk.Gs.Tmp.Prlmnry.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the Three Way Catalytic Converter intake gas temperature", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Thr.Wy.Ctlytc.Cnvrtr.Dff.Prss" : { + "generic_name": "Aftrtrtmnt2.Thr.Wy.Ctlytc.Cnvrtr.Dff.Prss", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Exhaust differential pressure measured between the intake and exhaust of a Three Way Catalytic Converter in exhaust", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Thr.Wy.Ctlytc.Cnvrtr.Otlt.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt2.Thr.Wy.Ctlytc.Cnvrtr.Otlt.Gs.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts leaving the Three Way Catalytic Converter in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Thr.Wy.Ctlytc.Cnvrtr.Intk.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt2.Thr.Wy.Ctlytc.Cnvrtr.Intk.Gs.Tmp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts entering the Three Way Catalytic Converter in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64778": { + "comment": "Aftertreatment 2 Outlet Gas NOx Sensor correction data 2", + "length": 8, + "name": "AT2OGC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.NH3.Crrctn" : { + "generic_name": "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.NH3.Crrctn", + "bit_position": 23, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of NH3 at the NOx-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.NO2.Crrctn" : { + "generic_name": "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.NO2.Crrctn", + "bit_position": 15, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of NO2 at the NOx-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.Crrctn.Of.Prss.Nx" : { + "generic_name": "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.Crrctn.Of.Prss.Nx", + "bit_position": 7, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of pressure NOx-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%/bar", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.Crrctn.Of.Prss.Lmbd" : { + "generic_name": "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.Crrctn.Of.Prss.Lmbd", + "bit_position": -1, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of pressure Lambda-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%/bar", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64779": { + "comment": "Aftertreatment 2 Outlet Gas NOx Sensor correction data", + "length": 8, + "name": "AT2OGC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Offst" : { + "generic_name": "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Offst", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "New part deviation NOx_Offset to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "ppm", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Gn" : { + "generic_name": "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Gn", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": -100, + "min_value": -100, + "max_value": 100, + "comment": "New part deviation NOx_Gain to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.Htr.Rtio" : { + "generic_name": "Aftrtrtmnt2.Otlt.Gs.NOx.Snsr.Htr.Rtio", + "bit_position": -1, + "bit_size": 16, + "factor": 0.001, + "offset": 0, + "min_value": 0, + "max_value": 64.255, + "comment": "Heater ratio to determine temperature at sensor tip.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64780": { + "comment": "Aftertreatment 2 Intake Gas NOx Sensor correction data 2", + "length": 8, + "name": "AT2IGC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.NH3.Crrctn" : { + "generic_name": "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.NH3.Crrctn", + "bit_position": 23, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of NH3 at the NOx-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.NO2.Crrctn" : { + "generic_name": "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.NO2.Crrctn", + "bit_position": 15, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of NO2 at the NOx-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.Crrctn.Of.Prss.Nx" : { + "generic_name": "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.Crrctn.Of.Prss.Nx", + "bit_position": 7, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of pressure NOx-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%/bar", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.Crrctn.Of.Prss.Lmbd" : { + "generic_name": "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.Crrctn.Of.Prss.Lmbd", + "bit_position": -1, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of pressure Lambda-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%/bar", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64781": { + "comment": "Aftertreatment 2 Intake Gas NOx Sensor correction data", + "length": 8, + "name": "AT2IGC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Offst" : { + "generic_name": "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Offst", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "New part deviation NOx_Offset to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "ppm", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Gn" : { + "generic_name": "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Gn", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": -100, + "min_value": -100, + "max_value": 100, + "comment": "New part deviation NOx_Gain to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.Htr.Rtio" : { + "generic_name": "Aftrtrtmnt2.Intk.Gs.NOx.Snsr.Htr.Rtio", + "bit_position": -1, + "bit_size": 16, + "factor": 0.001, + "offset": 0, + "min_value": 0, + "max_value": 64.255, + "comment": "Heater ratio to determine temperature at sensor tip.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64836": { + "comment": "Aftertreatment 2 Fuel Control 2", + "length": 8, + "name": "AT2FC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftertreatment2.Fuel.Press2.Ctrl" : { + "generic_name": "Aftertreatment2.Fuel.Press2.Ctrl", + "bit_position": 23, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Indicates how the device is controlling the aftertreatment 2 fuel pressure 2 regulating control valve.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "fullyOpen": [4] + } + }, + "Aftrtrtmnt2.Fl.Flw.Dvrter.Valve.Ctrl" : { + "generic_name": "Aftrtrtmnt2.Fl.Flw.Dvrter.Valve.Ctrl", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates how the device is controlling the aftertreatment 2 fuel flow diverter valve.", + "is_big_endian": false, + "is_signed": false, + "states": { + "off": [0], + "on": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftrtreatment2.Fuel.Pump.Relay.Ctrl" : { + "generic_name": "Aftrtreatment2.Fuel.Pump.Relay.Ctrl", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates how the device is controlling the aftertreatment 2 fuel pump relay.", + "is_big_endian": false, + "is_signed": false, + "states": { + "off": [0], + "on": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftertreatment2.Fuel.Press2" : { + "generic_name": "Aftertreatment2.Fuel.Press2", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Second fuel pressure measurement for the aftertreatment 2 system.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "38398": { + "comment": "Aftertreatment 2 Diesel Particulate Filter Soot Sensor Calibration", + "length": 8, + "name": "AT2DPFSSC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Dsl.Prtclt.Fltr.St.Stndrd.Dvtn.Clb.Offst" : { + "generic_name": "Aftrtrtmnt2.Dsl.Prtclt.Fltr.St.Stndrd.Dvtn.Clb.Offst", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Calibration offset for the soot standard deviation for Aftertreatment 2 Diesel Particulate Filter soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Dsl.Prtclt.Fltr.St.Mn.Clb.Offst" : { + "generic_name": "Aftrtrtmnt2.Dsl.Prtclt.Fltr.St.Mn.Clb.Offst", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Calibration offset for the soot Mean for Aftertreatment 2 Diesel Particulate Filter soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64794": { + "comment": "Aftertreatment 1 Warm Up Diesel Oxidation Catalyst Information", + "length": 8, + "name": "AT1WUDOC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Wrm.Up.Dsl.Oxdtn.Ctlyst.Otlt.Tmp" : { + "generic_name": "Aftrtrtmnt1.Wrm.Up.Dsl.Oxdtn.Ctlyst.Otlt.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "This is the temperature measured at the outlet of the warm up oxidation catalytic converter in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Wrm.Up.Dsl.Oxdtn.Ctlyst.Intk.Tmp" : { + "generic_name": "Aftrtrtmnt1.Wrm.Up.Dsl.Oxdtn.Ctlyst.Intk.Tmp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "This is the temperature measured at the intake of the warm up oxidation catalytic converter in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64838": { + "comment": "Aftertreatment 1 Three Way Catalytic Converter", + "length": 8, + "name": "AT1TWCC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Thr.Wy.Ctlytc.Cnvrtr.Dff.Prss.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Thr.Wy.Ctlytc.Cnvrtr.Dff.Prss.Prlmnry.FMI", + "bit_position": 57, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the Three Way Catalytic Converter differential pressure sensor", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Thr.Wy.Ctlytc.Cnvrtr.Otlt.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Thr.Wy.Ctlytc.Cnvrtr.Otlt.Gs.Tmp.Prlmnry.FMI", + "bit_position": 52, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the Three Way Catalytic Converter outlet gas temperature", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Thr.Wy.Ctlytc.Cnvrtr.Intk.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Thr.Wy.Ctlytc.Cnvrtr.Intk.Gs.Tmp.Prlmnry.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the Three Way Catalytic Converter intake gas temperature", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Thr.Wy.Ctlytc.Cnvrtr.Dff.Prss" : { + "generic_name": "Aftrtrtmnt1.Thr.Wy.Ctlytc.Cnvrtr.Dff.Prss", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Exhaust differential pressure measured between the intake and exhaust of a Three Way Catalytic Converter in exhaust", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Thr.Wy.Ctlytc.Cnvrtr.Otlt.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt1.Thr.Wy.Ctlytc.Cnvrtr.Otlt.Gs.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts leaving the Three Way Catalytic Converter in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Thr.Wy.Ctlytc.Cnvrtr.Intk.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt1.Thr.Wy.Ctlytc.Cnvrtr.Intk.Gs.Tmp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts entering the Three Way Catalytic Converter in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65110": { + "comment": "Aftertreatment 1 SCR Reagent Tank 1 Information", + "length": 8, + "name": "AT1T1I", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk1.Htr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk1.Htr.Prlmnry.FMI", + "bit_position": 55, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent tank 1 heater, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtalyst.Tank.Heater" : { + "generic_name": "Aftrtrtmnt1.SCRCtalyst.Tank.Heater", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Percentage of heating applied to the aftertreatment 1 catalyst tank heater.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt.SCROprtr.Indcmnt.Svrity" : { + "generic_name": "Aftrtrtmnt.SCROprtr.Indcmnt.Svrity", + "bit_position": 44, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "The severity of operator inducement for anomolies with the SCR system, such as tampering, low DEF quality, and DEF", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoInducementActive": [0], + "InducementLevel1": [1], + "InducementLevel2": [2], + "InducementLevel3": [3], + "InducementLevel4": [4], + "InducementLevel5": [5], + "Reserved": [6], + "NotAvailable_NotSupported": [7] + } + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk1.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk1.Tmp.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent tank 1 temperature, by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.DEFTnk.Lw.Lvl.Indicator" : { + "generic_name": "Aftrtrtmnt1.DEFTnk.Lw.Lvl.Indicator", + "bit_position": 36, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "The desired illumination of the driver's warning indicator for diesel exhaust fluid (DEF) tank low level.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "OnSolid": [1], + "OnFastBlink": [4], + "reservedForSAEAssignment": [6], + "notAvailable": [7] + } + }, + "Aftrtrtmnt1.SCRCtlyst.Tnk.Lvl.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Tnk.Lvl.Prlmnry.FMI", + "bit_position": 31, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI that applies to the most significant failure of the catalyst tank level sensor.", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtalyst.Tank.Level2" : { + "generic_name": "Aftrtrtmnt1.SCRCtalyst.Tank.Level2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The measure of the reagent level in the catalyst tank.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtment1.SCRCatalyst.Tank.Temp" : { + "generic_name": "Aftrtrtment1.SCRCatalyst.Tank.Temp", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of the reagent in the storage tank.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCatalyst.Tank.Level" : { + "generic_name": "Aftrtrtmnt1.SCRCatalyst.Tank.Level", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "A special catalyst uses a chemical reagent to reach legal requirement for NOX emissions.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "Empty": [0], + "Full": [4] + } + } + } + }, + "64782": { + "comment": "Aftertreatment 1 Outlet Gas NOx Sensor correction data 2", + "length": 8, + "name": "AT1OGC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.NH3.Crrctn" : { + "generic_name": "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.NH3.Crrctn", + "bit_position": 23, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of NH3 at the NOx-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.NO2.Crrctn" : { + "generic_name": "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.NO2.Crrctn", + "bit_position": 15, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of NO2 at the NOx-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.Crrctn.Of.Prss.Nx" : { + "generic_name": "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.Crrctn.Of.Prss.Nx", + "bit_position": 7, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of pressure NOx-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%/bar", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.Crrctn.Of.Prss.Lmbd" : { + "generic_name": "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.Crrctn.Of.Prss.Lmbd", + "bit_position": -1, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of pressure Lambda-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%/bar", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64783": { + "comment": "Aftertreatment 1 Outlet Gas NOx Sensor correction data", + "length": 8, + "name": "AT1OGC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Offst" : { + "generic_name": "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Offst", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "New part deviation NOx_Offset to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "ppm", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Gn" : { + "generic_name": "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Gn", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": -100, + "min_value": -100, + "max_value": 100, + "comment": "New part deviation NOx_Gain to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.Htr.Rtio" : { + "generic_name": "Aftrtrtmnt1.Otlt.Gs.NOx.Snsr.Htr.Rtio", + "bit_position": -1, + "bit_size": 16, + "factor": 0.001, + "offset": 0, + "min_value": 0, + "max_value": 64.255, + "comment": "Heater ratio to determine temperature at sensor tip.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64784": { + "comment": "Aftertreatment 1 Intake Gas NOx Sensor correction data 2", + "length": 8, + "name": "AT1IGC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.NH3.Crrctn" : { + "generic_name": "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.NH3.Crrctn", + "bit_position": 23, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of NH3 at the NOx-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.NO2.Crrctn" : { + "generic_name": "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.NO2.Crrctn", + "bit_position": 15, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of NO2 at the NOx-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.Crrctn.Of.Prss.Nx" : { + "generic_name": "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.Crrctn.Of.Prss.Nx", + "bit_position": 7, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of pressure NOx-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%/bar", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.Crrctn.Of.Prss.Lmbd" : { + "generic_name": "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.Crrctn.Of.Prss.Lmbd", + "bit_position": -1, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Correction of pressure Lambda-signal to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%/bar", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64785": { + "comment": "Aftertreatment 1 Intake Gas NOx Sensor correction data", + "length": 8, + "name": "AT1IGC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Offst" : { + "generic_name": "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Offst", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "New part deviation NOx_Offset to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "ppm", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Gn" : { + "generic_name": "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.Nw.Prt.Dvtn.NOx.Gn", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": -100, + "min_value": -100, + "max_value": 100, + "comment": "New part deviation NOx_Gain to correct (recalculate) sensor signal on the Engine ECU side.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.Htr.Rtio" : { + "generic_name": "Aftrtrtmnt1.Intk.Gs.NOx.Snsr.Htr.Rtio", + "bit_position": -1, + "bit_size": 16, + "factor": 0.001, + "offset": 0, + "min_value": 0, + "max_value": 64.255, + "comment": "Heater ratio to determine temperature at sensor tip.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "38142": { + "comment": "Aftertreatment 1 Diesel Particulate Filter Soot Sensor Calibration", + "length": 8, + "name": "AT1DPFSSC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Dsl.Prtclt.Fltr.St.Stndrd.Dvtn.Clb.Offst" : { + "generic_name": "Aftrtrtmnt1.Dsl.Prtclt.Fltr.St.Stndrd.Dvtn.Clb.Offst", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Calibration offset for the soot standard deviation for Aftertreatment 1 Diesel Particulate Filter soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Dsl.Prtclt.Fltr.St.Mn.Clb.Offst" : { + "generic_name": "Aftrtrtmnt1.Dsl.Prtclt.Fltr.St.Mn.Clb.Offst", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Calibration offset for the soot Mean for Aftertreatment 1 Diesel Particulate Filter soot sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64745": { + "comment": "Armrest Switch Matrix Commands", + "length": 8, + "name": "ARMSWIMC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Armrest.Switch.Matrix2.Switch2" : { + "generic_name": "Armrest.Switch.Matrix2.Switch2", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Second switch input matrix for the second module located in the armrest", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Armrest.Switch.Matrix2.Switch1" : { + "generic_name": "Armrest.Switch.Matrix2.Switch1", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch input matrix for the second module located in the armrest", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Armrest.Switch.Matrix.Switch2" : { + "generic_name": "Armrest.Switch.Matrix.Switch2", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Second switch input matrix for the module located in the armrest", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Armrest.Switch.Matrix.Switch1" : { + "generic_name": "Armrest.Switch.Matrix.Switch1", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Switch input matrix for the module located in the armrest", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + } + } + }, + "61482": { + "comment": "Angular Rate Information", + "length": 8, + "name": "ARI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Angular.Rate.Measurement.Latency" : { + "generic_name": "Angular.Rate.Measurement.Latency", + "bit_position": 55, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "The estimated measurement latency of the measurement.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Yaw.Rate.Ex.Range.Figure.Of.Merit" : { + "generic_name": "Yaw.Rate.Ex.Range.Figure.Of.Merit", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Figure of merit for yaw angle measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "YwRtFllyFnctnlDtIsWthnSnsrSpcfc": [0], + "YwRtDgrddDtIsSspctDTEnvrnmntlCn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Roll.Rate.Ex.Range.Figure.Of.Merit" : { + "generic_name": "Roll.Rate.Ex.Range.Figure.Of.Merit", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Figure of merit for roll angle measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "RllRtFllyFnctnlDtIsWthnSnsrSpcf": [0], + "RllRtDgrddDtIsSspctDTEnvrnmntlC": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Pitch.Rate.Ex.Range.Figure.Of.Merit" : { + "generic_name": "Pitch.Rate.Ex.Range.Figure.Of.Merit", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Figure of merit for pitch angle measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PtchRtFllyFnctnlDtIsWthnSnsrSpc": [0], + "PtchRtDgrddDtIsSspctDTEnvrnmntl": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Yaw.Rate.Ex.Range" : { + "generic_name": "Yaw.Rate.Ex.Range", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 250.992, + "comment": "Yaw rate is the rate-of-change of the yaw angle over time.", + "unit": "deg/sec", + "is_big_endian": false, + "is_signed": false + }, + "Roll.Rate.Ex.Range" : { + "generic_name": "Roll.Rate.Ex.Range", + "bit_position": 15, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 250.992, + "comment": "Roll rate is the rate-of-change of the roll angle over time.", + "unit": "deg/sec", + "is_big_endian": false, + "is_signed": false + }, + "Pitch.Rate.Ex.Range" : { + "generic_name": "Pitch.Rate.Ex.Range", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 250.992, + "comment": "Pitch rate is the rate-of-change of the pitch angle over time, where the pitch angle vector is in the direction of travel of the", + "unit": "deg/sec", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64747": { + "comment": "Aftertreatment 2 NOx Adsorber Information", + "length": 8, + "name": "AFT2NAI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.NOx.Adsrbr.DSOx.Rgnrtn.Stts" : { + "generic_name": "Aftrtrtmnt2.NOx.Adsrbr.DSOx.Rgnrtn.Stts", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the NOx adsorber deSOx regeneration in the second aftertreatment system is active or inactive", + "is_big_endian": false, + "is_signed": false, + "states": { + "Inactive": [0], + "Active": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt2.NOx.Adsrbr.DNOx.Rgnrtn.Stts" : { + "generic_name": "Aftrtrtmnt2.NOx.Adsrbr.DNOx.Rgnrtn.Stts", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the NOx adsorber deNOx regeneration in the second aftertreatment system is active or inactive", + "is_big_endian": false, + "is_signed": false, + "states": { + "Inactive": [0], + "Active": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64748": { + "comment": "Aftertreatment 1 NOx Adsorber Information", + "length": 8, + "name": "AFT1NAI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.NOx.Adsrbr.DSOx.Rgnrtn.Stts" : { + "generic_name": "Aftrtrtmnt1.NOx.Adsrbr.DSOx.Rgnrtn.Stts", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the NOx adsorber deSOx regeneration in the first aftertreatment system is active or inactive", + "is_big_endian": false, + "is_signed": false, + "states": { + "Inactive": [0], + "Active": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt1.NOx.Adsrbr.DNOx.Rgnrtn.Stts" : { + "generic_name": "Aftrtrtmnt1.NOx.Adsrbr.DNOx.Rgnrtn.Stts", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the NOx adsorber deNOx regeneration in the first aftertreatment system is active or inactive", + "is_big_endian": false, + "is_signed": false, + "states": { + "Inactive": [0], + "Active": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64823": { + "comment": "Aftertreatment 2 SCR Service Information", + "length": 8, + "name": "A2SCRSI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.SCRCtlyst.Cnvrsn.Effcncy" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Cnvrsn.Effcncy", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The SCR catalyst conversion efficiency percentage.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCmdd.Ctlyst.Rgnt.Cnsmptn" : { + "generic_name": "Aftrtrtmnt2.SCRCmdd.Ctlyst.Rgnt.Cnsmptn", + "bit_position": 15, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "This parameter transmits the amount of reagent that the emissions control system has requested to be used, averaged", + "unit": "L/h", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRAvrg.Ctlyst.Rgnt.Cnsmptn" : { + "generic_name": "Aftrtrtmnt2.SCRAvrg.Ctlyst.Rgnt.Cnsmptn", + "bit_position": -1, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Measured use of reagent by a Selective Catalytic Reduction system for exhaust emission control, averaged over the", + "unit": "L/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64820": { + "comment": "Aftertreatment 2 SCR Reagant Tank 2 Information", + "length": 8, + "name": "A2SCRRT2I", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk2.Htr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk2.Htr.Prlmnry.FMI", + "bit_position": 55, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent tank 2 heater, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk2.Htr" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk2.Htr", + "bit_position": 47, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "The SCR catalyst reagent tank 2 heater percentage for aftertreatment system 1 (exhaust bank 1).", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRRgnt.Tnk2.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRRgnt.Tnk2.Tmp.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent tank 2 temperature, by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk2.Lvl.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk2.Lvl.Prlmnry.FMI", + "bit_position": 31, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent tank 2 level, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk2.Lvl2" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk2.Lvl2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The SCR catalyst reagent tank 2 level height in mm for aftertreatment system 2 (exhaust bank 2).", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk2.Tmp" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk2.Tmp", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "The SCR catalyst reagent tank 2 temperature for aftertreatment system 2 (exhaust bank 2).", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk2.Lvl" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk2.Lvl", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The SCR catalyst reagent tank 2 level percentage for aftertreatment system 2 (exhaust bank 2).", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64821": { + "comment": "Aftertreatment 2 SCR Reagant Tank 1 Information", + "length": 8, + "name": "A2SCRRT1I", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk1.Htr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk1.Htr.Prlmnry.FMI", + "bit_position": 55, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent tank 1 heater, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtalyst.Tank.Heater" : { + "generic_name": "Aftrtrtmnt2.SCRCtalyst.Tank.Heater", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Percentage of heating applied to the aftertreatment 2 catalyst tank heater.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk1.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk1.Tmp.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent tank 1 temperature, by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Tnk.Lvl.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Tnk.Lvl.Prlmnry.FMI", + "bit_position": 31, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI that applies to the most significant failure of the catalyst tank level sensor.", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtalyst.Tank.Level2" : { + "generic_name": "Aftrtrtmnt2.SCRCtalyst.Tank.Level2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The measure of the reagent level in the catalyst tank.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtment2.SCRCatalyst.Tank.Temp" : { + "generic_name": "Aftrtrtment2.SCRCatalyst.Tank.Temp", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of the reagent in the storage tank.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCatalyst.Tank.Level" : { + "generic_name": "Aftrtrtmnt2.SCRCatalyst.Tank.Level", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "A special catalyst uses chemical substance to reach legal requirement for NOX emissions.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "Empty": [0], + "Full": [4] + } + } + } + }, + "64819": { + "comment": "Aftertreatment 2 SCR Reagent Supply Information", + "length": 8, + "name": "A2SCRRSI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk.Drn.Vlv.Cmd" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk.Drn.Vlv.Cmd", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Commanded percentage of maximum Aftertreatment 2 SCR Catalyst Reagent Tank Drain Valve opening.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Pmp.Stte" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Pmp.Stte", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of aftertreatment 2 SCR Catalyst Reagent dosing pump.", + "is_big_endian": false, + "is_signed": false, + "states": { + "pumpOperational": [0], + "pumpError": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk.Fll.Vlv.Cmd" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tnk.Fll.Vlv.Cmd", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Commanded percentage of maximum Aftertreatment 2 SCR Catalyst Reagent Tank Fill Valve opening.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Rtrn.Vlv" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Rtrn.Vlv", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Command to the valve which determines whether the reagent is delivered to the injector or is routed back to the reagent", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Pmp.Drv.Prcntg" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Pmp.Drv.Prcntg", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The percent (command) sent to the motor to control the speed of the reagent pump.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Pmp.Mtr.Spd" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Pmp.Mtr.Spd", + "bit_position": -1, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Rotational speed of the motor driving a pump for reagent used in an aftertreatment system.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64822": { + "comment": "Aftertreatment 2 SCR Reagent Information", + "length": 8, + "name": "A2SCRRI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.SCRCtlyst.Reagent.Type" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Reagent.Type", + "bit_position": 39, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates what reagent is in the tank.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CtlystRgntIsUrCncntrtionTooHigh": [0], + "CtlystRgntIsUrCncntrationTooLow": [1], + "CatalystReagentIsDiesel": [2], + "CatalystReagentIsProperMixture": [3], + "to1100ReservedForSAEAssignment": [5], + "NtAblTDtrmneCatalystReagentType": [13], + "ErrrDtctdWthUrRgntTypeDetection": [14], + "NotAvailable": [15] + } + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Prprts.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Prprts.Prlmnry.FMI", + "bit_position": 31, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI that applies to the most significant failure of the catalyst reagent properties", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tmp2.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Tmp2.Prlmnry.FMI", + "bit_position": 23, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI that applies to the most significant failure of the catalyst temperature sensor.", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Cndctvty" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Cndctvty", + "bit_position": 15, + "bit_size": 8, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 1250, + "comment": "A measure of the conductivity of the reagent or fluid at the sensor.", + "unit": "microSiemens/mm", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Cncntrtn" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Cncntrtn", + "bit_position": 7, + "bit_size": 8, + "factor": 0.25, + "offset": 0, + "min_value": 0, + "max_value": 62.5, + "comment": "A measure of the concentration of urea in water.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Ragent.Temp2" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Ragent.Temp2", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of the catalyst reagent at the device measuring reagent quality", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64824": { + "comment": "Aftertreatment 2 SCR Exhaust Gas Temperature", + "length": 8, + "name": "A2SCREGT", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.SCRCtlyst.Otlt.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Otlt.Gs.Tmp.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst outlet gas temperature sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Otlt.Gas.Temp" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Otlt.Gas.Temp", + "bit_position": 23, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts leaving the SCR catalyst exhaust in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Intk.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Intk.Gs.Tmp.Prlmnry.FMI", + "bit_position": 15, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst intake gas temperature sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Intk.Gas.Temp" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Intk.Gas.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts entering the SCR catalyst in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64825": { + "comment": "Aftertreatment 2 SCR Exhaust Gas Pressures", + "length": 8, + "name": "A2SCREGP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.SCRCtlyst.Exhst.Gs.Dff.Prss.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Exhst.Gs.Dff.Prss.Prlmnry.FMI", + "bit_position": 15, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst differential pressure sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Exhst.Gs.Dff.Prss" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Exhst.Gs.Dff.Prss", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Exhaust differential pressure measured between the intake and exhaust of a SCR catalyst in exhaust bank 2.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64826": { + "comment": "Aftertreatment 2 SCR Dosing System Requests 2", + "length": 8, + "name": "A2SCRDSR2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.SCRCtlyst.Tnk2.Hter.Cmd" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Tnk2.Hter.Cmd", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "This is the command for the Aftertreatment 2 SCR Catalyst Tank 2 Heater.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Tnk.Hater.Cmd" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Tnk.Hater.Cmd", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Command for the Aftertreatment 2 SCR Catalyst Tank Heater.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Hter4" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Hter4", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 4 request for aftertreatment system 2 (exhaust bank 2).", + "is_big_endian": false, + "is_signed": false, + "states": { + "RqForHeaterToBeInactive": [0], + "RqForHeaterToBeActive": [1], + "rservedForFutureAssignmentBySAE": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Hter3" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Hter3", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 3 request for aftertreatment system 2 (exhaust bank 2).", + "is_big_endian": false, + "is_signed": false, + "states": { + "RqForHeaterToBeInactive": [0], + "RqForHeaterToBeActive": [1], + "rservedForFutureAssignmentBySAE": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Hter2" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Hter2", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 2 request for aftertreatment system 2 (exhaust bank 2).", + "is_big_endian": false, + "is_signed": false, + "states": { + "RqForHeaterToBeInactive": [0], + "RqForHeaterToBeActive": [1], + "rservedForFutureAssignmentBySAE": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Hter1" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Hter1", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 1 request for aftertreatment system 2 (exhaust bank 2).", + "is_big_endian": false, + "is_signed": false, + "states": { + "RqForHeaterToBeInactive": [0], + "RqForHeaterToBeActive": [1], + "rservedForFutureAssignmentBySAE": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt2.SCRDser.Heating.Mode.Rq" : { + "generic_name": "Aftrtrtmnt2.SCRDser.Heating.Mode.Rq", + "bit_position": 3, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Used if multiple heater modes are available in the Doser.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HeaterOff": [0], + "HeaterEconomyMode": [1], + "HeaterAutomaticMode": [2], + "HeaterOn": [3], + "110Reserved": [4], + "NotAvailable": [7] + } + }, + "Aftrtrtmnt2.SCRDsr.Flt.Spprssion.Rq" : { + "generic_name": "Aftrtrtmnt2.SCRDsr.Flt.Spprssion.Rq", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Used if external devices can warn of conditions that require suppression of potential faults in the doser due to", + "is_big_endian": false, + "is_signed": false, + "states": { + "ErrorSuppressionOff": [0], + "ErrorSuppressionOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + } + } + }, + "61479": { + "comment": "Aftertreatment 2 SCR Dosing System Requests 1", + "length": 8, + "name": "A2SCRDSR1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.SCRRqd.Rgnt.Qntty.Fr.Intgrtr" : { + "generic_name": "Aftrtrtmnt2.SCRRqd.Rgnt.Qntty.Fr.Intgrtr", + "bit_position": 23, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Represents the command for the reducing agent quantity integrator in the dosing control unit", + "unit": "g", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtratment2.SCRSystem.Rqed.State" : { + "generic_name": "Aftrtratment2.SCRSystem.Rqed.State", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Requested state of SCR system for aftertreatment system 2 (exhaust bank 2).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Dormant": [0], + "PreparingDosingReadiness": [1], + "NormalDosingOperation": [2], + "SystemErrorPending": [3], + "RservedForFutureAssignmentBySAE": [4], + "ProtectModeAgainstHeat": [5], + "ProtectModeAgainstCold": [6], + "Shutoff": [7], + "Diagnosis": [8], + "ServiceTestModeDosingAllowed": [9], + "ServiceTestModeDosingNotAllowed": [10], + "1101RsrvdFrFtureAssignmentBySAE": [11], + "Error": [14], + "NotAvailable": [15] + } + }, + "Aftrtrtmnt2.SCRRqd.Dsng.Rgnt.Qntity" : { + "generic_name": "Aftrtrtmnt2.SCRRqd.Dsng.Rgnt.Qntity", + "bit_position": -1, + "bit_size": 16, + "factor": 0.3, + "offset": 0, + "min_value": 0, + "max_value": 19276.5, + "comment": "Actual requested dosing quantity of catalyst reagent", + "unit": "g/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64827": { + "comment": "Aftertreatment 2 SCR Dosing System Information 2", + "length": 8, + "name": "A2SCRDSI2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr4.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr4.Prlmnry.FMI", + "bit_position": 57, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent line heater 4, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr4.Stt" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr4.Stt", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 4 state for aftertreatment system 2 (exhaust bank 2).", + "is_big_endian": false, + "is_signed": false, + "states": { + "heaterInactive": [0], + "heaterActive": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr3.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr3.Prlmnry.FMI", + "bit_position": 49, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent line heater 3, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr3.Stt" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr3.Stt", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 3 state for aftertreatment system 2 (exhaust bank 2).", + "is_big_endian": false, + "is_signed": false, + "states": { + "heaterInactive": [0], + "heaterActive": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr2.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr2.Prlmnry.FMI", + "bit_position": 41, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent line heater 2, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr2.Stt" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr2.Stt", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 2 state for aftertreatment system 2 (exhaust bank 2).", + "is_big_endian": false, + "is_signed": false, + "states": { + "heaterInactive": [0], + "heaterActive": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr1.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr1.Prlmnry.FMI", + "bit_position": 33, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent line heater 1, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr1.Stt" : { + "generic_name": "Aftrtrtmnt2.SCRCtlyst.Rgnt.Ln.Htr1.Stt", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 1 state for aftertreatment system 2 (exhaust bank 2).", + "is_big_endian": false, + "is_signed": false, + "states": { + "heaterInactive": [0], + "heaterActive": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt2.SCRFedback.Ctrl.Status" : { + "generic_name": "Aftrtrtmnt2.SCRFedback.Ctrl.Status", + "bit_position": 26, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "The SCR feedback control status (open/closed loop) for aftertreatment system 2 (exhaust bank 2).", + "is_big_endian": false, + "is_signed": false, + "states": { + "openLoopCtrlActive": [0], + "closedLoopCtrlActive": [1], + "rservedForFutureAssignmentBySAE": [5], + "error": [6], + "notAvailable": [7] + } + }, + "Aftrtrtmnt2.SCRDsng.Vlv.Exhst.Tmp.Rdctn.Rq" : { + "generic_name": "Aftrtrtmnt2.SCRDsng.Vlv.Exhst.Tmp.Rdctn.Rq", + "bit_position": 23, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Protection request for the dosing valve of the SCR-system to prevent overheating", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoRq": [0], + "ReductionRqStage1": [1], + "ReductionRqStage2": [2], + "RservedForFutureAssignmentBySAE": [5], + "Error": [6], + "NotAvailable": [7] + } + }, + "Aftrtrtmnt2.SCRDosing.Reagent.Temp" : { + "generic_name": "Aftrtrtmnt2.SCRDosing.Reagent.Temp", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "The SCR dosing reagent temperature (measured closest to dosing valve) for aftertreatment system 2 (exhaust bank 2).", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRDsng.Ar.Assist.Valve" : { + "generic_name": "Aftrtrtmnt2.SCRDsng.Ar.Assist.Valve", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The position of the valve used to regulate the air supply of an air assist SCR dosing system for an engine.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRDsng.Ar.Assst.Abs.Prss" : { + "generic_name": "Aftrtrtmnt2.SCRDsng.Ar.Assst.Abs.Prss", + "bit_position": -1, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "The SCR dosing system air assist absolute pressure for aftertreatment system 2 (exhaust bank 2).", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61478": { + "comment": "Aftertreatment 2 SCR Dosing System Information 1", + "length": 8, + "name": "A2SCRDSI1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.SCRDsng.Rgent.Abs.Press" : { + "generic_name": "Aftrtrtmnt2.SCRDsng.Rgent.Abs.Press", + "bit_position": 39, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "The SCR dosing reagent absolute pressure (measured closest to dosing valve) for aftertreatment system 2 (exhaust bank", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.SCRActl.Rgnt.Qntty.Of.Intgrtr" : { + "generic_name": "Aftrtrtmnt2.SCRActl.Rgnt.Qntty.Of.Intgrtr", + "bit_position": 23, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The SCR requested reagent integrator total quantity for aftertreatment system 2 (exhaust bank 2).", + "unit": "g", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.SCRSystem.State" : { + "generic_name": "Aftertreatment2.SCRSystem.State", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Actual state of SCR system", + "is_big_endian": false, + "is_signed": false, + "states": { + "Dormant": [0], + "PreparingDosingReadiness": [1], + "NormalDosingOperation": [2], + "SystemErrorPending": [3], + "RservedForFutureAssignmentBySAE": [4], + "ProtectModeAgainstHeat": [5], + "ProtectModeAgainstCold": [6], + "Shutoff": [7], + "Diagnosis": [8], + "ServiceTestModeDosingAllowed": [9], + "ServiceTestModeDosingNotAllowed": [10], + "1101RsrvdFrFtureAssignmentBySAE": [11], + "Error": [14], + "NotAvailable": [15] + } + }, + "Aftrtrtmnt2.SCRActl.Dsng.Rgnt.Qntty" : { + "generic_name": "Aftrtrtmnt2.SCRActl.Dsng.Rgnt.Qntty", + "bit_position": -1, + "bit_size": 16, + "factor": 0.3, + "offset": 0, + "min_value": 0, + "max_value": 19276.5, + "comment": "Actual reducing agent quantity of SCR system.", + "unit": "g/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61480": { + "comment": "Aftertreatment 2 SCR Ammonia Information", + "length": 8, + "name": "A2SCRAI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Otlt.NH3.Gs.Snsr.Htr.Ctrl" : { + "generic_name": "Aftrtrtmnt2.Otlt.NH3.Gs.Snsr.Htr.Ctrl", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the heater status in the warm-up process.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Automatic": [0], + "Preheat2": [1], + "Preheat1": [2], + "HeaterOffNotAvailable": [3] + } + }, + "Aftrtrtmnt2.Otlt.NH3.Gs.Snsr.Htr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Otlt.NH3.Gs.Snsr.Htr.Prlmnry.FMI", + "bit_position": 31, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the heater of the outlet NH3 exhaust gas sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Otlt.NH3.Gs.Snsor.At.Temp" : { + "generic_name": "Aftrtrtmnt2.Otlt.NH3.Gs.Snsor.At.Temp", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the heater element of the aftertreatment outlet NH3 gas sensor is within the manufacturer's specified range", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Otlt.NH3.Gs.Snsr.Pwr.In.Rng" : { + "generic_name": "Aftrtrtmnt2.Otlt.NH3.Gs.Snsr.Pwr.In.Rng", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the power supplied to the aftertreatment outlet NH3 gas sensor is within the manufacturer's specification in", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Otlt.NH3.Reading.Stable" : { + "generic_name": "Aftrtrtmnt2.Otlt.NH3.Reading.Stable", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the NH3 reading of the aftertreatment outlet NH3 sensor is stable as determined by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Otlt.NH3.Snsr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Otlt.NH3.Snsr.Prlmnry.FMI", + "bit_position": 15, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the aftertreatment outlet NH3 sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Outlet.NH3" : { + "generic_name": "Aftertreatment2.Outlet.NH3", + "bit_position": -1, + "bit_size": 16, + "factor": 0.3, + "offset": 0, + "min_value": 0, + "max_value": 19276.5, + "comment": "The amount of NH3 in the exhaust exiting the aftertreatment system measured by a NH3 sensor at the aftertreatment", + "unit": "g/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64801": { + "comment": "Aftertreatment 2 Gas Oxidation Catalyst", + "length": 8, + "name": "A2GOC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Dff.Prss.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Dff.Prss.Prlmnry.FMI", + "bit_position": 57, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the gas oxidation catalyst differential pressure sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Otlt.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Otlt.Gs.Tmp.Prlmnry.FMI", + "bit_position": 52, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the gas oxidation catalyst outlet gas temperature sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Intk.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Intk.Gs.Tmp.Prlmnry.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the gas oxidation catalyst intake gas temperature sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Dff.Prss" : { + "generic_name": "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Dff.Prss", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Exhaust differential pressure measured between the intake and exhaust of the gas oxidation catalyst in exhaust bank 2.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Otlt.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Otlt.Gs.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts leaving the gas oxidation catalyst in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Intk.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt2.Gs.Oxdtn.Ctlyst.Intk.Gs.Tmp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts entering the gas oxidation catalyst in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64799": { + "comment": "Aftertreatment 2 Diesel Oxidation Catalyst", + "length": 8, + "name": "A2DOC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Dsl.Oxdtn.Ctlyst.Otlt.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Dsl.Oxdtn.Ctlyst.Otlt.Gs.Tmp.Prlmnry.FMI", + "bit_position": 52, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel oxidation catalyst outlet gas temperature sensor by", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Dsl.Oxdtn.Ctlyst.Intk.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Dsl.Oxdtn.Ctlyst.Intk.Gs.Tmp.Prlmnry.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel oxidation catalyst intake gas temperature sensor by", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Dsl.Oxdtn.Ctlyst.Dff.Prss" : { + "generic_name": "Aftrtrtmnt2.Dsl.Oxdtn.Ctlyst.Dff.Prss", + "bit_position": 31, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Exhaust differential pressure measured between the intake and exhaust of a diesel oxidation catalyst in exhaust bank 2.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Dsl.Oxdtn.Ctlyst.Otlt.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt2.Dsl.Oxdtn.Ctlyst.Otlt.Gs.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts leaving the diesel oxidation catalyst exhaust in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Dsl.Oxdtn.Ctlyst.Intk.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt2.Dsl.Oxdtn.Ctlyst.Intk.Gs.Tmp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts entering the diesel oxidation catalyst in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Dsl.Oxdtn.Ctlyst.Dff.Prss.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Dsl.Oxdtn.Ctlyst.Dff.Prss.Prlmnry.FMI", + "bit_position": 57, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel oxidation catalyst differential pressure sensor by the", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64829": { + "comment": "Aftertreatment 1 SCR Reagant Tank 2 Information", + "length": 8, + "name": "A1SCRRT2I", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk2.Htr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk2.Htr.Prlmnry.FMI", + "bit_position": 55, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent tank 2 heater, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk2.Htr" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk2.Htr", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The SCR catalyst reagent tank 2 heater percentage for aftertreatment system 1 (exhaust bank 1).", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRRgnt.Tnk2.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRRgnt.Tnk2.Tmp.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent tank 2 temperature, by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk2.Lvl.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk2.Lvl.Prlmnry.FMI", + "bit_position": 31, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent tank 2 level, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk2.Lvl2" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk2.Lvl2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The SCR catalyst reagent tank 2 level height in mm for aftertreatment system 1 (exhaust bank 1).", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk2.Tmp" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk2.Tmp", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "The SCR catalyst reagent tank 2 temperature for aftertreatment system 1 (exhaust bank 1).", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk2.Lvl" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk2.Lvl", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The SCR catalyst reagent tank 2 level percentage for aftertreatment system 1 (exhaust bank 1).", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64828": { + "comment": "Aftertreatment 1 SCR Reagent Supply Information", + "length": 8, + "name": "A1SCRRSI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk.Drn.Vlv.Cmd" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk.Drn.Vlv.Cmd", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Commanded percentage of maximum Aftertreatment 1 SCR Catalyst Reagent Tank Drain Valve opening.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Pmp.Stte" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Pmp.Stte", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State of aftertreatment 1 SCR Catalyst Reagent dosing pump.", + "is_big_endian": false, + "is_signed": false, + "states": { + "pumpOperational": [0], + "pumpError": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk.Fll.Vlv.Cmd" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Tnk.Fll.Vlv.Cmd", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Commanded percentage of maximum Aftertreatment 1 SCR Catalyst Reagent Tank Fill Valve opening.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Rtrn.Vlv" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Rtrn.Vlv", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Command to the valve which determines whether the reagent is delivered to the injector or is routed back to the reagent", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Pmp.Drv.Prcntg" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Pmp.Drv.Prcntg", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The percent (command) sent to the motor to control the speed of the reagent pump.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Pmp.Mtr.Spd" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Pmp.Mtr.Spd", + "bit_position": -1, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Rotational speed of the motor driving a pump for reagent used in an aftertreatment system.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64830": { + "comment": "Aftertreatment 1 SCR Exhaust Gas Temperature", + "length": 8, + "name": "A1SCREGT", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.SCRCtlyst.Otlt.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Otlt.Gs.Tmp.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst outlet gas temperature sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Otlt.Gas.Temp" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Otlt.Gas.Temp", + "bit_position": 23, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts leaving the SCR catalyst exhaust in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Intk.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Intk.Gs.Tmp.Prlmnry.FMI", + "bit_position": 15, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst intake gas temperature sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Intk.Gas.Temp" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Intk.Gas.Temp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts entering the SCR catalyst in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64831": { + "comment": "Aftertreatment 1 SCR Exhaust Gas Pressures", + "length": 8, + "name": "A1SCREGP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.SCRCtlyst.Exhst.Gs.Dff.Prss.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Exhst.Gs.Dff.Prss.Prlmnry.FMI", + "bit_position": 15, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst differential pressure sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Exhst.Gs.Dff.Prss" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Exhst.Gs.Dff.Prss", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Exhaust differential pressure measured between the intake and exhaust of a SCR catalyst in exhaust bank 1.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64832": { + "comment": "Aftertreatment 1 SCR Dosing System Requests 2", + "length": 8, + "name": "A1SCRDSR2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.SCRCtlyst.Tnk2.Hter.Cmd" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Tnk2.Hter.Cmd", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "This is the command for the Aftertreatment 1 SCR Catalyst Tank 2 Heater.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Tnk.Hater.Cmd" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Tnk.Hater.Cmd", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Command for the Aftertreatment 1 SCR Catalyst Tank Heater.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Hter4" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Hter4", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 4 request for aftertreatment system 1 (exhaust bank 1).", + "is_big_endian": false, + "is_signed": false, + "states": { + "RqForHeaterToBeInactive": [0], + "RqForHeaterToBeActive": [1], + "rservedForFutureAssignmentBySAE": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Hter3" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Hter3", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 3 request for aftertreatment system 1 (exhaust bank 1).", + "is_big_endian": false, + "is_signed": false, + "states": { + "RqForHeaterToBeInactive": [0], + "RqForHeaterToBeActive": [1], + "rservedForFutureAssignmentBySAE": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Hter2" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Hter2", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 2 request for aftertreatment system 1 (exhaust bank 1).", + "is_big_endian": false, + "is_signed": false, + "states": { + "RqForHeaterToBeInactive": [0], + "RqForHeaterToBeActive": [1], + "rservedForFutureAssignmentBySAE": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Hter1" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Hter1", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 1 request for aftertreatment system 1 (exhaust bank 1).", + "is_big_endian": false, + "is_signed": false, + "states": { + "RqForHeaterToBeInactive": [0], + "RqForHeaterToBeActive": [1], + "rservedForFutureAssignmentBySAE": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt1.SCRDser.Heating.Mode.Rq" : { + "generic_name": "Aftrtrtmnt1.SCRDser.Heating.Mode.Rq", + "bit_position": 3, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Used if multiple heater modes are available in the Doser.", + "is_big_endian": false, + "is_signed": false, + "states": { + "HeaterOff": [0], + "HeaterEconomyMode": [1], + "HeaterAutomaticMode": [2], + "HeaterOn": [3], + "110Reserved": [4], + "NotAvailable": [7] + } + }, + "Aftrtrtmnt1.SCRDsr.Flt.Spprssion.Rq" : { + "generic_name": "Aftrtrtmnt1.SCRDsr.Flt.Spprssion.Rq", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Used if external devices can warn of conditions that require suppression of potential faults in the doser due to", + "is_big_endian": false, + "is_signed": false, + "states": { + "ErrorSuppressionOff": [0], + "ErrorSuppressionOn": [1], + "Reserved": [2], + "NotAvailable": [3] + } + } + } + }, + "61476": { + "comment": "Aftertreatment 1 SCR Dosing System Requests 1", + "length": 8, + "name": "A1SCRDSR1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.SCRRqd.Rgnt.Qntty.Fr.Intgrtr" : { + "generic_name": "Aftrtrtmnt1.SCRRqd.Rgnt.Qntty.Fr.Intgrtr", + "bit_position": 23, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Represents the command for the reducing agent quantity integrator in the dosing control unit", + "unit": "g", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtratment1.SCRSystem.Rqed.State" : { + "generic_name": "Aftrtratment1.SCRSystem.Rqed.State", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Requested state of SCR system for aftertreatment system 1 (exhaust bank 1).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Dormant": [0], + "PreparingDosingReadiness": [1], + "NormalDosingOperation": [2], + "SystemErrorPending": [3], + "RservedForFutureAssignmentBySAE": [4], + "ProtectModeAgainstHeat": [5], + "ProtectModeAgainstCold": [6], + "Shutoff": [7], + "Diagnosis": [8], + "ServiceTestModeDosingAllowed": [9], + "ServiceTestModeDosingNotAllowed": [10], + "1101RsrvdFrFtureAssignmentBySAE": [11], + "Error": [14], + "NotAvailable": [15] + } + }, + "Aftrtrtmnt1.SCRRqd.Dsng.Rgnt.Qntity" : { + "generic_name": "Aftrtrtmnt1.SCRRqd.Dsng.Rgnt.Qntity", + "bit_position": -1, + "bit_size": 16, + "factor": 0.3, + "offset": 0, + "min_value": 0, + "max_value": 19276.5, + "comment": "Actual requested dosing quantity of catalyst reagent", + "unit": "g/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64833": { + "comment": "Aftertreatment 1 SCR Dosing System Information 2", + "length": 8, + "name": "A1SCRDSI2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr4.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr4.Prlmnry.FMI", + "bit_position": 57, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent line heater 4, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr4.Stt" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr4.Stt", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 4 state for aftertreatment system 1 (exhaust bank 1).", + "is_big_endian": false, + "is_signed": false, + "states": { + "heaterInactive": [0], + "heaterActive": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr3.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr3.Prlmnry.FMI", + "bit_position": 49, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent line heater 3, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr3.Stt" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr3.Stt", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 3 state for aftertreatment system 1 (exhaust bank 1).", + "is_big_endian": false, + "is_signed": false, + "states": { + "heaterInactive": [0], + "heaterActive": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr2.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr2.Prlmnry.FMI", + "bit_position": 41, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent line heater 2, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr2.Stt" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr2.Stt", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 2 state for aftertreatment system 1 (exhaust bank 1).", + "is_big_endian": false, + "is_signed": false, + "states": { + "heaterInactive": [0], + "heaterActive": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr1.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr1.Prlmnry.FMI", + "bit_position": 33, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the SCR catalyst reagent line heater 1, by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr1.Stt" : { + "generic_name": "Aftrtrtmnt1.SCRCtlyst.Rgnt.Ln.Htr1.Stt", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The SCR catalyst reagent line heater 1 state for aftertreatment system 1 (exhaust bank 1).", + "is_big_endian": false, + "is_signed": false, + "states": { + "heaterInactive": [0], + "heaterActive": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt1.SCRFedback.Ctrl.Status" : { + "generic_name": "Aftrtrtmnt1.SCRFedback.Ctrl.Status", + "bit_position": 26, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "The SCR feedback control status (open/closed loop) for aftertreatment system 1 (exhaust bank 1).", + "is_big_endian": false, + "is_signed": false, + "states": { + "openLoopCtrlActive": [0], + "closedLoopCtrlActive": [1], + "rservedForFutureAssignmentBySAE": [5], + "error": [6], + "notAvailable": [7] + } + }, + "Aftrtrtmnt1.SCRDsng.Vlv.Exhst.Tmp.Rdctn.Rq" : { + "generic_name": "Aftrtrtmnt1.SCRDsng.Vlv.Exhst.Tmp.Rdctn.Rq", + "bit_position": 23, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Protection request for the dosing valve of the SCR-system to prevent overheating", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoRq": [0], + "ReductionRqStage1": [1], + "ReductionRqStage2": [2], + "RservedForFutureAssignmentBySAE": [5], + "Error": [6], + "NotAvailable": [7] + } + }, + "Aftrtrtmnt1.SCRDosing.Reagent.Temp" : { + "generic_name": "Aftrtrtmnt1.SCRDosing.Reagent.Temp", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "The SCR dosing reagent temperature (measured closest to dosing valve) for aftertreatment system 1 (exhaust bank 1).", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRDsng.Ar.Assist.Valve" : { + "generic_name": "Aftrtrtmnt1.SCRDsng.Ar.Assist.Valve", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The position of the valve used to regulate the air supply of an air assist SCR dosing system for an engine.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRDsng.Ar.Assst.Abs.Prss" : { + "generic_name": "Aftrtrtmnt1.SCRDsng.Ar.Assst.Abs.Prss", + "bit_position": -1, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "The SCR dosing system air assist absolute pressure for aftertreatment system 1 (exhaust bank 1).", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61475": { + "comment": "Aftertreatment 1 SCR Dosing System Information 1", + "length": 8, + "name": "A1SCRDSI1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.SCRDsng.Rgent.Abs.Press" : { + "generic_name": "Aftrtrtmnt1.SCRDsng.Rgent.Abs.Press", + "bit_position": 39, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "The SCR dosing reagent absolute pressure (measured closest to dosing valve) for aftertreatment system 1 (exhaust bank", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.SCRActl.Rgnt.Qntty.Of.Intgrtr" : { + "generic_name": "Aftrtrtmnt1.SCRActl.Rgnt.Qntty.Of.Intgrtr", + "bit_position": 23, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The SCR requested reagent integrator total quantity for aftertreatment system 1 (exhaust bank 1).", + "unit": "g", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.SCRSystem.State" : { + "generic_name": "Aftertreatment1.SCRSystem.State", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Actual state of SCR system", + "is_big_endian": false, + "is_signed": false, + "states": { + "Dormant": [0], + "PreparingDosingReadiness": [1], + "NormalDosingOperation": [2], + "SystemErrorPending": [3], + "RservedForFutureAssignmentBySAE": [4], + "ProtectModeAgainstHeat": [5], + "ProtectModeAgainstCold": [6], + "Shutoff": [7], + "Diagnosis": [8], + "ServiceTestModeDosingAllowed": [9], + "ServiceTestModeDosingNotAllowed": [10], + "1101RsrvdFrFtureAssignmentBySAE": [11], + "Error": [14], + "NotAvailable": [15] + } + }, + "Aftrtrtmnt1.SCRActl.Dsng.Rgnt.Qntty" : { + "generic_name": "Aftrtrtmnt1.SCRActl.Dsng.Rgnt.Qntty", + "bit_position": -1, + "bit_size": 16, + "factor": 0.3, + "offset": 0, + "min_value": 0, + "max_value": 19276.5, + "comment": "Actual reducing agent quantity of SCR-system", + "unit": "g/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61477": { + "comment": "Aftertreatment 1 SCR Ammonia Information", + "length": 8, + "name": "A1SCRAI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Otlt.NH3.Gs.Snsr.Htr.Ctrl" : { + "generic_name": "Aftrtrtmnt1.Otlt.NH3.Gs.Snsr.Htr.Ctrl", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the heater status in the warm-up process.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Automatic": [0], + "Preheat2": [1], + "Preheat1": [2], + "HeaterOffNotAvailable": [3] + } + }, + "Aftrtrtmnt1.Otlt.NH3.Gs.Snsr.Htr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Otlt.NH3.Gs.Snsr.Htr.Prlmnry.FMI", + "bit_position": 31, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the heater of the outlet NH3 exhaust gas sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Otlt.NH3.Gs.Snsor.At.Temp" : { + "generic_name": "Aftrtrtmnt1.Otlt.NH3.Gs.Snsor.At.Temp", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the heater element of the aftertreatment outlet NH3 gas sensor is within the manufacturer's specified range", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Otlt.NH3.Gs.Snsr.Pwr.In.Rng" : { + "generic_name": "Aftrtrtmnt1.Otlt.NH3.Gs.Snsr.Pwr.In.Rng", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the power supplied to the aftertreatment outlet NH3 gas sensor is within the manufacturer's specification in", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Otlt.NH3.Reading.Stable" : { + "generic_name": "Aftrtrtmnt1.Otlt.NH3.Reading.Stable", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the NH3 reading of the aftertreatment outlet NH3 sensor is stable as determined by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Otlt.NH3.Snsr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Otlt.NH3.Snsr.Prlmnry.FMI", + "bit_position": 15, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the aftertreatment outlet NH3 sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Outlet.NH3" : { + "generic_name": "Aftertreatment1.Outlet.NH3", + "bit_position": -1, + "bit_size": 16, + "factor": 0.3, + "offset": 0, + "min_value": 0, + "max_value": 19276.5, + "comment": "The amount of NH3 in the exhaust exiting the aftertreatment system measured by a NH3 sensor at the aftertreatment", + "unit": "g/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64802": { + "comment": "Aftertreatment 1 Gas Oxidation Catalyst", + "length": 8, + "name": "A1GOC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Dff.Prss.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Dff.Prss.Prlmnry.FMI", + "bit_position": 57, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the gas oxidation catalyst differential pressure sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Otlt.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Otlt.Gs.Tmp.Prlmnry.FMI", + "bit_position": 52, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the gas oxidation catalyst outlet gas temperature sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Intk.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Intk.Gs.Tmp.Prlmnry.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the gas oxidation catalyst intake gas temperature sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Dff.Prss" : { + "generic_name": "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Dff.Prss", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Exhaust differential pressure measured between the intake and exhaust of the gas oxidation catalyst in exhaust bank 1.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Otlt.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Otlt.Gs.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts leaving the gas oxidation catalyst in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Intk.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt1.Gs.Oxdtn.Ctlyst.Intk.Gs.Tmp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts entering the gas oxidation catalyst in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64864": { + "comment": "HB1C provides the system specific individual B1 failure counters", + "length": 8, + "name": "DM40", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Failure.Specific.B1.Counter" : { + "generic_name": "Failure.Specific.B1.Counter", + "bit_position": 23, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The Failure Specific B1 Counter provides an individual B1 counter", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Failure.Mode.Identifier1" : { + "generic_name": "Failure.Mode.Identifier1", + "bit_position": 15, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "The FMI defines the type of failure detected in the subsystem identified by an SPN.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Above normal (most severe)": [0], + "Below normal (most severe)": [1], + "Data erratic": [2], + "Voltage above normal": [3], + "Voltage below normal": [4], + "Current below normal": [5], + "Current above normal": [6], + "Mechanical system not responding": [7], + "Abnormal frequency": [8], + "Abnormal update rate": [9], + "Abnormal rate of change": [10], + "Root cause not known": [11], + "Bad intelligent device": [12], + "Out of calibration": [13], + "Special intstructions": [14], + "Above normal (least severe)": [15], + "Above normal (moderately severe)": [16], + "Below normal (least severe)": [17], + "Below normal (moderately severe)": [18], + "Received network data in error": [19], + "Not available": [31] + } + }, + "S.PN1.High" : { + "generic_name": "S.PN1.High", + "bit_position": 20, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "SPN #1 (Conversion Version 4)", + "is_big_endian": false, + "is_signed": false + }, + "SPN1" : { + "generic_name": "SPN1", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65536, + "comment": "SPN #1 (Conversion Version 4)", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64865": { + "comment": "Cumulative Continuous MI-System", + "length": 8, + "name": "DM39", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Sys.Greatest.B1.Counter" : { + "generic_name": "Sys.Greatest.B1.Counter", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "System Greatest B1 Counter", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + }, + "Sys.Cumulative.Continuous.MITime" : { + "generic_name": "Sys.Cumulative.Continuous.MITime", + "bit_position": -1, + "bit_size": 32, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 210554060.75, + "comment": "System Cumulative Continuous MI Time", + "unit": "hr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64866": { + "comment": "Harmonized Global Regulation Description", + "length": 8, + "name": "DM38", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Regulation.Description" : { + "generic_name": "Regulation.Description", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Global Technical Regulation Description", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64867": { + "comment": "Harmonized Roadworthiness", + "length": 8, + "name": "DM37", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Sys.Incomplete.Monitor.Count" : { + "generic_name": "Sys.Incomplete.Monitor.Count", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64512, + "comment": "System Incomplete Monitor Count", + "is_big_endian": false, + "is_signed": false + }, + "Sys.Mal.Ind.Activation.Mode" : { + "generic_name": "Sys.Mal.Ind.Activation.Mode", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "System Malfunction Indicator Status", + "is_big_endian": false, + "is_signed": false + }, + "Sys.Mal.Ind.Display.Strategy" : { + "generic_name": "Sys.Mal.Ind.Display.Strategy", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "System Malfunction Indicator Display", + "is_big_endian": false, + "is_signed": false + }, + "Sys.Continuous.Malfunction.Ind" : { + "generic_name": "Sys.Continuous.Malfunction.Ind", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "System Continuous Malfunction Indicator", + "is_big_endian": false, + "is_signed": false + }, + "Sys.Non.Roadworthy.Comp.Count" : { + "generic_name": "Sys.Non.Roadworthy.Comp.Count", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "System Non-Roadworthy Component Count", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64868": { + "comment": "Harmonized Roadworthiness ", + "length": 8, + "name": "DM36", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Vehicle.Current.MIAccum.Time" : { + "generic_name": "Vehicle.Current.MIAccum.Time", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Vehicle Current MI Accumulated Time", + "unit": "min", + "is_big_endian": false, + "is_signed": false + }, + "Vehicle.Incomplete.Monitor.Count" : { + "generic_name": "Vehicle.Incomplete.Monitor.Count", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Vehicle Incomplete Monitor Count", + "is_big_endian": false, + "is_signed": false + }, + "Vehicle.Malfunction.Ind.Act.Mode" : { + "generic_name": "Vehicle.Malfunction.Ind.Act.Mode", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Vehicle Malfunction Indicator Status ", + "is_big_endian": false, + "is_signed": false + }, + "Vehicle.Malfunction.Ind.Strategy" : { + "generic_name": "Vehicle.Malfunction.Ind.Strategy", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Vehicle Malfunction Indicator Display Strategy ", + "is_big_endian": false, + "is_signed": false + }, + "Vehicle.Continuous.Malfunction.Ind" : { + "generic_name": "Vehicle.Continuous.Malfunction.Ind", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Vehicle Continuous Malfunction Indicator", + "is_big_endian": false, + "is_signed": false + }, + "Vehicle.Non.Roadworthy.Comp.Count" : { + "generic_name": "Vehicle.Non.Roadworthy.Comp.Count", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Vehicle Non-Roadworthy Component Count", + "is_big_endian": false, + "is_signed": false + } + } + }, + "41214": { + "comment": "The status of engine operating in the NTE control areas for given pollutants, such as NOx and PM", + "length": 8, + "name": "DM34", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "P.MNTEDeficiency.Area.Status" : { + "generic_name": "P.MNTEDeficiency.Area.Status", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of engine operation within the PM NTE Deficiency Area", + "is_big_endian": false, + "is_signed": false, + "states": { + "OutsideControlArea": [0], + "InsideControlArea": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Mnfc.PMNTECarve.Out.Area.Status" : { + "generic_name": "Mnfc.PMNTECarve.Out.Area.Status", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of engine operation within the manufacturer specific PM NTE carve out area", + "is_big_endian": false, + "is_signed": false, + "states": { + "OutsideControlArea": [0], + "InsideControlArea": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "P.MNTEControl.Area.Status" : { + "generic_name": "P.MNTEControl.Area.Status", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of engine operation within the bounded region of the engine's torque and speed map.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OutsideControlArea": [0], + "InsideControlArea": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "N.Ox.NTEDeficiency.Area.Status" : { + "generic_name": "N.Ox.NTEDeficiency.Area.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of engine operation within the NOx NTE Deficiency Area", + "is_big_endian": false, + "is_signed": false, + "states": { + "OutsideControlArea": [0], + "InsideControlArea": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "Mnfc.NOx.NTECarve.Out.Area.Status" : { + "generic_name": "Mnfc.NOx.NTECarve.Out.Area.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of engine operation within the bounded region of the engine's torque and speed map.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OutsideControlArea": [0], + "InsideControlArea": [1], + "Reserved": [2], + "NotAvailable": [3] + } + }, + "N.Ox.NTEControl.Area.Status" : { + "generic_name": "N.Ox.NTEControl.Area.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Status of engine operation within the bounded region of the engine's torque and speed map.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OutsideControlArea": [0], + "InsideControlArea": [1], + "Reserved": [2], + "NotAvailable": [3] + } + } + } + }, + "41470": { + "comment": "The total engine run time while each of the Emission Increasing Auxiliary Emission Control Devices is active", + "length": 9, + "name": "DM33", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "A.ECDEngine.Hours1.Timer2" : { + "generic_name": "A.ECDEngine.Hours1.Timer2", + "bit_position": 39, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "The total engine running hours recorded in the second timer for the EI-AECD", + "unit": "min", + "is_big_endian": false, + "is_signed": false + }, + "A.ECDEngine.Hours1.Timer1" : { + "generic_name": "A.ECDEngine.Hours1.Timer1", + "bit_position": 7, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "The total engine running hours recorded in the first timer for the EI-AECD", + "unit": "min", + "is_big_endian": false, + "is_signed": false + }, + "A.ECDNumber1" : { + "generic_name": "A.ECDNumber1", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The manufacturer assigned number for the specific EI-AECD", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65126": { + "comment": "Battery Main Switch Information", + "length": 8, + "name": "BM", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Battery.Main.Switch.Hold.State" : { + "generic_name": "Battery.Main.Switch.Hold.State", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Parameter indicating whether the battery main switch is held due to an external request or not.", + "is_big_endian": false, + "is_signed": false, + "states": { + "BatteryMainSwitchNotHeld": [0], + "BatteryMainSwitchHeld": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + } + } + }, + "64986": { + "comment": "Basic Joystick Message 3", + "length": 8, + "name": "BJM3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Joystick3.XAxis.Detent.Pos.Status" : { + "generic_name": "Joystick3.XAxis.Detent.Pos.Status", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Button9.Pressed.Status" : { + "generic_name": "Joystick3.Button9.Pressed.Status", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Button10.Pressed.Status" : { + "generic_name": "Joystick3.Button10.Pressed.Status", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Button11.Pressed.Status" : { + "generic_name": "Joystick3.Button11.Pressed.Status", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Button12.Pressed.Status" : { + "generic_name": "Joystick3.Button12.Pressed.Status", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.YAxis.Detent.Pos.Status" : { + "generic_name": "Joystick3.YAxis.Detent.Pos.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.YAxis.Pos" : { + "generic_name": "Joystick3.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck3.YAxs.Lvr.Frwrd.Pstv.Ps.Status" : { + "generic_name": "Jystck3.YAxs.Lvr.Frwrd.Pstv.Ps.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck3.YAxs.Lvr.Bck.Ngtve.Pos.Status" : { + "generic_name": "Jystck3.YAxs.Lvr.Bck.Ngtve.Pos.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.YAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick3.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.XAxis.Pos" : { + "generic_name": "Joystick3.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck3.XAxs.Lvr.Rght.Pstv.Pos.Status" : { + "generic_name": "Jystck3.XAxs.Lvr.Rght.Pstv.Pos.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck3.XAxs.Lvr.Lft.Ngtve.Pos.Status" : { + "generic_name": "Jystck3.XAxs.Lvr.Lft.Ngtve.Pos.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.XAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick3.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Button5.Pressed.Status" : { + "generic_name": "Joystick3.Button5.Pressed.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Button6.Pressed.Status" : { + "generic_name": "Joystick3.Button6.Pressed.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Button7.Pressed.Status" : { + "generic_name": "Joystick3.Button7.Pressed.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Button8.Pressed.Status" : { + "generic_name": "Joystick3.Button8.Pressed.Status", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Button1.Pressed.Status" : { + "generic_name": "Joystick3.Button1.Pressed.Status", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Button2.Pressed.Status" : { + "generic_name": "Joystick3.Button2.Pressed.Status", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Button3.Pressed.Status" : { + "generic_name": "Joystick3.Button3.Pressed.Status", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick3.Button4.Pressed.Status" : { + "generic_name": "Joystick3.Button4.Pressed.Status", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64984": { + "comment": "Basic Joystick Message 2", + "length": 8, + "name": "BJM2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Joystick2.XAxis.Detent.Pos.Status" : { + "generic_name": "Joystick2.XAxis.Detent.Pos.Status", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.YAxis.Detent.Pos.Status" : { + "generic_name": "Joystick2.YAxis.Detent.Pos.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.YAxis.Pos" : { + "generic_name": "Joystick2.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck2.YAxs.Lvr.Frwrd.Pstv.Ps.Status" : { + "generic_name": "Jystck2.YAxs.Lvr.Frwrd.Pstv.Ps.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck2.YAxs.Lvr.Bck.Ngtve.Pos.Status" : { + "generic_name": "Jystck2.YAxs.Lvr.Bck.Ngtve.Pos.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.YAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick2.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.XAxis.Pos" : { + "generic_name": "Joystick2.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck2.XAxs.Lvr.Rght.Pstv.Pos.Status" : { + "generic_name": "Jystck2.XAxs.Lvr.Rght.Pstv.Pos.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck2.XAxs.Lvr.Lft.Ngtve.Pos.Status" : { + "generic_name": "Jystck2.XAxs.Lvr.Lft.Ngtve.Pos.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.XAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick2.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Button9.Pressed.Status" : { + "generic_name": "Joystick2.Button9.Pressed.Status", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Button10.Pressed.Status" : { + "generic_name": "Joystick2.Button10.Pressed.Status", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Button11.Pressed.Status" : { + "generic_name": "Joystick2.Button11.Pressed.Status", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Button12.Pressed.Status" : { + "generic_name": "Joystick2.Button12.Pressed.Status", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Button5.Pressed.Status" : { + "generic_name": "Joystick2.Button5.Pressed.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Button6.Pressed.Status" : { + "generic_name": "Joystick2.Button6.Pressed.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Button7.Pressed.Status" : { + "generic_name": "Joystick2.Button7.Pressed.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Button8.Pressed.Status" : { + "generic_name": "Joystick2.Button8.Pressed.Status", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Button1.Pressed.Status" : { + "generic_name": "Joystick2.Button1.Pressed.Status", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Button2.Pressed.Status" : { + "generic_name": "Joystick2.Button2.Pressed.Status", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Button3.Pressed.Status" : { + "generic_name": "Joystick2.Button3.Pressed.Status", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick2.Button4.Pressed.Status" : { + "generic_name": "Joystick2.Button4.Pressed.Status", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "64982": { + "comment": "Basic Joystick Message 1", + "length": 8, + "name": "BJM1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Joystick1.XAxis.Detent.Pos.Status" : { + "generic_name": "Joystick1.XAxis.Detent.Pos.Status", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.YAxis.Detent.Pos.Status" : { + "generic_name": "Joystick1.YAxis.Detent.Pos.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the detent position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInDetentPos": [0], + "InDetentPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.YAxis.Pos" : { + "generic_name": "Joystick1.YAxis.Pos", + "bit_position": 21, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Jystck1.YAxs.Lvr.Frwrd.Pstv.Ps.Status" : { + "generic_name": "Jystck1.YAxs.Lvr.Frwrd.Pstv.Ps.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck1.YAxs.Lvr.Bck.Ngtve.Pos.Status" : { + "generic_name": "Jystck1.YAxs.Lvr.Bck.Ngtve.Pos.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.YAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick1.YAxis.Neutral.Pos.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.XAxis.Pos" : { + "generic_name": "Joystick1.XAxis.Pos", + "bit_position": 5, + "bit_size": 10, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 102, + "comment": "The position of the joystick in the relative motion of travel from the neutral position.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Joystick1.Button9.Pressed.Status" : { + "generic_name": "Joystick1.Button9.Pressed.Status", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Button10.Pressed.Status" : { + "generic_name": "Joystick1.Button10.Pressed.Status", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Button11.Pressed.Status" : { + "generic_name": "Joystick1.Button11.Pressed.Status", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Button12.Pressed.Status" : { + "generic_name": "Joystick1.Button12.Pressed.Status", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Button5.Pressed.Status" : { + "generic_name": "Joystick1.Button5.Pressed.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Button6.Pressed.Status" : { + "generic_name": "Joystick1.Button6.Pressed.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Button7.Pressed.Status" : { + "generic_name": "Joystick1.Button7.Pressed.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Button8.Pressed.Status" : { + "generic_name": "Joystick1.Button8.Pressed.Status", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Button1.Pressed.Status" : { + "generic_name": "Joystick1.Button1.Pressed.Status", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Button2.Pressed.Status" : { + "generic_name": "Joystick1.Button2.Pressed.Status", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Button3.Pressed.Status" : { + "generic_name": "Joystick1.Button3.Pressed.Status", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.Button4.Pressed.Status" : { + "generic_name": "Joystick1.Button4.Pressed.Status", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the joystick button has been pressed.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ButtonNotPressed": [0], + "ButtonPressed": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck1.XAxs.Lvr.Rght.Pstv.Pos.Status" : { + "generic_name": "Jystck1.XAxs.Lvr.Rght.Pstv.Pos.Status", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the positive travel side (forward, right, clockwise, up) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnPositiveSideOfNeutral": [0], + "OnPositiveSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Jystck1.XAxs.Lvr.Lft.Ngtve.Pos.Status" : { + "generic_name": "Jystck1.XAxs.Lvr.Lft.Ngtve.Pos.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is on the negative travel side (back, left, counterclockwise, down) relative to the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOnNegativeSideOfNeutral": [0], + "OnNegativeSideOfNeutral": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Joystick1.XAxis.Neutral.Pos.Status" : { + "generic_name": "Joystick1.XAxis.Neutral.Pos.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Reports when the current joystick position is in the neutral position for that axis of travel.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInNeutralPos": [0], + "InNeutralPos": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + } + } + }, + "65274": { + "comment": "Brakes", + "length": 8, + "name": "B", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Parking.Brake.Red.Warning.Signal" : { + "generic_name": "Parking.Brake.Red.Warning.Signal", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter commands the Parking Brake red optical warning signal.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Park.Brake.Release.Inhibit.Status" : { + "generic_name": "Park.Brake.Release.Inhibit.Status", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides reports on the status of the Park Brake Release Inhibit function.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ParkBrakeReleaseIsNotInhibited": [0], + "ParkBrakeReleaseIsInhibited": [1], + "Error": [2], + "Unavailable": [3] + } + }, + "Parking.Brake.Actuator" : { + "generic_name": "Parking.Brake.Actuator", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the current state of the actuator(s) that control the parking brake (see also SPN 70).", + "is_big_endian": false, + "is_signed": false, + "states": { + "ParkingBrakeActuatorInactive": [0], + "ParkingBrakeActuatorActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Brake.Second.Press" : { + "generic_name": "Brake.Second.Press", + "bit_position": 15, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Gage pressure of air in the secondary, or service side, of the air brake system.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Brake.Primary.Press" : { + "generic_name": "Brake.Primary.Press", + "bit_position": 7, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Gage pressure of air in the primary, or supply side, of the air brake system.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Brake.App.Press" : { + "generic_name": "Brake.App.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Gage pressure of compressed air or fluid in vehicle braking system measured at the brake chamber when brake shoe (or", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65278": { + "comment": "Auxiliary Water Pump Pressure", + "length": 8, + "name": "AWPP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aux.Pump.Press" : { + "generic_name": "Aux.Pump.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 16, + "offset": 0, + "min_value": 0, + "max_value": 4000, + "comment": "Gage pressure of auxiliary water pump driven as a PTO device.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64800": { + "comment": "Aftertreatment 1 Diesel Oxidation Catalyst", + "length": 8, + "name": "A1DOC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Dsl.Oxdtn.Ctlyst.Dff.Prss.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Dsl.Oxdtn.Ctlyst.Dff.Prss.Prlmnry.FMI", + "bit_position": 57, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel oxidation catalyst differential pressure sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Dsl.Oxdtn.Ctlyst.Otlt.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Dsl.Oxdtn.Ctlyst.Otlt.Gs.Tmp.Prlmnry.FMI", + "bit_position": 52, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel oxidation catalyst outlet gas temperature sensor by", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Dsl.Oxdtn.Ctlyst.Intk.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Dsl.Oxdtn.Ctlyst.Intk.Gs.Tmp.Prlmnry.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel oxidation catalyst intake gas temperature sensor by", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Dsl.Oxdtn.Ctlyst.Dff.Prss" : { + "generic_name": "Aftrtrtmnt1.Dsl.Oxdtn.Ctlyst.Dff.Prss", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Exhaust differential pressure measured between the intake and exhaust of a diesel oxidation catalyst in exhaust bank 1.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Dsl.Oxdtn.Ctlyst.Otlt.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt1.Dsl.Oxdtn.Ctlyst.Otlt.Gs.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts leaving the diesel oxidation catalyst exhaust in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Dsl.Oxdtn.Ctlyst.Intk.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt1.Dsl.Oxdtn.Ctlyst.Intk.Gs.Tmp", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts entering the diesel oxidation catalyst in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "41982": { + "comment": "This message shall provide the applicable lamp for each individual DTC", + "length": 8, + "name": "DM31", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "D.TCWarn.Lamp.Support.Status" : { + "generic_name": "D.TCWarn.Lamp.Support.Status", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lamp support status", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "Unavailable": [3] + } + }, + "D.TCWarn.Lamp.Support.Flash" : { + "generic_name": "D.TCWarn.Lamp.Support.Flash", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lamp support status", + "is_big_endian": false, + "is_signed": false, + "states": { + "SlowFlash": [0], + "FastFlash": [1], + "Reserved": [2], + "Unavailable": [3] + } + }, + "D.TCStop.Lamp.Support.Status" : { + "generic_name": "D.TCStop.Lamp.Support.Status", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lamp support status", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "Unavailable": [3] + } + }, + "D.TCStop.Lamp.Support.Flash" : { + "generic_name": "D.TCStop.Lamp.Support.Flash", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lamp support status", + "is_big_endian": false, + "is_signed": false, + "states": { + "SlowFlash": [0], + "FastFlash": [1], + "Reserved": [2], + "Unavailable": [3] + } + }, + "D.TCProtect.Lamp.Support.Status" : { + "generic_name": "D.TCProtect.Lamp.Support.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lamp support status", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "Reserved": [2], + "Unavailable": [3] + } + }, + "D.TCProtect.Lamp.Support.Flash" : { + "generic_name": "D.TCProtect.Lamp.Support.Flash", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lamp support status", + "is_big_endian": false, + "is_signed": false, + "states": { + "SlowFlash": [0], + "FastFlash": [1], + "Reserved": [2], + "Unavailable": [3] + } + }, + "D.TCMil.Support.Status" : { + "generic_name": "D.TCMil.Support.Status", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lamp support status", + "is_big_endian": false, + "is_signed": false, + "states": { + "LampOff": [0], + "LampOn": [1], + "ShortMI": [2], + "Unavailable": [3] + } + }, + "D.TCMil.Support.Flash" : { + "generic_name": "D.TCMil.Support.Flash", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lamp support status", + "is_big_endian": false, + "is_signed": false, + "states": { + "SlowFlash": [0], + "FastFlash": [1], + "Class_C_DTC": [2], + "Unavailable": [3] + } + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64839": { + "comment": "Transmission Mode Labels", + "length": 8, + "name": "TML", + "bus" : "j1939" + }, + "39934": { + "comment": "Proprietary Method Identification", + "length": 8, + "name": "PMI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Data.Dictionary.Method" : { + "generic_name": "Data.Dictionary.Method", + "bit_position": 10, + "bit_size": 21, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 2097151, + "comment": "A manufacturer defined code to define the proprietary communications method.", + "is_big_endian": false, + "is_signed": false + }, + "Data.Dictionary.Manufacturer.Code" : { + "generic_name": "Data.Dictionary.Manufacturer.Code", + "bit_position": -1, + "bit_size": 11, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 2047, + "comment": "The J1939 Manufacturer Code (see J1939 Table B10) associated with the manufacturer who defined the proprietary", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64840": { + "comment": "Engine Exhaust Bank 2 O2 Fuel Trim", + "length": 8, + "name": "O2FT2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Shortterm.Fuel.Trim.Bank2" : { + "generic_name": "Shortterm.Fuel.Trim.Bank2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": -100, + "min_value": -100, + "max_value": 100, + "comment": "This parameter is the short-term percent change in fueling based on the O2 sensor feedback for cylinder bank 2, based", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Longterm.Fuel.Trim.Bank2" : { + "generic_name": "Longterm.Fuel.Trim.Bank2", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": -100, + "min_value": -100, + "max_value": 100, + "comment": "This parameter is the long-term percent change in fueling based on the O2 sensor feedback for cylinder bank 2, based on", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Oxygn.Snsr.Clsd.Lp.Oprtn.Bnk2" : { + "generic_name": "Eng.Exhst.Gs.Oxygn.Snsr.Clsd.Lp.Oprtn.Bnk2", + "bit_position": 31, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates the status of the bank 2 O2 sensor feedback closed loop operation", + "is_big_endian": false, + "is_signed": false, + "states": { + "OpnLpHsNtYtStsfdCndtnsTGClsdLop": [0], + "ClsdLpUsngOxygnSnsrAsFdbckFrFlC": [1], + "OpenLoopDueToDrivingConditions": [2], + "OpnLoopDueToDetectedSystemFault": [3], + "ClsdLpBtFltWthAtLstOnOxygnSnsrM": [4], + "1110Reserved": [5], + "NotSupported": [15] + } + } + } + }, + "64841": { + "comment": "Engine Exhaust Bank 1 O2 Fuel Trim", + "length": 8, + "name": "O2FT1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Shortterm.Fuel.Trim.Bank1" : { + "generic_name": "Shortterm.Fuel.Trim.Bank1", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": -100, + "min_value": -100, + "max_value": 100, + "comment": "This parameter is the short-term percent change in fueling based on the O2 sensor feedback for cylinder bank 1, based", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Longterm.Fuel.Trim.Bank1" : { + "generic_name": "Longterm.Fuel.Trim.Bank1", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": -100, + "min_value": -100, + "max_value": 100, + "comment": "This parameter is the long-term percent change in fueling based on the O2 sensor feedback for cylinder bank 1, based on", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Oxygn.Snsr.Clsd.Lp.Oprtn.Bnk1" : { + "generic_name": "Eng.Exhst.Gs.Oxygn.Snsr.Clsd.Lp.Oprtn.Bnk1", + "bit_position": 31, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates the status of the bank 1 O2 sensor feedback closed loop operation", + "is_big_endian": false, + "is_signed": false, + "states": { + "OpnLpHsNtYtStsfdCndtnsTGClsdLop": [0], + "ClsdLpUsngOxygnSnsrAsFdbckFrFlC": [1], + "OpenLoopDueToDrivingConditions": [2], + "OpnLoopDueToDetectedSystemFault": [3], + "ClsdLpBtFltWthAtLstOnOxygnSnsrM": [4], + "1110Reserved": [5], + "NotSupported": [15] + } + } + } + }, + "61473": { + "comment": "Engine Speed Sensor Information", + "length": 8, + "name": "ESSI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Spd.Snsor1.Timing.Pattern.Status" : { + "generic_name": "Eng.Spd.Snsor1.Timing.Pattern.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This is the timing pattern status of the engine speed sensor signal for sensor 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOK": [0], + "OK": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Spd.Snsor2.Timing.Pattern.Status" : { + "generic_name": "Eng.Spd.Snsor2.Timing.Pattern.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This is the timing pattern status of the engine speed sensor signal for sensor 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOK": [0], + "OK": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Spd.Snsor3.Timing.Pattern.Status" : { + "generic_name": "Eng.Spd.Snsor3.Timing.Pattern.Status", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This is the timing pattern status of the engine speed sensor signal for sensor 3.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotOK": [0], + "OK": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Eng.Speed3" : { + "generic_name": "Eng.Speed3", + "bit_position": 31, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "The engine speed as measured by speed sensor 3.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Speed2" : { + "generic_name": "Eng.Speed2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "The engine speed as measured by speed sensor 2", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Speed1" : { + "generic_name": "Eng.Speed1", + "bit_position": -1, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "The engine speed as measured by speed sensor 1.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64850": { + "comment": "Engine Coolant Control Valve Command", + "length": 8, + "name": "ECCVC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Dsrd.Eng.Coolant.Thermostat.Opening" : { + "generic_name": "Dsrd.Eng.Coolant.Thermostat.Opening", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Indicates the desired position of the engine coolant control valve.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Desired.Eng.Coolant.Pump.Outlet.Temp" : { + "generic_name": "Desired.Eng.Coolant.Pump.Outlet.Temp", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Desired engine coolant temperature of the engine to an electronic thermostat.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Coolant.Thermostat.Mode" : { + "generic_name": "Eng.Coolant.Thermostat.Mode", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Specifies if the engine coolant thermostat valve will operate in temperature control mode or position control mode.", + "is_big_endian": false, + "is_signed": false, + "states": { + "TempCtrlMode": [0], + "PosCtrlMode": [1], + "Reserved": [2], + "DontCare_Reserved": [3] + } + } + } + }, + "40190": { + "comment": "Auxiliary Input/Output Status 7", + "length": 8, + "name": "AUXIO7", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aux.I_.OChannel19" : { + "generic_name": "Aux.I_.OChannel19", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel20" : { + "generic_name": "Aux.I_.OChannel20", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel21" : { + "generic_name": "Aux.I_.OChannel21", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel22" : { + "generic_name": "Aux.I_.OChannel22", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel15" : { + "generic_name": "Aux.I_.OChannel15", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel16" : { + "generic_name": "Aux.I_.OChannel16", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel17" : { + "generic_name": "Aux.I_.OChannel17", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel18" : { + "generic_name": "Aux.I_.OChannel18", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "40446": { + "comment": "Auxiliary Input/Output Status 6", + "length": 8, + "name": "AUXIO6", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aux.I_.OChannel11" : { + "generic_name": "Aux.I_.OChannel11", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel12" : { + "generic_name": "Aux.I_.OChannel12", + "bit_position": 47, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel13" : { + "generic_name": "Aux.I_.OChannel13", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel14" : { + "generic_name": "Aux.I_.OChannel14", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel7" : { + "generic_name": "Aux.I_.OChannel7", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel8" : { + "generic_name": "Aux.I_.OChannel8", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel9" : { + "generic_name": "Aux.I_.OChannel9", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel10" : { + "generic_name": "Aux.I_.OChannel10", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "2302": { + "comment": "Auxiliary Input/Output Status 5", + "length": 8, + "name": "AUXIO5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aux.I_.OChannel3" : { + "generic_name": "Aux.I_.OChannel3", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel4" : { + "generic_name": "Aux.I_.OChannel4", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel5" : { + "generic_name": "Aux.I_.OChannel5", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel6" : { + "generic_name": "Aux.I_.OChannel6", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Identifies the current value of auxiliary input/output channels that are configured uniquely per application.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64927": { + "comment": "Aftertreatment 1 Air Control 1", + "length": 8, + "name": "AT1AC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtreatment1.Air.Enable.Actuator" : { + "generic_name": "Aftrtreatment1.Air.Enable.Actuator", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 1 air enable actuator is on or off", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftertreatment1.Purge.Air.Actuator" : { + "generic_name": "Aftertreatment1.Purge.Air.Actuator", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 1 purge air actuator is on or off", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt1.Atmzation.Air.Actuator" : { + "generic_name": "Aftrtrtmnt1.Atmzation.Air.Actuator", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 1 atomization air actuator is on or off", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftertreatment1.Air.System.Relay" : { + "generic_name": "Aftertreatment1.Air.System.Relay", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 1 air system relay is on or off", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftrtrtment1.Air.Press.Actuator.Pos" : { + "generic_name": "Aftrtrtment1.Air.Press.Actuator.Pos", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Position of the aftertreatment 1 air pressure actuator as measured by a position feedback sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Air.Press.Ctrl" : { + "generic_name": "Aftertreatment1.Air.Press.Ctrl", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Position that the controller is commanding the aftertreatment 1 air pressure control to maintain.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Purge.Air.Press" : { + "generic_name": "Aftertreatment1.Purge.Air.Press", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Pressure of the purge air supply for aftertreatment 1", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Supply.Air.Press" : { + "generic_name": "Aftertreatment1.Supply.Air.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Pressure of the supply air for aftertreatment 1.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64877": { + "comment": "Aftertreatment 1 Air Control 2", + "length": 8, + "name": "AT1AC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftertreatment1.Second.Air.Press" : { + "generic_name": "Aftertreatment1.Second.Air.Press", + "bit_position": 47, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Pressure of the secondary air for aftertreatment 1.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtreatment1.Second.Air.Mass.Flow" : { + "generic_name": "Aftrtreatment1.Second.Air.Mass.Flow", + "bit_position": 31, + "bit_size": 16, + "factor": 0.2, + "offset": 0, + "min_value": 0, + "max_value": 12851, + "comment": "Indicates the secondary air mass flow for aftertreatment 1.", + "unit": "kg/h", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Second.Air.Temp" : { + "generic_name": "Aftertreatment1.Second.Air.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Indicates the secondary air temperature for aftertreatment 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtratment1.Second.Air.Diff.Press" : { + "generic_name": "Aftrtratment1.Second.Air.Diff.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 251.99, + "comment": "Indicates the secondary air differential pressure for aftertreatment 1.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64929": { + "comment": "Aftertreatment 1 Fuel Control 1", + "length": 8, + "name": "AT1FC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Fl.Injctor1.Heater.Ctrl" : { + "generic_name": "Aftrtrtmnt1.Fl.Injctor1.Heater.Ctrl", + "bit_position": 55, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Heating level that the controller is commanding the aftertreatment 1 fuel injector 1 heater control to maintain.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "Max": [4] + } + }, + "Aftertreatment1.Fuel.Press1.Ctrl" : { + "generic_name": "Aftertreatment1.Fuel.Press1.Ctrl", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Position that the controller is commanding the aftertreatment 1 fuel pressure control to maintain.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtratment1.Fuel.Enable.Actuator" : { + "generic_name": "Aftrtratment1.Fuel.Enable.Actuator", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 1 fuel enable actuator is on or off", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftrtratment1.Regeneration.Status" : { + "generic_name": "Aftrtratment1.Regeneration.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether regeneration is active or inactive in aftertreatment 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftertreatment1.Ignt" : { + "generic_name": "Aftertreatment1.Ignt", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 1 ignition circuit is energized by the ECM.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftrtreatment1.Fuel.Drain.Actuator" : { + "generic_name": "Aftrtreatment1.Fuel.Drain.Actuator", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 1 fuel drain actuator is on or off", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftertreatment1.Fuel.Rate" : { + "generic_name": "Aftertreatment1.Fuel.Rate", + "bit_position": 15, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Rate of fuel being delivered to aftertreatment 1 for regeneration", + "unit": "L/h", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Fuel.Press1" : { + "generic_name": "Aftertreatment1.Fuel.Press1", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "First fuel pressure measurement for the aftertreatment 1 system", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64869": { + "comment": "Aftertreatment 1 Fuel Control 2", + "length": 8, + "name": "AT1FC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Hydrcrbn.Dsr.Intk.Fl.Tmp" : { + "generic_name": "Aftrtrtmnt1.Hydrcrbn.Dsr.Intk.Fl.Tmp", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Measured temperature of the intake fuel to the hydrocarbon dosing device", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Fl.Press2.Actuator.Ctrl" : { + "generic_name": "Aftrtrtmnt1.Fl.Press2.Actuator.Ctrl", + "bit_position": 23, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Indicates how the device is controlling the aftertreatment 1 fuel pressure 2 regulating control valve.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "fullyOpen": [4] + } + }, + "Aftrtrtmnt1.Fl.Flw.Dvrter.Valve.Ctrl" : { + "generic_name": "Aftrtrtmnt1.Fl.Flw.Dvrter.Valve.Ctrl", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates how the device is controlling the aftertreatment 1 fuel flow diverter valve.", + "is_big_endian": false, + "is_signed": false, + "states": { + "off": [0], + "on": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftrtreatment1.Fuel.Pump.Relay.Ctrl" : { + "generic_name": "Aftrtreatment1.Fuel.Pump.Relay.Ctrl", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates how the device is controlling the aftertreatment 1 fuel pump relay.", + "is_big_endian": false, + "is_signed": false, + "states": { + "off": [0], + "on": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftertreatment1.Fuel.Press2" : { + "generic_name": "Aftertreatment1.Fuel.Press2", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Second fuel pressure measurement for the aftertreatment 1 system", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64908": { + "comment": "Aftertreatment 1 Gas Parameters", + "length": 8, + "name": "AT1GP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Dsl.Prticulate.Filter.Outlet.Press1" : { + "generic_name": "Dsl.Prticulate.Filter.Outlet.Press1", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "This parameter indicates the diesel particulate filter outlet gage pressure 1 (bank 1).", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prticulate.Filter.Intake.Press1" : { + "generic_name": "Dsl.Prticulate.Filter.Intake.Press1", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "This parameter indicates the diesel particulate filter intake gage pressure 1 (bank 1).", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64920": { + "comment": "Aftertreatment 1 Historical Information", + "length": 36, + "name": "AT1HI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Ttl.Nmbr.Of.Actv.Rgnrtn.Mnl.Rqs" : { + "generic_name": "Aftrtrtmnt1.Ttl.Nmbr.Of.Actv.Rgnrtn.Mnl.Rqs", + "bit_position": 223, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of aftertreatment device 1 active regeneration manual requests by the operator over the lifetime of the", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Ttl.Nmbr.Of.Actv.Rgnrtn.Inhbt.Rqs" : { + "generic_name": "Aftrtrtmnt1.Ttl.Nmbr.Of.Actv.Rgnrtn.Inhbt.Rqs", + "bit_position": 191, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of aftertreatment device 1 active regeneration inhibit requests by the operator over the lifetime of the device.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Avrg.Tm.Btwn.Actv.Rgnrtns" : { + "generic_name": "Aftrtrtmnt1.Avrg.Tm.Btwn.Actv.Rgnrtns", + "bit_position": 255, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Indicates the average time since last reset between active regenerations, that have not been forced to occur by manual", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Ttl.Nmbr.Of.Pssv.Rgnrtns" : { + "generic_name": "Aftrtrtmnt1.Ttl.Nmbr.Of.Pssv.Rgnrtns", + "bit_position": 159, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of passive regenerations by aftertreatment device 1 over the lifetime of the device.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Ttl.Pssv.Rgnration.Time" : { + "generic_name": "Aftrtrtmnt1.Ttl.Pssv.Rgnration.Time", + "bit_position": 127, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Total amount of time that aftertreatment device 1 has been in passive regeneration over the lifetime of the device.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Ttl.Nmbr.Of.Actv.Rgnrtns" : { + "generic_name": "Aftrtrtmnt1.Ttl.Nmbr.Of.Actv.Rgnrtns", + "bit_position": 95, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of active regenerations by aftertreatment device 1 over the lifetime of the device.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtreatment1.Total.Disabled.Time" : { + "generic_name": "Aftrtreatment1.Total.Disabled.Time", + "bit_position": 63, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Total amount of time that aftertreatment 1 regeneration has been manually disabled.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Ttal.Regeneration.Time" : { + "generic_name": "Aftrtrtmnt1.Ttal.Regeneration.Time", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Total amount of time that aftertreatment device 1 has been regenerating over the lifetime of the device.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Total.Fuel.Used" : { + "generic_name": "Aftertreatment1.Total.Fuel.Used", + "bit_position": -1, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total amount of fuel used by aftertreatment device 1 over the lifetime of the device.", + "unit": "L", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61454": { + "comment": "Aftertreatment 1 Intake Gas 1", + "length": 8, + "name": "AT1IG1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Intk.Oxygn.Snsr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Intk.Oxygn.Snsr.Prlmnry.FMI", + "bit_position": 55, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the aftertreatment intake oxygen sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Intk.Gs.Snsr.Pwer.Status" : { + "generic_name": "Aftrtrtmnt1.Intk.Gs.Snsr.Pwer.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the power supplied to the aftertreatment intake gas sensor, either NOx or O2, is within the manufacturer's", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInRange": [0], + "InRange": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt1.Intk.Gs.Snsr.Htr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Intk.Gs.Snsr.Htr.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the heater of the intake exhaust gas sensor, either NOx or O2,", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Intk.NOx.Snsr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Intk.NOx.Snsr.Prlmnry.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the aftertreatment intake NOx sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Intk.Gs.Snsr.Heater.Ctrl" : { + "generic_name": "Aftrtrtmnt1.Intk.Gs.Snsr.Heater.Ctrl", + "bit_position": 44, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the heater status in the warm-up process.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Automatic": [0], + "Preheat2": [1], + "Preheat1": [2], + "HeaterOff": [3] + } + }, + "Aftrtrtmnt1.Intk.Wd.Rng.O2.Rdng.Stble" : { + "generic_name": "Aftrtrtmnt1.Intk.Wd.Rng.O2.Rdng.Stble", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the %O2 reading of the aftertreatment intake gas sensor, either NOx or O2, is stable as determined by the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotStable": [0], + "Stable": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt1.Intk.NOx.Reading.Stable" : { + "generic_name": "Aftrtrtmnt1.Intk.NOx.Reading.Stable", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the NOx reading of the aftertreatment intake NOx sensor is stable as determined by the manufacturer's", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotStable": [0], + "Stable": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt1.Intke.Gas.Sensor.At.Temp" : { + "generic_name": "Aftrtrtmnt1.Intke.Gas.Sensor.At.Temp", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the heater element of the aftertreatment intake gas sensor, either NOx or O2, is within the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Intake.O2" : { + "generic_name": "Aftertreatment1.Intake.O2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.000514, + "offset": -12, + "min_value": -12, + "max_value": 21, + "comment": "The actual oxidation factor (%O2) of the gas within the exhaust stream.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Intake.NOx" : { + "generic_name": "Aftertreatment1.Intake.NOx", + "bit_position": -1, + "bit_size": 16, + "factor": 0.05, + "offset": -200, + "min_value": -200, + "max_value": 3012.75, + "comment": "The amount of combined NO and NO2 in the exhaust entering the aftertreatment system measured by a NOx sensor at", + "unit": "ppm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64948": { + "comment": "Aftertreatment 1 Intake Gas 2", + "length": 8, + "name": "AT1IG2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Intk.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Intk.Gs.Tmp.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel particulate filter intake gas temperature sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Exhst.Gs.Tmp1.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Exhst.Gs.Tmp1.Prlmnry.FMI", + "bit_position": 31, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the exhaust gas temperature 1 sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Exhaust.Gas.Temp1" : { + "generic_name": "Aftertreatment1.Exhaust.Gas.Temp1", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The reading from the exhaust gas temperature sensor located farthest upstream in the aftertreatment system in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Intk.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Intk.Gs.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts entering the diesel particulate filter in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "56574": { + "comment": "Anti-theft Status", + "length": 8, + "name": "ATS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Antitheft.Random.Number" : { + "generic_name": "Antitheft.Random.Number", + "bit_position": 7, + "bit_size": 56, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "A seven byte random numeric code provided by the component in response to an anti-theft request.", + "is_big_endian": false, + "is_signed": false + }, + "Antitheft.Component.Status.States" : { + "generic_name": "Antitheft.Component.Status.States", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether or not the component can be started.", + "is_big_endian": false, + "is_signed": false, + "states": { + "UnlckdThsSttIndctsThtCmpnntCnBS": [0], + "LckdThsSttIndctsThtCmpnntCnNOTB": [1], + "BlckdThsSttIndctsThtALckUnlckCm": [2], + "NotDefined": [3] + } + }, + "Antthft.Encryptn.Sd.Prsnt.Indicator" : { + "generic_name": "Antthft.Encryptn.Sd.Prsnt.Indicator", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the presence of the encryption seed random number.", + "is_big_endian": false, + "is_signed": false, + "states": { + "RandomNumberIsNotPresent": [0], + "RandomNumberIsPresent": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Antitheft.Modify.Pwd.States" : { + "generic_name": "Antitheft.Modify.Pwd.States", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate whether a password request was successfully performed, or if the request could not be", + "is_big_endian": false, + "is_signed": false, + "states": { + "OkThsSttIndctsThtRqWsSccssfllyP": [0], + "FullofPwds": [1], + "EmptyOfPwdsThsSttIndctsThtCmpnn": [2], + "Notvalid": [3] + } + }, + "Antitheft.Pwd.Valid.Indicator" : { + "generic_name": "Antitheft.Pwd.Valid.Indicator", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the presence of a validated password.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PwdIsNotAValidatedPassword": [0], + "PwdIsAValidatedPassword": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "56830": { + "comment": "Anti-theft Request", + "length": 8, + "name": "ATR", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Antitheft.Password.Representation" : { + "generic_name": "Antitheft.Password.Representation", + "bit_position": 7, + "bit_size": 56, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "This parameter is the seven byte numeric code (i.", + "is_big_endian": false, + "is_signed": false + }, + "Antitheft.Cmd.States" : { + "generic_name": "Antitheft.Cmd.States", + "bit_position": 4, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "This parameter is used to identify the specific requests being sent to the component.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AddPwdThsSttRprsntsARqTCmpnntTA": [0], + "DeletePwd": [1], + "ChngPwdThsSttRprsntsARqTCmpnntT": [2], + "LockorUnlock": [3], + "ChckSttsThsSttRprsntsARqTChckTS": [4], + "Login": [5], + "111NotDefined": [6] + } + }, + "Antitheft.Desired.Exit.Mode.States" : { + "generic_name": "Antitheft.Desired.Exit.Mode.States", + "bit_position": 2, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to specify the desired triggers that are to be used by the component in deciding when to transition", + "is_big_endian": false, + "is_signed": false, + "states": { + "LckUpnOprtrRqThsSttIsUsdTIndctT": [0], + "LckWhnKyffThsSttIsUsdTIndctThtC": [1], + "NotDefined": [2], + "NtAvlblThsSttIsIndctsThtOptnIsN": [3] + } + }, + "Antthft.Encrypton.Indicator.States" : { + "generic_name": "Antthft.Encrypton.Indicator.States", + "bit_position": 0, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is used to indicate if a random number seed is being requested, or if an encrypted password is being", + "is_big_endian": false, + "is_signed": false, + "states": { + "EncryptnSdRqThsSttRprsntsARqstT": [0], + "EncryptdCdPrsntThsSttIsUsdTIndc": [1], + "NotDefined": [2], + "NtAvlblThsSttIsUsdTIndctThtARnd": [3] + } + } + } + }, + "65191": { + "comment": "Alternator Temperature", + "length": 8, + "name": "AT", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Alt.Winding3.Temp" : { + "generic_name": "Eng.Alt.Winding3.Temp", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of the windings inside the alternator.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Alt.Winding2.Temp" : { + "generic_name": "Eng.Alt.Winding2.Temp", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of the windings inside the alternator.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Alt.Winding1.Temp" : { + "generic_name": "Eng.Alt.Winding1.Temp", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of the windings inside the alternator.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Alt.Bearing2.Temp" : { + "generic_name": "Eng.Alt.Bearing2.Temp", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of the bearing inside the alternator.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Alt.Bearing1.Temp" : { + "generic_name": "Eng.Alt.Bearing1.Temp", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of the bearing inside the alternator.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "53758": { + "comment": "Air Suspension Control 6", + "length": 8, + "name": "ASC6", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Level.Preset.Rear.Axle.Right" : { + "generic_name": "Level.Preset.Rear.Axle.Right", + "bit_position": 47, + "bit_size": 16, + "factor": 0.1, + "offset": -3200, + "min_value": -3200, + "max_value": 3225.5, + "comment": "Set value for nominal level 'preset level' at the right side of the rear axle.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Level.Preset.Rear.Axle.Left" : { + "generic_name": "Level.Preset.Rear.Axle.Left", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": -3200, + "min_value": -3200, + "max_value": 3225.5, + "comment": "Set value for nominal level 'preset level' at the left side of the rear axle.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Level.Preset.Front.Axle.Right" : { + "generic_name": "Level.Preset.Front.Axle.Right", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": -3200, + "min_value": -3200, + "max_value": 3225.5, + "comment": "Set value for nominal level 'preset level' at the right side of the front axle.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Level.Preset.Front.Axle.Left" : { + "generic_name": "Level.Preset.Front.Axle.Left", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": -3200, + "min_value": -3200, + "max_value": 3225.5, + "comment": "Set value for nominal level 'preset level' at the left side of the front axle.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65111": { + "comment": "Air Suspension Control 5", + "length": 8, + "name": "ASC5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Elctrnc.Shck.Absrbr.Ctrl.Md.Lft_.Tg.Axl" : { + "generic_name": "Elctrnc.Shck.Absrbr.Ctrl.Md.Lft_.Tg.Axl", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the current mode of operation of the electronic shock absorber control at the lift/tag axle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NormalOperationDampersPassive": [0], + "NormalOperationDampersActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Elctrnc.Shck.Absrbr.Ctrl.Md.Rear.Axle" : { + "generic_name": "Elctrnc.Shck.Absrbr.Ctrl.Md.Rear.Axle", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the current mode of operation of the electronic shock absorber control at the rear axle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NormalOperationDampersPassive": [0], + "NormalOperationDampersActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Elctrnc.Shck.Absrbr.Ctrl.Md.Frnt.Axle" : { + "generic_name": "Elctrnc.Shck.Absrbr.Ctrl.Md.Frnt.Axle", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the current mode of operation of the electronic shock absorber control at the front axle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NormalOperationDampersPassive": [0], + "NormalOperationDampersActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Damper.Stiffness.Lift_.Tag.Axle" : { + "generic_name": "Damper.Stiffness.Lift_.Tag.Axle", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Damper stiffness information of the shock absorber control at the lift of tag axle", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Damper.Stiffness.Rear.Axle" : { + "generic_name": "Damper.Stiffness.Rear.Axle", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Damper stiffness information of the shock absorber control at the rear axle", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Damper.Stiffness.Front.Axle" : { + "generic_name": "Damper.Stiffness.Front.Axle", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Damper stiffness information of the shock absorber control at the front axle", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "42238": { + "comment": "This message conveys the scaled test results for the applicable test requested in DM7.", + "length": 12, + "name": "DM30", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Test.Limit.Minimum" : { + "generic_name": "Test.Limit.Minimum", + "bit_position": 79, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The test value must be greater than or equal to Test Limit Minimum in order for the test to pass", + "is_big_endian": false, + "is_signed": false + }, + "Test.Limit.Maximum" : { + "generic_name": "Test.Limit.Maximum", + "bit_position": 63, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The test value must be less than or equal to Test Limit Maximum in order for the test to pass.", + "is_big_endian": false, + "is_signed": false + }, + "Test.Value" : { + "generic_name": "Test.Value", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The test value collected during the test.", + "is_big_endian": false, + "is_signed": false + }, + "Slot.Id" : { + "generic_name": "Slot.Id", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The SLOT Identifer is used to determine the multiplier and offset to be used to scale the test value.", + "is_big_endian": false, + "is_signed": false + }, + "Test.Identifier" : { + "generic_name": "Test.Identifier", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Test Identifier", + "is_big_endian": false, + "is_signed": false + }, + "Failure.Mode.Identifier1" : { + "generic_name": "Failure.Mode.Identifier1", + "bit_position": 23, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "The FMI defines the type of failure detected in the subsystem identified by an SPN.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Above normal (most severe)": [0], + "Below normal (most severe)": [1], + "Data erratic": [2], + "Voltage above normal": [3], + "Voltage below normal": [4], + "Current below normal": [5], + "Current above normal": [6], + "Mechanical system not responding": [7], + "Abnormal frequency": [8], + "Abnormal update rate": [9], + "Abnormal rate of change": [10], + "Root cause not known": [11], + "Bad intelligent device": [12], + "Out of calibration": [13], + "Special intstructions": [14], + "Above normal (least severe)": [15], + "Above normal (moderately severe)": [16], + "Below normal (least severe)": [17], + "Below normal (moderately severe)": [18], + "Received network data in error": [19], + "Not available": [31] + } + }, + "S.PN1.High" : { + "generic_name": "S.PN1.High", + "bit_position": 28, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "SPN #1 (Conversion Version 4)", + "is_big_endian": false, + "is_signed": false + }, + "SPN1" : { + "generic_name": "SPN1", + "bit_position": 7, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65536, + "comment": "SPN #1 (Conversion Version 4)", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64946": { + "comment": "Aftertreatment 1 Intermediate Gas", + "length": 8, + "name": "AT1IMG", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Intrmdt.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Intrmdt.Gs.Tmp.Prlmnry.FMI", + "bit_position": 57, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel particulate filter intermediate gas temperature sensor", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Intrmdt.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Intrmdt.Gs.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts at a mid-point in the diesel particulate filter in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Dlt.Prss.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Dlt.Prss.Prlmnry.FMI", + "bit_position": 52, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel particulate filter differential pressure sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Dff.Prss" : { + "generic_name": "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Dff.Prss", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Exhaust differential pressure measured between the intake and exhaust of a diesel particulate filter in exhaust bank 1.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Exhst.Gs.Tmp2.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Exhst.Gs.Tmp2.Prlmnry.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the exhaust gas temperature 2 sensor by the manufacturer's sensor", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Exhaust.Gas.Temp2" : { + "generic_name": "Aftertreatment1.Exhaust.Gas.Temp2", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The reading from the exhaust gas temperature sensor located midstream of the other two temperature sensors in the", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61455": { + "comment": "Aftertreatment 1 Outlet Gas 1", + "length": 8, + "name": "AT1OG1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Otlt.Oxygn.Snsr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Otlt.Oxygn.Snsr.Prlmnry.FMI", + "bit_position": 55, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the aftertreatment outlet oxygen sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Otlt.Gs.Snsr.Pwer.Status" : { + "generic_name": "Aftrtrtmnt1.Otlt.Gs.Snsr.Pwer.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the power supplied to the aftertreatment outlet gas sensor, either NOx or O2, is within the manufacturer's", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInRange": [0], + "InRange": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt1.Otlt.Gs.Snsr.Htr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Otlt.Gs.Snsr.Htr.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the heater of the outlet exhaust gas sensor, either NOx or O2, by", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Otlt.NOx.Snsr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Otlt.NOx.Snsr.Prlmnry.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the aftertreatment outlet NOx sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Otlt.Gs.Snsr.Heater.Ctrl" : { + "generic_name": "Aftrtrtmnt1.Otlt.Gs.Snsr.Heater.Ctrl", + "bit_position": 44, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the heater status in the warm-up process.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Automatic": [0], + "Preheat2": [1], + "Preheat1": [2], + "HeaterOff": [3] + } + }, + "Aftrtrtmnt1.Otlt.Wd.Rng.O2.Rdng.Stble" : { + "generic_name": "Aftrtrtmnt1.Otlt.Wd.Rng.O2.Rdng.Stble", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the %O2 reading of the aftertreatment outlet gas sensor, either NOx or O2, is stable as determined by the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotStable": [0], + "Stable": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt1.Otlt.NOx.Reading.Stable" : { + "generic_name": "Aftrtrtmnt1.Otlt.NOx.Reading.Stable", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the NOx reading of the aftertreatment outlet NOx sensor is stable as determined by the manufacturer's", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotStable": [0], + "Stable": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt1.Otlet.Gas.Sensor.At.Temp" : { + "generic_name": "Aftrtrtmnt1.Otlet.Gas.Sensor.At.Temp", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the heater element of the aftertreatment outlet gas sensor, either NOx or O2, is within the manufacturer's", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInRange": [0], + "InRange": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftertreatment1.Outlet.O2" : { + "generic_name": "Aftertreatment1.Outlet.O2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.000514, + "offset": -12, + "min_value": -12, + "max_value": 21, + "comment": "The actual oxidation factor (%O2) of the gas within the exhaust stream.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Outlet.NOx" : { + "generic_name": "Aftertreatment1.Outlet.NOx", + "bit_position": -1, + "bit_size": 16, + "factor": 0.05, + "offset": -200, + "min_value": -200, + "max_value": 3012.75, + "comment": "The amount of combined NO and NO2 in the exhaust entering the aftertreatment system measured by a NOx sensor at", + "unit": "ppm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64947": { + "comment": "Aftertreatment 1 Outlet Gas 2", + "length": 8, + "name": "AT1OG2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Otlt.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Otlt.Gs.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts leaving the diesel particulate filter exhaust in exhaust bank 1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Otlt.Exhst.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Dsl.Prtclt.Fltr.Otlt.Exhst.Gs.Tmp.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel particulate filter outlet gas temperature sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Exhst.Gs.Tmp3.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt1.Exhst.Gs.Tmp3.Prlmnry.FMI", + "bit_position": 31, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the exhaust gas temperature 3 sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Exhaust.Gas.Temp3" : { + "generic_name": "Aftertreatment1.Exhaust.Gas.Temp3", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The reading from the exhaust gas temperature sensor located farthest downstream in the aftertreatment system in", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64891": { + "comment": "Aftertreatment 1 Service", + "length": 8, + "name": "AT1S", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Dsl.Prtclte.Filter1.Ash.Load.Percent" : { + "generic_name": "Dsl.Prtclte.Filter1.Ash.Load.Percent", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Indicates the ash load percent of diesel particulate filter 1.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "LevelIsTargetAshServiceInterval": [4] + } + }, + "Dsl.Prtclt.Fltr1.Tm.Snc.Lst.Actv.Rgnrtn" : { + "generic_name": "Dsl.Prtclt.Fltr1.Tm.Snc.Lst.Actv.Rgnrtn", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Indicates the time since the last active regeneration event of diesel particulate filter 1.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prtclt.Filter1.Soot.Load.Percent" : { + "generic_name": "Dsl.Prtclt.Filter1.Soot.Load.Percent", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Indicates the soot load percent of diesel particulate filter 1.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "LvlIsActvRgnerationTriggerLevel": [4] + } + }, + "Aftrtrtmnt1.Dsl.Prtclt.Fltr.St.Ld.Rgnrtn.Thrshld" : { + "generic_name": "Aftrtrtmnt1.Dsl.Prtclt.Fltr.St.Ld.Rgnrtn.Thrshld", + "bit_position": 47, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "This parameter indicates the value that will first cause DPF regeneration in aftertreatment 1.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "IsLvlAtWhchActvDslPrtcltFltrRgn": [4] + } + } + } + }, + "64889": { + "comment": "Aftertreatment 1 Trip Information", + "length": 32, + "name": "AT1TI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt1.Trp.Nmbr.Of.Actv.Rgnrtn.Mnl.Rqs" : { + "generic_name": "Aftrtrtmnt1.Trp.Nmbr.Of.Actv.Rgnrtn.Mnl.Rqs", + "bit_position": 223, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of Aftertreatment device 1 active regeneration manual requests by the operator during the current trip", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Trp.Nmbr.Of.Actv.Rgnrtn.Inhbt.Rqs" : { + "generic_name": "Aftrtrtmnt1.Trp.Nmbr.Of.Actv.Rgnrtn.Inhbt.Rqs", + "bit_position": 191, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of aftertreatment device 1 active regeneration inhibit requests by the operator during the current trip period.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Trp.Nmbr.Of.Pssv.Rgnrtns" : { + "generic_name": "Aftrtrtmnt1.Trp.Nmbr.Of.Pssv.Rgnrtns", + "bit_position": 159, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of passive regenerations by Aftertreatment device 1 during the current trip period.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Trp.Pssv.Rgnration.Time" : { + "generic_name": "Aftrtrtmnt1.Trp.Pssv.Rgnration.Time", + "bit_position": 127, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Total amount of time that aftertreatment device 1 has been in passive regeneration during the current trip period.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Trp.Nmbr.Of.Actv.Rgnrtns" : { + "generic_name": "Aftrtrtmnt1.Trp.Nmbr.Of.Actv.Rgnrtns", + "bit_position": 95, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of active regenerations by Aftertreatment device 1 during the current trip period.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Trip.Disabled.Time" : { + "generic_name": "Aftertreatment1.Trip.Disabled.Time", + "bit_position": 63, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Total amount of time that aftertreatment 1 regeneration has been manually disabled during the current trip period.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt1.Trp.Actv.Rgnration.Time" : { + "generic_name": "Aftrtrtmnt1.Trp.Actv.Rgnration.Time", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Total amount of time that aftertreatment device 1 has been in active regeneration during the current trip period.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment1.Trip.Fuel.Used" : { + "generic_name": "Aftertreatment1.Trip.Fuel.Used", + "bit_position": -1, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total amount of fuel used by aftertreatment device 1 during the current trip period.", + "unit": "L", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64926": { + "comment": "Aftertreatment 2 Air Control 1", + "length": 8, + "name": "AT2AC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtreatment2.Air.Enable.Actuator" : { + "generic_name": "Aftrtreatment2.Air.Enable.Actuator", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 2 air enable actuator is on or off", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftertreatment2.Purge.Air.Actuator" : { + "generic_name": "Aftertreatment2.Purge.Air.Actuator", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 2 purge air actuator is on or off", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftrtrtmnt2.Atmzation.Air.Actuator" : { + "generic_name": "Aftrtrtmnt2.Atmzation.Air.Actuator", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 2 atomization air actuator is on or off", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftertreatment2.Air.System.Relay" : { + "generic_name": "Aftertreatment2.Air.System.Relay", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 2 air system relay is on or off", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftrtrtment2.Air.Press.Actuator.Pos" : { + "generic_name": "Aftrtrtment2.Air.Press.Actuator.Pos", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Position of the aftertreatment 2 air pressure actuator as measured by a position feedback sensor.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Air.Press.Ctrl" : { + "generic_name": "Aftertreatment2.Air.Press.Ctrl", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Position that the controller is commanding the aftertreatment 2 air pressure control to maintain.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Purge.Air.Press" : { + "generic_name": "Aftertreatment2.Purge.Air.Press", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Pressure of the purge air supply for aftertreatment 2", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Supply.Air.Press" : { + "generic_name": "Aftertreatment2.Supply.Air.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Pressure of the supply air for aftertreatment 2.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64876": { + "comment": "Aftertreatment 2 Air Control 2", + "length": 8, + "name": "AT2AC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftertreatment2.Second.Air.Press" : { + "generic_name": "Aftertreatment2.Second.Air.Press", + "bit_position": 47, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Pressure of the secondary air for aftertreatment 2.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtreatment2.Second.Air.Mass.Flow" : { + "generic_name": "Aftrtreatment2.Second.Air.Mass.Flow", + "bit_position": 31, + "bit_size": 16, + "factor": 0.2, + "offset": 0, + "min_value": 0, + "max_value": 12851, + "comment": "Indicates the secondary air mass flow for aftertreatment 2.", + "unit": "kg/h", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Second.Air.Temp" : { + "generic_name": "Aftertreatment2.Second.Air.Temp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Indicates the secondary air temperature for aftertreatment 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtratment2.Second.Air.Diff.Press" : { + "generic_name": "Aftrtratment2.Second.Air.Diff.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 251.99, + "comment": "Indicates the secondary air differential pressure for aftertreatment 2.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64928": { + "comment": "Aftertreatment 2 Fuel Control 1", + "length": 8, + "name": "AT2FC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Fl.Injctor1.Heater.Ctrl" : { + "generic_name": "Aftrtrtmnt2.Fl.Injctor1.Heater.Ctrl", + "bit_position": 55, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Heating level that the controller is commanding the aftertreatment 2 fuel injector 1 heater control to maintain.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "Max": [4] + } + }, + "Aftertreatment2.Fuel.Press1.Ctrl" : { + "generic_name": "Aftertreatment2.Fuel.Press1.Ctrl", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "Position that the controller is commanding the aftertreatment 2 fuel pressure control to maintain.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Fuel.Press1" : { + "generic_name": "Aftertreatment2.Fuel.Press1", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Pressure of the fuel for Aftertreatment 2.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtratment2.Fuel.Enable.Actuator" : { + "generic_name": "Aftrtratment2.Fuel.Enable.Actuator", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 2 fuel enable actuator is on or off", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftrtratment2.Regeneration.Status" : { + "generic_name": "Aftrtratment2.Regeneration.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether regeneration is active or inactive in aftertreatment 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftertreatment2.Ignt" : { + "generic_name": "Aftertreatment2.Ignt", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 2 ignition circuit is energized by the ECM.", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftrtreatment2.Fuel.Drain.Actuator" : { + "generic_name": "Aftrtreatment2.Fuel.Drain.Actuator", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether aftertreatment 2 fuel drain actuator is on or off", + "is_big_endian": false, + "is_signed": false, + "states": { + "notActive": [0], + "active": [1], + "reservedForSAEAssignment": [2], + "notAvailable": [3] + } + }, + "Aftertreatment2.Fuel.Rate" : { + "generic_name": "Aftertreatment2.Fuel.Rate", + "bit_position": 15, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Rate of fuel being delivered to aftertreatment 2 for regeneration", + "unit": "L/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64907": { + "comment": "Aftertreatment 2 Gas Parameters", + "length": 8, + "name": "AT2GP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Dsl.Prticulate.Filter.Outlet.Press2" : { + "generic_name": "Dsl.Prticulate.Filter.Outlet.Press2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "This parameter indicates the diesel particulate filter outlet gage pressure 2 (bank 2).", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prticulate.Filter.Intake.Press2" : { + "generic_name": "Dsl.Prticulate.Filter.Intake.Press2", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "This parameter indicates the diesel particulate filter intake gage pressure 2 (bank 2).", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64921": { + "comment": "Aftertreatment 2 Historical information", + "length": 36, + "name": "AT2HI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Ttl.Nmbr.Of.Actv.Rgnrtn.Mnl.Rqs" : { + "generic_name": "Aftrtrtmnt2.Ttl.Nmbr.Of.Actv.Rgnrtn.Mnl.Rqs", + "bit_position": 223, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of Aftertreatment device 2 active regeneration manual requests by the operator over the lifetime of the", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Ttl.Nmbr.Of.Actv.Rgnrtn.Inhbt.Rqs" : { + "generic_name": "Aftrtrtmnt2.Ttl.Nmbr.Of.Actv.Rgnrtn.Inhbt.Rqs", + "bit_position": 191, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of Aftertreatment device 2 active regeneration inhibit requests by the operator over the lifetime of the", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Avrg.Tm.Btwn.Actv.Rgnrtns" : { + "generic_name": "Aftrtrtmnt2.Avrg.Tm.Btwn.Actv.Rgnrtns", + "bit_position": 255, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Indicates the average time since last reset between active regenerations, that have not been forced to occur by manual", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Ttl.Nmbr.Of.Pssv.Rgnrtns" : { + "generic_name": "Aftrtrtmnt2.Ttl.Nmbr.Of.Pssv.Rgnrtns", + "bit_position": 159, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of passive regenerations by Aftertreatment device 2 over the lifetime of the device.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Ttl.Pssv.Rgnration.Time" : { + "generic_name": "Aftrtrtmnt2.Ttl.Pssv.Rgnration.Time", + "bit_position": 127, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Total amount of time that Aftertreatment device 2 has been in passive regeneration over the lifetime of the device.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Ttl.Nmbr.Of.Actv.Rgnrtns" : { + "generic_name": "Aftrtrtmnt2.Ttl.Nmbr.Of.Actv.Rgnrtns", + "bit_position": 95, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of active regenerations by aftertreatment device 2 over the lifetime of the device.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtreatment2.Total.Disabled.Time" : { + "generic_name": "Aftrtreatment2.Total.Disabled.Time", + "bit_position": 63, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Total amount of time that aftertreatment 2 regeneration has been manually disabled.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Ttal.Regeneration.Time" : { + "generic_name": "Aftrtrtmnt2.Ttal.Regeneration.Time", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Total amount of time that aftertreatment device 2 has been regenerating over the lifetime of the device.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Total.Fuel.Used" : { + "generic_name": "Aftertreatment2.Total.Fuel.Used", + "bit_position": -1, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total amount of fuel used by aftertreatment device 2 over the lifetime of the device.", + "unit": "L", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61456": { + "comment": "Aftertreatment 2 Intake Gas 1", + "length": 8, + "name": "AT2IG1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Intk.Oxygn.Snsr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Intk.Oxygn.Snsr.Prlmnry.FMI", + "bit_position": 55, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the aftertreatment intake oxygen sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Intk.Gs.Snsr.Pwer.Status" : { + "generic_name": "Aftrtrtmnt2.Intk.Gs.Snsr.Pwer.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the power supplied to the aftertreatment intake gas sensor, either NOx or O2, is within the manufacturer's", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInRange": [0], + "InRange": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt2.Intk.Gs.Snsr.Htr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Intk.Gs.Snsr.Htr.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the heater of the intake exhaust gas sensor, either NOx or O2,", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Intk.NOx.Snsr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Intk.NOx.Snsr.Prlmnry.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the aftertreatment intake NOx sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Intk.Gs.Snsr.Heater.Ctrl" : { + "generic_name": "Aftrtrtmnt2.Intk.Gs.Snsr.Heater.Ctrl", + "bit_position": 44, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the heater status in the warm-up process.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Automatic": [0], + "Preheat2": [1], + "Preheat1": [2], + "HeaterOff": [3] + } + }, + "Aftrtrtmnt2.Intk.Wd.Rng.O2.Rdng.Stble" : { + "generic_name": "Aftrtrtmnt2.Intk.Wd.Rng.O2.Rdng.Stble", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the %O2 reading of the aftertreatment intake gas sensor, either NOx or O2, is stable as determined by the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotStable": [0], + "Stable": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt2.Intk.NOx.Reading.Stable" : { + "generic_name": "Aftrtrtmnt2.Intk.NOx.Reading.Stable", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the NOx reading of the aftertreatment intake NOx sensor is stable as determined by the manufacturer's", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotStable": [0], + "Stable": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt2.Intke.Gas.Sensor.At.Temp" : { + "generic_name": "Aftrtrtmnt2.Intke.Gas.Sensor.At.Temp", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the heater element of the aftertreatment intake gas sensor, either NOx or O2, is within the manufacturer's", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInRange": [0], + "InRange": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftertreatment2.Intake.O2" : { + "generic_name": "Aftertreatment2.Intake.O2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.000514, + "offset": -12, + "min_value": -12, + "max_value": 21, + "comment": "The actual oxidation factor (%O2) of the gas within the exhaust stream.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Intake.NOx" : { + "generic_name": "Aftertreatment2.Intake.NOx", + "bit_position": -1, + "bit_size": 16, + "factor": 0.05, + "offset": -200, + "min_value": -200, + "max_value": 3012.75, + "comment": "The amount of combined NO and NO2 in the exhaust entering the aftertreatment system measured by a NOx sensor at", + "unit": "ppm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64945": { + "comment": "Aftertreatment 2 Intake Gas 2", + "length": 8, + "name": "AT2IG2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Intk.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Intk.Gs.Tmp.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel particulate filter intake gas temperature sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Exhst.Gs.Tmp1.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Exhst.Gs.Tmp1.Prlmnry.FMI", + "bit_position": 31, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the exhaust gas temperature 1 sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Exhaust.Gas.Temp1" : { + "generic_name": "Aftertreatment2.Exhaust.Gas.Temp1", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The reading from the exhaust gas temperature sensor located farthest upstream in the aftertreatment system in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Intk.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Intk.Gs.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts entering the diesel particulate filter in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64943": { + "comment": "Aftertreatment 2 Intermediate Gas", + "length": 8, + "name": "AT2IMG", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Intrmdt.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Intrmdt.Gs.Tmp.Prlmnry.FMI", + "bit_position": 57, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel particulate filter intermediate gas temperature sensor", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Intrmdt.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Intrmdt.Gs.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts at a mid-point in the diesel particulate filter in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Dlt.Prss.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Dlt.Prss.Prlmnry.FMI", + "bit_position": 52, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel particulate filter differential pressure sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Dff.Prss" : { + "generic_name": "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Dff.Prss", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Exhaust differential pressure measured between the intake and exhaust of a diesel particulate filter in exhaust bank 2.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Exhst.Gs.Tmp2.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Exhst.Gs.Tmp2.Prlmnry.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the exhaust gas temperature 2 sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Exhaust.Gas.Temp2" : { + "generic_name": "Aftertreatment2.Exhaust.Gas.Temp2", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The reading from the exhaust gas temperature sensor located midstream of the other two temperature sensors in the", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "61457": { + "comment": "Aftertreatment 2 Outlet Gas 1", + "length": 8, + "name": "AT2OG1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Otlt.Oxygn.Snsr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Otlt.Oxygn.Snsr.Prlmnry.FMI", + "bit_position": 55, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the aftertreatment outlet oxygen sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Otlt.Gs.Snsr.Pwer.Status" : { + "generic_name": "Aftrtrtmnt2.Otlt.Gs.Snsr.Pwer.Status", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the power supplied to the aftertreatment outlet gas sensor, either NOx or O2, is within the manufacturer's", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInRange": [0], + "InRange": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt2.Otlt.Gs.Snsr.Htr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Otlt.Gs.Snsr.Htr.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the heater of the outlet exhaust gas sensor, either NOx or O2, by", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Otlt.NOx.Snsr.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Otlt.NOx.Snsr.Prlmnry.FMI", + "bit_position": 47, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the aftertreatment outlet NOx sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Otlt.Gs.Snsr.Heater.Ctrl" : { + "generic_name": "Aftrtrtmnt2.Otlt.Gs.Snsr.Heater.Ctrl", + "bit_position": 44, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the heater status in the warm-up process.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Automatic": [0], + "Preheat2": [1], + "Preheat1": [2], + "HeaterOff": [3] + } + }, + "Aftrtrtmnt2.Otlt.Wd.Rng.O2.Rdng.Stble" : { + "generic_name": "Aftrtrtmnt2.Otlt.Wd.Rng.O2.Rdng.Stble", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the %O2 reading of the aftertreatment outlet gas sensor, either NOx or O2, is stable as determined by the", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotStable": [0], + "Stable": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt2.Otlt.NOx.Reading.Stable" : { + "generic_name": "Aftrtrtmnt2.Otlt.NOx.Reading.Stable", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the NOx reading of the aftertreatment outlet NOx sensor is stable as determined by the manufacturer's", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotStable": [0], + "Stable": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftrtrtmnt2.Otlet.Gas.Sensor.At.Temp" : { + "generic_name": "Aftrtrtmnt2.Otlet.Gas.Sensor.At.Temp", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates that the heater element of the aftertreatment outlet gas sensor, either NOx or O2, is within the manufacturer's", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotInRange": [0], + "InRange": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aftertreatment2.Outlet.O2" : { + "generic_name": "Aftertreatment2.Outlet.O2", + "bit_position": 15, + "bit_size": 16, + "factor": 0.000514, + "offset": -12, + "min_value": -12, + "max_value": 21, + "comment": "The actual oxidation factor (%O2) of the gas within the exhaust stream.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Outlet.NOx" : { + "generic_name": "Aftertreatment2.Outlet.NOx", + "bit_position": -1, + "bit_size": 16, + "factor": 0.05, + "offset": -200, + "min_value": -200, + "max_value": 3012.75, + "comment": "The amount of combined NO and NO2 in the exhaust entering the aftertreatment system measured by a NOx sensor at", + "unit": "ppm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64944": { + "comment": "Aftertreatment 2 Outlet Gas 2", + "length": 8, + "name": "AT2OG2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Otlt.Gs.Tmp" : { + "generic_name": "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Otlt.Gs.Tmp", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of engine combustion byproducts leaving the diesel particulate filter exhaust in exhaust bank 2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Exhst.Gs.Tmp.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Dsl.Prtclt.Fltr.Exhst.Gs.Tmp.Prlmnry.FMI", + "bit_position": 39, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the diesel particulate filter outlet gas temperature sensor by the", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Exhst.Gs.Tmp3.Prlmnry.FMI" : { + "generic_name": "Aftrtrtmnt2.Exhst.Gs.Tmp3.Prlmnry.FMI", + "bit_position": 31, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "Used to identify the applicable J1939-73 FMI detected in the exhaust gas temperature 3 sensor by the manufacturer's", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Exhaust.Gas.Temp3" : { + "generic_name": "Aftertreatment2.Exhaust.Gas.Temp3", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The reading from the exhaust gas temperature sensor located farthest downstream in the aftertreatment system in", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64890": { + "comment": "Aftertreatment 2 Service", + "length": 8, + "name": "AT2S", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Dsl.Prtclte.Filter2.Ash.Load.Percent" : { + "generic_name": "Dsl.Prtclte.Filter2.Ash.Load.Percent", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Indicates the ash load percent of diesel particulate filter 2.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "LevelIsTargetAshServiceInterval": [4] + } + }, + "Dsl.Prtclt.Fltr2.Tm.Snc.Lst.Actv.Rgnrtn" : { + "generic_name": "Dsl.Prtclt.Fltr2.Tm.Snc.Lst.Actv.Rgnrtn", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Indicates the time since the last active regeneration event of diesel particulate filter 2.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Dsl.Prtclt.Filter2.Soot.Load.Percent" : { + "generic_name": "Dsl.Prtclt.Filter2.Soot.Load.Percent", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Indicates the soot load percent of diesel particulate filter 2.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "LvlIsActvRgnerationTriggerLevel": [4] + } + }, + "Aftrtrtmnt2.Dsl.Prtclt.Fltr.St.Ld.Rgnrtn.Thrshld" : { + "generic_name": "Aftrtrtmnt2.Dsl.Prtclt.Fltr.St.Ld.Rgnrtn.Thrshld", + "bit_position": 47, + "bit_size": 16, + "factor": 0.0025, + "offset": 0, + "min_value": 0, + "max_value": 160.6375, + "comment": "This parameter indicates the value that will first cause DPF regeneration in aftertreatment 2.", + "unit": "%", + "is_big_endian": false, + "is_signed": false, + "states": { + "IsLvlAtWhchActvDslPrtcltFltrRgn": [4] + } + } + } + }, + "64888": { + "comment": "Aftertreatment 2 Trip Information", + "length": 32, + "name": "AT2TI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aftrtrtmnt2.Trp.Nmbr.Of.Actv.Rgnrtn.Mnl.Rqs" : { + "generic_name": "Aftrtrtmnt2.Trp.Nmbr.Of.Actv.Rgnrtn.Mnl.Rqs", + "bit_position": 223, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of aftertreatment device 2 active regeneration manual requests by the operator during the current trip", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Trp.Nmbr.Of.Actv.Rgnrtn.Inhbt.Rqs" : { + "generic_name": "Aftrtrtmnt2.Trp.Nmbr.Of.Actv.Rgnrtn.Inhbt.Rqs", + "bit_position": 191, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of aftertreatment device 2 active regeneration inhibit requests by the operator during the current trip period.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Trp.Nmbr.Of.Pssv.Rgnrtns" : { + "generic_name": "Aftrtrtmnt2.Trp.Nmbr.Of.Pssv.Rgnrtns", + "bit_position": 159, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of passive regenerations by aftertreatment device 2 during the current trip period.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Trp.Pssv.Rgnration.Time" : { + "generic_name": "Aftrtrtmnt2.Trp.Pssv.Rgnration.Time", + "bit_position": 127, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Total amount of time that aftertreatment device 2 has been in passive regeneration during the current trip period.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Trp.Nmbr.Of.Actv.Rgnrtns" : { + "generic_name": "Aftrtrtmnt2.Trp.Nmbr.Of.Actv.Rgnrtns", + "bit_position": 95, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Total number of active regenerations by aftertreatment device 2 during the current trip period.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Trip.Disabled.Time" : { + "generic_name": "Aftertreatment2.Trip.Disabled.Time", + "bit_position": 63, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Total amount of time that aftertreatment 2 regeneration has been manually disabled during the current trip period.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftrtrtmnt2.Trp.Actv.Rgnration.Time" : { + "generic_name": "Aftrtrtmnt2.Trp.Actv.Rgnration.Time", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "Total amount of time that aftertreatment device 2 has been in active regeneration during the current trip period.", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Aftertreatment2.Trip.Fuel.Used" : { + "generic_name": "Aftertreatment2.Trip.Fuel.Used", + "bit_position": -1, + "bit_size": 32, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 2105540607.5, + "comment": "Total amount of fuel used by aftertreatment device 2 during the current trip period.", + "unit": "L", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64914": { + "comment": "Engine Operating Information", + "length": 8, + "name": "EOI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Derate.Rq" : { + "generic_name": "Eng.Derate.Rq", + "bit_position": 55, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "This parameter is a derate request made from the engine control system to an external system, where the engine is", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Emergency.Shutdown.Indication" : { + "generic_name": "Eng.Emergency.Shutdown.Indication", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A signal issued by the engine control system to a user or external system indicating that it is immediately shutting the engine", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Eng.Ctrlled.Shutdown.Rq" : { + "generic_name": "Eng.Ctrlled.Shutdown.Rq", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A signal issued by the engine control system to a user or external system requesting for a controlled shutdown.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Eng.Coolant.Circulating.Pump.Ctrl" : { + "generic_name": "Eng.Coolant.Circulating.Pump.Ctrl", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Control setting for an electrically actuated engine coolant circulating pump.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Eng.Block_.Coolant.Preheater.Ctrl" : { + "generic_name": "Eng.Block_.Coolant.Preheater.Ctrl", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Control setting for an electrically actuated engine block or coolant pre-heating device.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "Unavailable": [3] + } + }, + "Eng.Elctrcl.Systm.Pwr.Cnsrvtion.Ctrl" : { + "generic_name": "Eng.Elctrcl.Systm.Pwr.Cnsrvtion.Ctrl", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Control setting for cutting power to various devices when the engine is not in use.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "Unavailable": [3] + } + }, + "Eng.Oil.Preheater.Ctrl" : { + "generic_name": "Eng.Oil.Preheater.Ctrl", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Control setting for an electrically actuated oil pre-heating device.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Eng.Oil.Priming.Pump.Ctrl" : { + "generic_name": "Eng.Oil.Priming.Pump.Ctrl", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This control is used to activate a pump that lubricates the engine, particularly prior to initial engine startup.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "Unavailable": [3] + } + }, + "Eng.Fuel.Shutoff.Valve.Leak.Test.Ctrl" : { + "generic_name": "Eng.Fuel.Shutoff.Valve.Leak.Test.Ctrl", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Control setting for fuel shutoff valve proving system test.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Eng.Fuel.Shutoff2.Ctrl" : { + "generic_name": "Eng.Fuel.Shutoff2.Ctrl", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Control setting for fuel shutoff 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Open": [0], + "Closed": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Eng.Fuel.Shutoff1.Ctrl" : { + "generic_name": "Eng.Fuel.Shutoff1.Ctrl", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Control setting for fuel shutoff 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Open": [0], + "Closed": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Eng.Fuel.Shutoff.Vent.Ctrl" : { + "generic_name": "Eng.Fuel.Shutoff.Vent.Ctrl", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Control setting for a fuel shutoff vent.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Closed": [0], + "Open": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Tme.Remaining.In.Eng.Operating.State" : { + "generic_name": "Tme.Remaining.In.Eng.Operating.State", + "bit_position": 7, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "This parameter is used to indicate the time remaining in the current engine operating state, based on the state defined in", + "unit": "s", + "is_big_endian": false, + "is_signed": false + }, + "Fuel.Pump.Primer.Ctrl" : { + "generic_name": "Fuel.Pump.Primer.Ctrl", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Parameter used to activate or deactivate a priming system on the fuel transfer system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "Unavailable": [3] + } + }, + "Eng.Operating.State" : { + "generic_name": "Eng.Operating.State", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter is used to indicate the current state, or mode, of operation by the engine.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64870": { + "comment": "Engine Temperature 4", + "length": 8, + "name": "ET4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhst.Vlv.Acttion.System.Oil.Temp" : { + "generic_name": "Eng.Exhst.Vlv.Acttion.System.Oil.Temp", + "bit_position": 23, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The temperature of the oil in the hydraulic system that powers the engine exhaust valve actuation system", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhst.Gs.Rcrcltn1.Mxr.Intake.Temp" : { + "generic_name": "Eng.Exhst.Gs.Rcrcltn1.Mxr.Intake.Temp", + "bit_position": 39, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The temperature of the EGR gas entering the intake mixer, measured after the intake throttle when provided.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Coolant.Thermostat.Opening" : { + "generic_name": "Eng.Coolant.Thermostat.Opening", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The current position of the Thermostat used to regulate the temperature of the engine coolant.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Coolant.Pump.Outlet.Temp" : { + "generic_name": "Eng.Coolant.Pump.Outlet.Temp", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "The actual value of engine coolant temperature at the coolant pump outlet", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Coolant.Temp2" : { + "generic_name": "Eng.Coolant.Temp2", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Second temperature of liquid found in the engine cooling system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64872": { + "comment": "Gross Combination Vehicle Weight", + "length": 8, + "name": "GCVW", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Net.Vehicle.Weight.Change" : { + "generic_name": "Net.Vehicle.Weight.Change", + "bit_position": 23, + "bit_size": 24, + "factor": 2, + "offset": -16449535, + "min_value": -16449535, + "max_value": 16449535, + "comment": "Identifies the net vehicle weight change from the time of last vehicle net weight zeroing.", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Gross.Combination.Weight" : { + "generic_name": "Gross.Combination.Weight", + "bit_position": -1, + "bit_size": 24, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 32899070, + "comment": "Total weight of the truck and all the trailers with on-board scales.", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "2046": { + "comment": "General Purpose Valve Pressure", + "length": 8, + "name": "GPV4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Valve.Assembly.Supply.Press" : { + "generic_name": "Valve.Assembly.Supply.Press", + "bit_position": 39, + "bit_size": 16, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 321275, + "comment": "Pressure of the hydraulic supply port to a valve assembly.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Valve.Assembly.Load.Sense.Press" : { + "generic_name": "Valve.Assembly.Load.Sense.Press", + "bit_position": 23, + "bit_size": 16, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 321275, + "comment": "The maximum pressure of a valve assembly's current collective load sense pressures where a valve assembly can", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Valve.Pilot.Press" : { + "generic_name": "Valve.Pilot.Press", + "bit_position": 15, + "bit_size": 8, + "factor": 16, + "offset": 0, + "min_value": 0, + "max_value": 4000, + "comment": "Pressure of a valve's pilot supply port.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Valve.Load.Sense.Press" : { + "generic_name": "Valve.Load.Sense.Press", + "bit_position": -1, + "bit_size": 16, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 321275, + "comment": "The maximum of the currently measured pressures of a valve's work port A and work port B.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65112": { + "comment": "Air Suspension Control 4", + "length": 8, + "name": "ASC4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Bellow.Press.Rear.Axle.Right" : { + "generic_name": "Bellow.Press.Rear.Axle.Right", + "bit_position": 47, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Information of the pressure of the air suspension bellow at the right side of the rear axle", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Bellow.Press.Rear.Axle.Left" : { + "generic_name": "Bellow.Press.Rear.Axle.Left", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Information of the pressure of the air suspension bellow at the left side of the rear axle", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Bellow.Press.Front.Axle.Right" : { + "generic_name": "Bellow.Press.Front.Axle.Right", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Information of the pressure of the air suspension bellow at the right side of the front axle", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Bellow.Press.Front.Axle.Left" : { + "generic_name": "Bellow.Press.Front.Axle.Left", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Information of the pressure of the air suspension bellow at the left side of the front axle", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65113": { + "comment": "Air Suspension Control 3", + "length": 8, + "name": "ASC3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Relative.Level.Rear.Axle.Right" : { + "generic_name": "Relative.Level.Rear.Axle.Right", + "bit_position": 47, + "bit_size": 16, + "factor": 0.1, + "offset": -3200, + "min_value": -3200, + "max_value": 3225.5, + "comment": "Information of the height at the left side of the rear axle referred to normal level 1.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Relative.Level.Rear.Axle.Left" : { + "generic_name": "Relative.Level.Rear.Axle.Left", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": -3200, + "min_value": -3200, + "max_value": 3225.5, + "comment": "Information of the height at the left side of the rear axle referred to normal level 1.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Relative.Level.Front.Axle.Right" : { + "generic_name": "Relative.Level.Front.Axle.Right", + "bit_position": 15, + "bit_size": 16, + "factor": 0.1, + "offset": -3200, + "min_value": -3200, + "max_value": 3225.5, + "comment": "Information of the height at the right side of the front axle referred to normal level 1.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Relative.Level.Front.Axle.Left" : { + "generic_name": "Relative.Level.Front.Axle.Left", + "bit_position": -1, + "bit_size": 16, + "factor": 0.1, + "offset": -3200, + "min_value": -3200, + "max_value": 3225.5, + "comment": "Information of the height at the left side of the front axle referred to normal level 1.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "54014": { + "comment": "Air Suspension Control 2", + "length": 8, + "name": "ASC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Speed.Dependent.Level.Ctrl.Rq" : { + "generic_name": "Speed.Dependent.Level.Ctrl.Rq", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter activates speed dependent level control in suspension system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare_TakeNoAction": [3] + } + }, + "Prhbt.Automatic.Air.Suspension.Ctrl" : { + "generic_name": "Prhbt.Automatic.Air.Suspension.Ctrl", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "[Ed note - description needs to be reviewed and adjusted as necessary]", + "is_big_endian": false, + "is_signed": false, + "states": { + "NRq01RqstPrhbtdAtmtcArSspnsnCtr": [0], + "RqPrhbtAtmaticAirSuspensionCtrl": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Memory.Level.Rq" : { + "generic_name": "Memory.Level.Rq", + "bit_position": 59, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Signal which indicates that the air suspension control requests a memory level or a memory level shall be stored.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoMemoryLevelRq": [0], + "MemoryLevel1Rq": [1], + "MemoryLevel2Rq": [2], + "MemoryLevel3Rq": [3], + "MemoryLevel4Rq": [4], + "MemoryLevel5Rq": [5], + "StoreMemoryLevel1": [9], + "StoreMemoryLevel2": [10], + "StoreMemoryLevel3": [11], + "StoreMemoryLevel4": [12], + "StoreMemoryLevel5": [13], + "Reserved": [14], + "DontCare": [15] + } + }, + "Allow.Level.Ctrl.During.Braking.Cmd" : { + "generic_name": "Allow.Level.Ctrl.During.Braking.Cmd", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter overides the inhibit of level control during braking.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisallowLevelCtrlDuringBraking": [0], + "AllowLevelCtrlDuringBraking": [1], + "Reserved": [2], + "DonTCare_TakeNoAction": [3] + } + }, + "Prohibit.Air.Suspension.Ctrl" : { + "generic_name": "Prohibit.Air.Suspension.Ctrl", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter is an external request to the air suspension control system to prohibit all air suspension control.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoRq": [0], + "RqProhibitAirSuspensionCtrl": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Kneeling.Cmd.Rear.Axle" : { + "generic_name": "Kneeling.Cmd.Rear.Axle", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to activate the kneeling functionality at the rear axle of the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DeactivateKneeling": [0], + "ActivateKneeling": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Kneeling.Cmd.Front.Axle" : { + "generic_name": "Kneeling.Cmd.Front.Axle", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to activate the kneeling functionality at the front axle of the vehicle", + "is_big_endian": false, + "is_signed": false, + "states": { + "DeactivateKneeling": [0], + "ActivateKneeling": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Damper.Stiffness.Rq.Lift_.Tag.Axle" : { + "generic_name": "Damper.Stiffness.Rq.Lift_.Tag.Axle", + "bit_position": 39, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Demand value for the shock absorber control at the lift or tag axle", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Damper.Stiffness.Rq.Rear.Axle" : { + "generic_name": "Damper.Stiffness.Rq.Rear.Axle", + "bit_position": 31, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Demand value for the shock absorber control at the rear axle.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Damper.Stiffness.Rq.Front.Axle" : { + "generic_name": "Damper.Stiffness.Rq.Front.Axle", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Demand value for the shock absorber control at the front axle.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Level.Ctrl.Mode.Rq" : { + "generic_name": "Level.Ctrl.Mode.Rq", + "bit_position": 15, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Command signal to activate a level control mode", + "is_big_endian": false, + "is_signed": false, + "states": { + "NrmlOprtnISystmPrfrmsAPrCtrlOfT": [0], + "TrctnHlpIDrvnAxlIsLddTAMxVlGvnB": [1], + "LdFxngIDrvnAxlIsLddTAVlDfndByTh": [2], + "PrssRt1IRtBtwnThPrssrsAtThDrvnA": [3], + "PrssRt2IRtBtwnThPrssrsAtThDrvnA": [4], + "OptmmTrctn1IPrssAtThDrvnAxlIsCt": [5], + "OptmmTrctn2IPrssAtThDrvnAxlIsCt": [6], + "TractionHelpLoadReduce": [7], + "ExhaustBellows": [8], + "1101NotDefined": [9], + "Reserved": [14], + "DontCare_TakeNoAction": [15] + } + }, + "Nominal.Level.Rq.Rear.Axle" : { + "generic_name": "Nominal.Level.Rq.Rear.Axle", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Command signal to activate a level of the rear axle programmed and/or memorized in the ECU.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoLevelRq": [0], + "NormalLevel1": [1], + "NormalLevel2": [2], + "NormalLevel3": [3], + "PresetLevel": [4], + "CustomerLevel": [5], + "UpperLevel": [6], + "LowerLevel": [7], + "StopLevelChange": [8], + "RaiseRq": [9], + "LowerRq": [10], + "1101NotDefined": [11], + "Reserved": [14], + "DontCare_TakeNoAction": [15] + } + }, + "Nominal.Level.Rq.Front.Axle" : { + "generic_name": "Nominal.Level.Rq.Front.Axle", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Command signal to activate a level of the front axle programmed and/or memorized in the ECU For explanations of", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoLevelRq": [0], + "NormalLevel1": [1], + "NormalLevel2": [2], + "NormalLevel3": [3], + "PresetLevel": [4], + "CustomerLevel": [5], + "UpperLevel": [6], + "LowerLevel": [7], + "StopLevelChange": [8], + "RaiseRq": [9], + "LowerRq": [10], + "1101NotDefined": [11], + "Reserved": [14], + "DontCare_TakeNoAction": [15] + } + }, + "Kneeling.Ctrl.Mode.Rq" : { + "generic_name": "Kneeling.Ctrl.Mode.Rq", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to select the kneeling functionality", + "is_big_endian": false, + "is_signed": false, + "states": { + "AutomaticallyActuated": [0], + "ManuallyActuated": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Kneeling.Rq.Right.Side" : { + "generic_name": "Kneeling.Rq.Right.Side", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to activate the kneeling functionality on the right side of the vehicle", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoKneelingRq": [0], + "KneelingRq": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Kneeling.Rq.Left.Side" : { + "generic_name": "Kneeling.Rq.Left.Side", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Command signal to activate the kneeling functionality on the left side of the vehicle", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoKneelingRq": [0], + "KneelingRq": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Automatic.Traction.Help" : { + "generic_name": "Automatic.Traction.Help", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This signal enables the traction help (load transfer) in case of an active ASR function", + "is_big_endian": false, + "is_signed": false, + "states": { + "DisableAutomaticTractionHelp": [0], + "EnableAutomaticTractionHelp": [1], + "Reserved": [2], + "DontCare": [3] + } + }, + "Lift.Axle2.Pos.Cmd" : { + "generic_name": "Lift.Axle2.Pos.Cmd", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal to command the position / load condition of lift / tag axle #2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LiftAxlePosDown_TagAxleLaden": [0], + "LiftAxlePosUp_TagAxleUnladen": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + }, + "Lift.Axle1.Pos.Cmd" : { + "generic_name": "Lift.Axle1.Pos.Cmd", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal to command the position/load condition of lift/tag axle #1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LiftAxlePosDown_TagAxleLaden": [0], + "LiftAxlePosUp_TagAxleUnladen": [1], + "Reserved": [2], + "DontCare_TakeNoAction": [3] + } + } + } + }, + "65114": { + "comment": "Air Suspension Control 1", + "length": 8, + "name": "ASC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Speed.Dependant.Level.Ctrl.Status" : { + "generic_name": "Speed.Dependant.Level.Ctrl.Status", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter indicates if the function Speed Dependant Level Control is active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Inactive": [0], + "Active": [1], + "Reserved": [2], + "DonTCare_TakeNoAction": [3] + } + }, + "Memory.Level" : { + "generic_name": "Memory.Level", + "bit_position": 59, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Signal which indicates that the air suspension control has memory levels selected or stored.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoMemoryLevel": [0], + "MemoryLevel1Selected": [1], + "MemoryLevel2Selected": [2], + "MemoryLevel3Selected": [3], + "MemoryLevel4Selected": [4], + "MemoryLevel5Selected": [5], + "Reserved": [8], + "MemoryLevel1Stored": [9], + "MemoryLevel2Stored": [10], + "MemoryLevel3Stored": [11], + "MemoryLevel4Stored": [12], + "MemoryLevel5Stored": [13], + "ErrorIndicator": [14], + "NotAvailable": [15] + } + }, + "Allw.Lvel.Ctrl.During.Braking.Status" : { + "generic_name": "Allw.Lvel.Ctrl.During.Braking.Status", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter indicates if the function Allow Level Control During Braking is active.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Deactivate": [0], + "Activate": [1], + "Reserved": [2], + "DonTCare_TakeNoAction": [3] + } + }, + "Sspension.Ctrl.Refusal.Information" : { + "generic_name": "Sspension.Ctrl.Refusal.Information", + "bit_position": 55, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Signal which indicates that the air suspension control cannot perform a request due to the operating conditions.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ActualRqNotRefused": [0], + "AxleLoadLimitReached": [1], + "WouldExceedAxleLoadLimit": [2], + "BogieDiffNotLocked": [3], + "AboveSpeedLimit": [4], + "BelowSpeedLimit": [5], + "GnrlRjctINSpcifiedReasonApplies": [6], + "RqedLevelNotAvailable": [7], + "1101NotDefined": [8], + "Error": [14], + "NotAvailable": [15] + } + }, + "Suspension.Remote.Ctrl2" : { + "generic_name": "Suspension.Remote.Ctrl2", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates that the suspension system is controlled by remote control #2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotActive": [0], + "Active": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Suspension.Remote.Ctrl1" : { + "generic_name": "Suspension.Remote.Ctrl1", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates that the suspension system is controlled by remote control #1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotActive": [0], + "Active": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Rear.Axle.In.Bumper.Range" : { + "generic_name": "Rear.Axle.In.Bumper.Range", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates that the vehicle height at the rear axle (SPNs 1723 and 1724) is within the bumper range.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ActualLevelOutOfBumperRange": [0], + "ActualLevelWithinBumperRange": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Front.Axle.In.Bumper.Range" : { + "generic_name": "Front.Axle.In.Bumper.Range", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates that the vehicle height at the front axle (SPNs 1721 and 1722) is within the bumper range.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ActualLevelOutOfBumperRange": [0], + "ActualLevelWithinBumperRange": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Door.Release" : { + "generic_name": "Door.Release", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates that the doors may be opened.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DoorsMayNotBeOpened": [0], + "DoorsMayBeOpened": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Vehicle.Motion.Inhibit" : { + "generic_name": "Vehicle.Motion.Inhibit", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates whether vehicle motion is inhibited.", + "is_big_endian": false, + "is_signed": false, + "states": { + "VehicleMayBeMoved": [0], + "VehicleMotionIsInhibited": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Security.Device" : { + "generic_name": "Security.Device", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "The signal which indicates the status of the security device.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotActive": [0], + "Active": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Level.Ctrl.Mode" : { + "generic_name": "Level.Ctrl.Mode", + "bit_position": 27, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Signal which indicates the actual control mode of the air suspension system", + "is_big_endian": false, + "is_signed": false, + "states": { + "NrmlOprtnISystmPrfrmsAPrCtrlOfT": [0], + "TrctnHlpIDrvnAxlIsLddTAMxVlGvnB": [1], + "LdFxngIDrvnAxlnIsLddTAVlDfndByT": [2], + "PrssRt1IRtBtwnThPrssrsAtThDrvnA": [3], + "PrssRt2IRtBtwnThPrssrsAtThDrvnA": [4], + "OptmmTrctn1IPrssAtThDrvnAxlIsCt": [5], + "OptmmTrctn2IPrssAtThDrvnAxlIsCt": [6], + "TractionHelpLoadReduce": [7], + "ExhstngBllwFnctnIBllwsArExhstdT": [8], + "AirSuspensionCtrlProhibited": [9], + "AtmtcArSuspensionCtrlProhibited": [10], + "1101NotDefined": [11], + "Error": [14], + "NotAvailable": [15] + } + }, + "Kneeling.Information" : { + "generic_name": "Kneeling.Information", + "bit_position": 23, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Signal which indicates the actual level change in case of kneeling function", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotActive": [0], + "KneelingLevelReached": [2], + "LiftingActive": [3], + "KneelingAborted": [4], + "1101NotDefined": [5], + "Error": [14], + "NotAvailable": [15] + } + }, + "Lifting.Ctrl.Mode.Rear.Axle" : { + "generic_name": "Lifting.Ctrl.Mode.Rear.Axle", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the actual lifting level change at the rear axle", + "is_big_endian": false, + "is_signed": false, + "states": { + "LiftingNotActive": [0], + "LiftingActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Lifting.Ctrl.Mode.Front.Axle" : { + "generic_name": "Lifting.Ctrl.Mode.Front.Axle", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the actual lifting level change at the front axle", + "is_big_endian": false, + "is_signed": false, + "states": { + "LiftingNotActive": [0], + "LiftingActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Lowering.Ctrl.Mode.Rear.Axle" : { + "generic_name": "Lowering.Ctrl.Mode.Rear.Axle", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the actual lowering level change at the rear axle", + "is_big_endian": false, + "is_signed": false, + "states": { + "LoweringNotActive": [0], + "LoweringActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Lowering.Ctrl.Mode.Front.Axle" : { + "generic_name": "Lowering.Ctrl.Mode.Front.Axle", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the actual lowering level change at the front axle", + "is_big_endian": false, + "is_signed": false, + "states": { + "LoweringNotActive": [0], + "LoweringActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Above.Nominal.Level.Rear.Axle" : { + "generic_name": "Above.Nominal.Level.Rear.Axle", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates whether the actual height of the rear axle is above the nominal (desired) level of the rear axle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotAbove": [0], + "Above": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Above.Nominal.Level.Front.Axle" : { + "generic_name": "Above.Nominal.Level.Front.Axle", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates whether the actual height of the front axle is above the nominal (desired) level of the front axle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotAbove": [0], + "Above": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Below.Nominal.Level.Rear.Axle" : { + "generic_name": "Below.Nominal.Level.Rear.Axle", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates whether the actual height of the rear axle is below the nominal (desired) level for the rear axle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotBelow": [0], + "Below": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Below.Nominal.Level.Front.Axle" : { + "generic_name": "Below.Nominal.Level.Front.Axle", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates whether the actual height of the front axle is below the nominal (desired) level for the front axle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotBelow": [0], + "Below": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Nominal.Level.Rear.Axle" : { + "generic_name": "Nominal.Level.Rear.Axle", + "bit_position": 3, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Signal which indicates the nominal (desired) height of the rear axle to be controlled by the suspension system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LevelNotSpecified": [0], + "NormalLevel1": [1], + "NormalLevel2": [2], + "NormalLevel3": [3], + "PresetLevel": [4], + "CustomerLevel": [5], + "UpperLevel": [6], + "LowerLevel": [7], + "NotDefined": [8], + "Raising": [9], + "Lowering": [10], + "1101NotDefined": [11], + "Error": [14], + "NotAvailable": [15] + } + }, + "Nominal.Level.Front.Axle" : { + "generic_name": "Nominal.Level.Front.Axle", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Signal which indicates the nominal (desired) height of the front axle to be controlled by the suspension system.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LevelNotSpecified": [0], + "NormalLevel1": [1], + "NormalLevel2": [2], + "NormalLevel3": [3], + "PresetLevel": [4], + "CustomerLevel": [5], + "UpperLevel": [6], + "LowerLevel": [7], + "NotDefined": [8], + "Raising": [9], + "Lowering": [10], + "1101NotDefined": [11], + "Error": [14], + "NotAvailable": [15] + } + }, + "Lift.Axle2.Pos" : { + "generic_name": "Lift.Axle2.Pos", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the position / load condition of lift axle / tag axle #2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LiftAxlePosDown_TagAxleLaden": [0], + "LiftAxlePosUp_TagAxleUnladen": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Lift.Axle1.Pos" : { + "generic_name": "Lift.Axle1.Pos", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the position / load condition of lift axle / tag axle #1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LiftAxlePosDown_TagAxleLaden": [0], + "LiftAxlePosUp_TagAxleUnladen": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "65237": { + "comment": "Alternator Information", + "length": 3, + "name": "AS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Alt4.Status" : { + "generic_name": "Alt4.Status", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Alternator 4 operating status.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Alt4NotCharging": [0], + "Alt4Charging": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Alt3.Status" : { + "generic_name": "Alt3.Status", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Alternator 3 operating status.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Alt3NotCharging": [0], + "Alt3Charging": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Alt2.Status" : { + "generic_name": "Alt2.Status", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Alternator 2 operating status.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Alt2NotCharging": [0], + "Alt2Charging": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Alt1.Status" : { + "generic_name": "Alt1.Status", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Alternator 1 operating status.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Alt1NotCharging": [0], + "Alt1Charging": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Alt.Speed" : { + "generic_name": "Alt.Speed", + "bit_position": -1, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Actual rotation speed of the alternator.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65143": { + "comment": "Auxiliary Pressures", + "length": 8, + "name": "AP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Aux.Abs.Press.Reading" : { + "generic_name": "Aux.Abs.Press.Reading", + "bit_position": 31, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Identifies the current absolute pressure (relative to 0 pressure) that is configured uniquely per application.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aux.Gage.Press.Reading1" : { + "generic_name": "Aux.Gage.Press.Reading1", + "bit_position": 15, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Identifies the current gage pressure (relative to atmosphere) that is configured uniquely per application.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aux.Vacuum.Press.Reading" : { + "generic_name": "Aux.Vacuum.Press.Reading", + "bit_position": -1, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Identifies the current vacuum pressure (relative to atmosphere) that is configured uniquely per application.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64992": { + "comment": "Ambient Conditions 2", + "length": 8, + "name": "AMB2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Specific.Humidity" : { + "generic_name": "Specific.Humidity", + "bit_position": 15, + "bit_size": 16, + "factor": 0.01, + "offset": 0, + "min_value": 0, + "max_value": 642.55, + "comment": "Specific humidity of the ambient intake air.", + "unit": "g/kg", + "is_big_endian": false, + "is_signed": false + }, + "Solar.Sensor.Max" : { + "generic_name": "Solar.Sensor.Max", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "This is the maximum value which can be reported by the sensor for the solar intensity.", + "unit": "mW/cm/cm", + "is_big_endian": false, + "is_signed": false + }, + "Solar.Intensity.Percent" : { + "generic_name": "Solar.Intensity.Percent", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "This is the solar radiation (power density) falling on the vehicle in percent of the maximum sensor value (SPN 2611).", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65232": { + "comment": "Test results for non-continously monitored systems.", + "length": 8, + "name": "DM8", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Test.Limit.Minimum" : { + "generic_name": "Test.Limit.Minimum", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The threshold which the test value must be above to pass the test.", + "is_big_endian": false, + "is_signed": false + }, + "Test.Limit.Maximum" : { + "generic_name": "Test.Limit.Maximum", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The threshold which the test value must be below to pass the test.", + "is_big_endian": false, + "is_signed": false + }, + "Test.Value" : { + "generic_name": "Test.Value", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The test value collected during the test.", + "is_big_endian": false, + "is_signed": false + }, + "Test.Type" : { + "generic_name": "Test.Type", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 1, + "max_value": 64, + "comment": "Identifies the non-continously monitored component identifier that was tested.", + "is_big_endian": false, + "is_signed": false + }, + "Test.Identifier" : { + "generic_name": "Test.Identifier", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 1, + "max_value": 64, + "comment": "Designates the test to be run.", + "is_big_endian": false, + "is_signed": false, + "states": { + "All scaled test results": [247], + "Command Standard Test": [249], + "Last Measured Scaled Results": [250] + } + } + } + }, + "58366": { + "comment": "Command non-continously monitored test", + "length": 8, + "name": "DM7", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "S.PN1.High" : { + "generic_name": "S.PN1.High", + "bit_position": 28, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "SPN #1 (Conversion Version 4)", + "is_big_endian": false, + "is_signed": false + }, + "SPN1" : { + "generic_name": "SPN1", + "bit_position": 7, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65536, + "comment": "SPN #1 (Conversion Version 4)", + "is_big_endian": false, + "is_signed": false + }, + "Test.Identifier" : { + "generic_name": "Test.Identifier", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 1, + "max_value": 64, + "comment": "Designates the test to be run.", + "is_big_endian": false, + "is_signed": false, + "states": { + "All scaled test results": [247], + "Command Standard Test": [249], + "Last Measured Scaled Results": [250] + } + }, + "Failure.Mode.Identifier1" : { + "generic_name": "Failure.Mode.Identifier1", + "bit_position": 23, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "The FMI defines the type of failure detected in the subsystem identified by an SPN.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Above normal (most severe)": [0], + "Below normal (most severe)": [1], + "Data erratic": [2], + "Voltage above normal": [3], + "Voltage below normal": [4], + "Current below normal": [5], + "Current above normal": [6], + "Mechanical system not responding": [7], + "Abnormal frequency": [8], + "Abnormal update rate": [9], + "Abnormal rate of change": [10], + "Root cause not known": [11], + "Bad intelligent device": [12], + "Out of calibration": [13], + "Special intstructions": [14], + "Above normal (least severe)": [15], + "Above normal (moderately severe)": [16], + "Below normal (least severe)": [17], + "Below normal (moderately severe)": [18], + "Received network data in error": [19], + "Not available": [31] + } + } + } + }, + "65231": { + "comment": "Pending DTCs", + "length": 22, + "name": "DM6", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65230": { + "comment": "Diagnostic readiness 1", + "length": 8, + "name": "DM5", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Boost.Pressure.Control.System.Status" : { + "generic_name": "Boost.Pressure.Control.System.Status", + "bit_position": 56, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": true + }, + "Diesel.Particulate.Filter.Status" : { + "generic_name": "Diesel.Particulate.Filter.Status", + "bit_position": 57, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": true + }, + "N.Ox.Converting.Catalyst.Adsorber.Status" : { + "generic_name": "N.Ox.Converting.Catalyst.Adsorber.Status", + "bit_position": 58, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": true + }, + "N.MHCConverting.Catalyst.Status" : { + "generic_name": "N.MHCConverting.Catalyst.Status", + "bit_position": 59, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": true + }, + "Boost.Pressure.Control.System.Support" : { + "generic_name": "Boost.Pressure.Control.System.Support", + "bit_position": 40, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": true + }, + "Diesel.Particulate.Filter.Support" : { + "generic_name": "Diesel.Particulate.Filter.Support", + "bit_position": 41, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": true + }, + "N.Ox.Converting.Catalyst.Adsorber.Support" : { + "generic_name": "N.Ox.Converting.Catalyst.Adsorber.Support", + "bit_position": 42, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": true + }, + "N.MHCConverting.Catalyst.Support" : { + "generic_name": "N.MHCConverting.Catalyst.Support", + "bit_position": 43, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": true + }, + "Misfire.Monitoring.Support" : { + "generic_name": "Misfire.Monitoring.Support", + "bit_position": 23, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "test not supported": [0], + "test supported": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "O.BDCompliance" : { + "generic_name": "O.BDCompliance", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 240, + "comment": "Identifies the OBD compliance capabilityof the responding controller.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Reserver for assignment by SAE": [0], + "OBD II (California, ARB)": [1], + "OBD (Federal, EPA)": [2], + "OBD and OBD II": [3], + "OBD I": [4], + "Not intended to meet OBD II req.": [5], + "EOBD": [6], + "EOBD and OBD II": [7], + "EOBD and OBD": [8], + "EOBD, OBD and OBD II": [9], + "JOBD": [10], + "JOBD and OBD II": [11], + "JOBD and EOBD": [12], + "JOBD, EOBD and OBD II": [13], + "Heavy Duty Vehicles (EURO IV) B1": [14], + "Heavy Duty Vehicles (EURO V) B2": [15], + "Heavy Duty Vehicles (EURO EEC) C": [16], + "EMD": [17], + "EMD+": [18], + "HD OBD P": [19], + "HD OBD": [20], + "WWH OBD": [21], + "OBD II (California, ARB 07/08)": [22], + "HD EOBD": [23], + "OBD-M (SI-SD/I)": [25] + } + }, + "Previously.Active.Trouble.Codes" : { + "generic_name": "Previously.Active.Trouble.Codes", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 240, + "comment": "Identifies the number of previously active trouble codes that are present in a specific controller.", + "is_big_endian": false, + "is_signed": false + }, + "Active.Trouble.Codes" : { + "generic_name": "Active.Trouble.Codes", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 240, + "comment": "Identifies the number of active trouble codes that are present in a specific controller.", + "is_big_endian": false, + "is_signed": false + }, + "Second.Air.System.Mon.Status" : { + "generic_name": "Second.Air.System.Mon.Status", + "bit_position": 50, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestComplete": [0], + "TestNotComplete": [1] + } + }, + "Evaporative.System.Mon.Status" : { + "generic_name": "Evaporative.System.Mon.Status", + "bit_position": 49, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestComplete": [0], + "TestNotComplete": [1] + } + }, + "A.CSystem.Refrigerant.Mon.Status" : { + "generic_name": "A.CSystem.Refrigerant.Mon.Status", + "bit_position": 51, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestComplete": [0], + "TestNotComplete": [1] + } + }, + "Oxygen.Sensor.Heater.Mon.Status" : { + "generic_name": "Oxygen.Sensor.Heater.Mon.Status", + "bit_position": 53, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestComplete": [0], + "TestNotComplete": [1] + } + }, + "Oxygen.Sensor.Mon.Status" : { + "generic_name": "Oxygen.Sensor.Mon.Status", + "bit_position": 52, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "test complete": [0], + "test not complete": [1] + } + }, + "E.GRSystem.Monitoring.Status" : { + "generic_name": "E.GRSystem.Monitoring.Status", + "bit_position": 54, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestComplete": [0], + "TestNotComplete": [1] + } + }, + "Catalyst.Mon.Status" : { + "generic_name": "Catalyst.Mon.Status", + "bit_position": 47, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestComplete": [0], + "TestNotComplete": [1] + } + }, + "Cold.Start.Aid.System.Mon.Status" : { + "generic_name": "Cold.Start.Aid.System.Mon.Status", + "bit_position": 55, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestComplete": [0], + "TestNotComplete": [1] + } + }, + "Heated.Catalyst.Mon.Status" : { + "generic_name": "Heated.Catalyst.Mon.Status", + "bit_position": 48, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestComplete": [0], + "TestNotComplete": [1] + } + }, + "Catalyst.Mon.Supp" : { + "generic_name": "Catalyst.Mon.Supp", + "bit_position": 31, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestNotSupported": [0], + "TestSupported": [1] + } + }, + "Cold.Start.Aid.System.Mon.Supp" : { + "generic_name": "Cold.Start.Aid.System.Mon.Supp", + "bit_position": 39, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestNotSupported": [0], + "TestSupported": [1] + } + }, + "Heated.Catalyst.Mon.Supp" : { + "generic_name": "Heated.Catalyst.Mon.Supp", + "bit_position": 32, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestNotSupported": [0], + "TestSupported": [1] + } + }, + "Evaporative.System.Mon.Supp" : { + "generic_name": "Evaporative.System.Mon.Supp", + "bit_position": 33, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestNotSupported": [0], + "TestSupported": [1] + } + }, + "Second.Air.System.Mon.Supp" : { + "generic_name": "Second.Air.System.Mon.Supp", + "bit_position": 34, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestNotSupported": [0], + "TestSupported": [1] + } + }, + "A.CSystem.Refrigerant.Mon.Supp" : { + "generic_name": "A.CSystem.Refrigerant.Mon.Supp", + "bit_position": 35, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestNotSupported": [0], + "TestSupported": [1] + } + }, + "Oxygen.Sensor.Mon.Supp" : { + "generic_name": "Oxygen.Sensor.Mon.Supp", + "bit_position": 36, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestNotSupported": [0], + "TestSupported": [1] + } + }, + "Oxygen.Sensor.Heater.Mon.Supp" : { + "generic_name": "Oxygen.Sensor.Heater.Mon.Supp", + "bit_position": 37, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestNotSupported": [0], + "TestSupported": [1] + } + }, + "E.GRSystem.Monitoring.Supp" : { + "generic_name": "E.GRSystem.Monitoring.Supp", + "bit_position": 38, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "TestNotSupported": [0], + "TestSupported": [1] + } + }, + "Misfire.Monitoring.Status" : { + "generic_name": "Misfire.Monitoring.Status", + "bit_position": 27, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "test complete": [0], + "test not complete": [1] + } + }, + "Comprehensive.Comp.Mon.Status" : { + "generic_name": "Comprehensive.Comp.Mon.Status", + "bit_position": 29, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "test complete": [0], + "test not complete": [1] + } + }, + "Fuel.System.Monitoring.Status" : { + "generic_name": "Fuel.System.Monitoring.Status", + "bit_position": 28, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "test complete": [0], + "test not complete": [1] + } + }, + "Comprehensive.Component.Mon.Supp" : { + "generic_name": "Comprehensive.Component.Mon.Supp", + "bit_position": 25, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "test not supported": [0], + "test supported": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Fuel.System.Monitoring.Support" : { + "generic_name": "Fuel.System.Monitoring.Support", + "bit_position": 24, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "test not supported": [0], + "test supported": [1] + } + } + } + }, + "65229": { + "comment": "Freeze frame parameters", + "length": 13, + "name": "DM4", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Intake.Manifold1.Press" : { + "generic_name": "Eng.Intake.Manifold1.Press", + "bit_position": 47, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "The gage pressure measurement of the air intake manifold.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Freeze.Frame.Length" : { + "generic_name": "Freeze.Frame.Length", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "The freeze frame length shall be equal to the number of bytes in the required parameters plus the number of bytes in themanufacturer specific parameters.", + "unit": "Byte", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Speed" : { + "generic_name": "Eng.Speed", + "bit_position": 55, + "bit_size": 16, + "factor": 0.125, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "Actual engine speed which is calculated over a minimum crankshaft angle of 720 degrees divided by the number of cylinders.", + "unit": "rpm", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Torque.Mode" : { + "generic_name": "Eng.Torque.Mode", + "bit_position": 39, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "State signal which indicates which engine torque mode is currently generating, limiting, or controlling the torque.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Low idle governor/no request (de": [0], + "Accelerator pedal/operator selec": [1], + "Cruise control": [2], + "PTO governor": [3], + "Road speed governor": [4], + "ASR control": [5], + "Transmission control": [6], + "ABS control": [7], + "Torque limiting": [8], + "High speed governor": [9], + "Braking system": [10], + "Remote accelerator": [11], + "Not available": [15] + } + }, + "Wheel.Based.Vehicle.Speed" : { + "generic_name": "Wheel.Based.Vehicle.Speed", + "bit_position": 87, + "bit_size": 16, + "factor": 0.00390625, + "offset": 0, + "min_value": 0, + "max_value": 250.996, + "comment": "Speed of the vehicle as calculated from wheel or tailshaft speed.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Percent.Load.At.Current.Speed" : { + "generic_name": "Eng.Percent.Load.At.Current.Speed", + "bit_position": 71, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "The ratio of actual engine percent torque (indicated) to maximum indicated torque available at the current engine speed,", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Engine.Coolant.Temperature" : { + "generic_name": "Engine.Coolant.Temperature", + "bit_position": 79, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "None", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 7, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65228": { + "comment": "Diagnostic data clear/reset of previously active DTCs.", + "length": 0, + "name": "DM3", + "bus" : "j1939" + }, + "64951": { + "comment": "Expanded freeze frame.", + "length": 13, + "name": "DM25", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Expanded.Freeze.Frame.Length" : { + "generic_name": "Expanded.Freeze.Frame.Length", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "The freeze frame length shall be equal to the number of bytes in the required parameters plus the number of bytes in themanufacturer specific parameters.", + "unit": "Byte", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 7, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64950": { + "comment": "SPN Support. This message is used to identify those SPNs supported by the product for freeze frames and data stream messages.", + "length": 12, + "name": "DM24", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "S.PNSupported1.High" : { + "generic_name": "S.PNSupported1.High", + "bit_position": 20, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "This parameter defines the SPN(s) that is/are supported for the freeze frame and/or data stream information.", + "is_big_endian": false, + "is_signed": false + }, + "S.PNSupport.Type.STR3" : { + "generic_name": "S.PNSupport.Type.STR3", + "bit_position": 81, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "This parameter defines whether the applicable parameter (that is the SPN) is supported in the freeze frame, the data stream or both the freeze frame and data stream.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSupportedInScaledTestResults": [0], + "SupportedInScaledTestResults": [1] + } + }, + "S.PNSupport.Type.STR2" : { + "generic_name": "S.PNSupport.Type.STR2", + "bit_position": 80, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "This parameter defines whether the applicable parameter (that is the SPN) is supported in the freeze frame, the data stream or both the freeze frame and data stream.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSupportedInScaledTestResults": [0], + "SupportedInScaledTestResults": [1] + } + }, + "S.PNSupport.Type.EFF3" : { + "generic_name": "S.PNSupport.Type.EFF3", + "bit_position": 79, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "This parameter defines whether the applicable parameter (that is the SPN) is supported in the freeze frame, the data stream or both the freeze frame and data stream.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSupportedInExFreezeFrame": [0], + "SupportedInExFreezeFrame": [1] + } + }, + "S.PNSupport.Type.EFF2" : { + "generic_name": "S.PNSupport.Type.EFF2", + "bit_position": 47, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "This parameter defines whether the applicable parameter (that is the SPN) is supported in the freeze frame, the data stream or both the freeze frame and data stream.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSupportedInExFreezeFrame": [0], + "SupportedInExFreezeFrame": [1] + } + }, + "S.PNSupport.Type.DS3" : { + "generic_name": "S.PNSupport.Type.DS3", + "bit_position": 49, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "This parameter defines whether the applicable parameter (that is the SPN) is supported in the freeze frame, the data stream or both the freeze frame and data stream.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSupportedInDataStream": [0], + "SupportedInDataStream": [1] + } + }, + "S.PNSupport.Type.DS2" : { + "generic_name": "S.PNSupport.Type.DS2", + "bit_position": 48, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "This parameter defines whether the applicable parameter (that is the SPN) is supported in the freeze frame, the data stream or both the freeze frame and data stream.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSupportedInDataStream": [0], + "SupportedInDataStream": [1] + } + }, + "S.PNSupported3.High" : { + "generic_name": "S.PNSupported3.High", + "bit_position": 84, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "This parameter defines the SPN(s) that is/are supported for the freeze frame and/or data stream information.", + "is_big_endian": false, + "is_signed": false + }, + "S.PNSupported2.High" : { + "generic_name": "S.PNSupported2.High", + "bit_position": 52, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "This parameter defines the SPN(s) that is/are supported for the freeze frame and/or data stream information.", + "is_big_endian": false, + "is_signed": false + }, + "S.PNSupported3" : { + "generic_name": "S.PNSupported3", + "bit_position": 63, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "This parameter defines the SPN(s) that is/are supported for the freeze frame and/or data stream information.", + "is_big_endian": false, + "is_signed": false + }, + "S.PNSupported2" : { + "generic_name": "S.PNSupported2", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "This parameter defines the SPN(s) that is/are supported for the freeze frame and/or data stream information.", + "is_big_endian": false, + "is_signed": false + }, + "S.PNData.Length3" : { + "generic_name": "S.PNData.Length3", + "bit_position": 87, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 240, + "comment": "The number of data bytes associated with the SPN in the Freeze Frame.", + "is_big_endian": false, + "is_signed": false + }, + "S.PNSupport.Type.STR1" : { + "generic_name": "S.PNSupport.Type.STR1", + "bit_position": 17, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "This parameter defines whether the applicable parameter (that is the SPN) is supported in the freeze frame, the data stream or both the freeze frame and data stream.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSupportedInScaledTestResults": [0], + "SupportedInScaledTestResults": [1] + } + }, + "S.PNSupport.Type.DS1" : { + "generic_name": "S.PNSupport.Type.DS1", + "bit_position": 16, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "This parameter defines whether the applicable parameter (that is the SPN) is supported in the freeze frame, the data stream or both the freeze frame and data stream.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSupportedInDataStream": [0], + "SupportedInDataStream": [1] + } + }, + "S.PNSupport.Type.EFF1" : { + "generic_name": "S.PNSupport.Type.EFF1", + "bit_position": 15, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "This parameter defines whether the applicable parameter (that is the SPN) is supported in the freeze frame, the data stream or both the freeze frame and data stream.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSupportedInExFreezeFrame": [0], + "SupportedInExFreezeFrame": [1] + } + }, + "S.PNData.Length2" : { + "generic_name": "S.PNData.Length2", + "bit_position": 55, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 240, + "comment": "The number of data bytes associated with the SPN in the Freeze Frame.", + "is_big_endian": false, + "is_signed": false + }, + "S.PNData.Length1" : { + "generic_name": "S.PNData.Length1", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 240, + "comment": "The number of data bytes associated with the SPN in the Freeze Frame.", + "is_big_endian": false, + "is_signed": false + }, + "S.PNSupported1" : { + "generic_name": "S.PNSupported1", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "This parameter defines the SPN(s) that is/are supported for the freeze frame and/or data stream information.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64949": { + "comment": "Previously active emission related faults.", + "length": 22, + "name": "DM23", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "50174": { + "comment": "Individual Clear/Reset of active and previously active DTC.", + "length": 8, + "name": "DM22", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Individual.DTCClear.Control.Byte" : { + "generic_name": "Individual.DTCClear.Control.Byte", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Ctrl.Byte.Indic.Individual.DTCClear" : { + "generic_name": "Ctrl.Byte.Indic.Individual.DTCClear", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "SPN1" : { + "generic_name": "SPN1", + "bit_position": 39, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65536, + "comment": "SPN #1 (Conversion Version 4)", + "is_big_endian": false, + "is_signed": false + }, + "S.PN1.High" : { + "generic_name": "S.PN1.High", + "bit_position": 60, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "SPN #1 (Conversion Version 4)", + "is_big_endian": false, + "is_signed": false + }, + "Failure.Mode.Identifier1" : { + "generic_name": "Failure.Mode.Identifier1", + "bit_position": 55, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "The FMI defines the type of failure detected in the subsystem identified by an SPN.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Above normal (most severe)": [0], + "Below normal (most severe)": [1], + "Data erratic": [2], + "Voltage above normal": [3], + "Voltage below normal": [4], + "Current below normal": [5], + "Current above normal": [6], + "Mechanical system not responding": [7], + "Abnormal frequency": [8], + "Abnormal update rate": [9], + "Abnormal rate of change": [10], + "Root cause not known": [11], + "Bad intelligent device": [12], + "Out of calibration": [13], + "Special intstructions": [14], + "Above normal (least severe)": [15], + "Above normal (moderately severe)": [16], + "Below normal (least severe)": [17], + "Below normal (moderately severe)": [18], + "Received network data in error": [19], + "Not available": [31] + } + } + } + }, + "49662": { + "comment": "Diagnostic readiness 2", + "length": 8, + "name": "DM21", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Time.Since.DTCs.Cleared" : { + "generic_name": "Time.Since.DTCs.Cleared", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Time accumulated since DTCs were cleared (via an external test equipment or possibly, a battery disconnect) (SPN=?).", + "unit": "mins", + "is_big_endian": false, + "is_signed": false + }, + "Minutes.Run.By.Engine.MILActivated" : { + "generic_name": "Minutes.Run.By.Engine.MILActivated", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Accumulated count (in minutes) while the MIL is activated (on) (SPN=?).", + "unit": "mins", + "is_big_endian": false, + "is_signed": false + }, + "Distance.Since.DTCs.Cleared" : { + "generic_name": "Distance.Since.DTCs.Cleared", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Distance accumulated since DTCs were cleared (SPN=?).", + "unit": "km", + "is_big_endian": false, + "is_signed": false + }, + "Distance.While.MILis.Activated" : { + "generic_name": "Distance.While.MILis.Activated", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The kilometers accumulated while the MIL is activated (SPN 3060).", + "unit": "km", + "is_big_endian": false, + "is_signed": false + } + } + }, + "49918": { + "comment": "Monitor Performance Ratio", + "length": 11, + "name": "DM20", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Appl.Sys.Monitor.Denominator" : { + "generic_name": "Appl.Sys.Monitor.Denominator", + "bit_position": 71, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "The number of times a vehicle has been operated that constitutes a driving cycle where this Applicable System Monitor could be operated per regulatory requirements (SPN 3068).", + "is_big_endian": false, + "is_signed": false + }, + "Appl.Sys.Monitor.Numerator" : { + "generic_name": "Appl.Sys.Monitor.Numerator", + "bit_position": 55, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "The number of times a vehicle has been operated such that all conditions necessary for the Applicable System Monitor to detect a malfunction have been encountered (SPN 3067).", + "is_big_endian": false, + "is_signed": false + }, + "S.PNof.Appl.Sys.Monitor" : { + "generic_name": "S.PNof.Appl.Sys.Monitor", + "bit_position": 31, + "bit_size": 24, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 524287, + "comment": "Contain the SPN of the system monitor for which Monitor ratio is being reported (SPN 3066).", + "is_big_endian": false, + "is_signed": false + }, + "O.BDMonitoring.Cond.Encountered" : { + "generic_name": "O.BDMonitoring.Cond.Encountered", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "Displays the number of times that the vehicle has been operated in the specified OBD monitoring conditions (SPN 3049).", + "is_big_endian": false, + "is_signed": false + }, + "Ignition.Cycle.Counter" : { + "generic_name": "Ignition.Cycle.Counter", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "A single counter that defines the number of ignition cycles (SPN 3048).", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65227": { + "comment": "Previously active diagnostic trouble codes", + "length": 22, + "name": "DM2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "54270": { + "comment": "Calibration Information", + "length": 20, + "name": "DM19", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Calibration.ID4" : { + "generic_name": "Calibration.ID4", + "bit_position": 127, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Calibration.ID3" : { + "generic_name": "Calibration.ID3", + "bit_position": 95, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Calibration.ID2" : { + "generic_name": "Calibration.ID2", + "bit_position": 63, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Calibration.ID1" : { + "generic_name": "Calibration.ID1", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Calibration.Verification.Number" : { + "generic_name": "Calibration.Verification.Number", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "None", + "is_big_endian": false, + "is_signed": false + } + } + }, + "55038": { + "comment": "Boot Load Data", + "length": 1, + "name": "DM17", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Boot.Load.Data" : { + "generic_name": "Boot.Load.Data", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": true + } + } + }, + "55294": { + "comment": "Binary Data Transfer", + "length": 2, + "name": "DM16", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Raw.Binary.Data" : { + "generic_name": "Raw.Binary.Data", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": true + }, + "Number.Of.Occurance" : { + "generic_name": "Number.Of.Occurance", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "Number of occurance of raw binary data", + "is_big_endian": false, + "is_signed": false + } + } + }, + "55550": { + "comment": "Memory Access Response", + "length": 8, + "name": "DM15", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Number.Allowed" : { + "generic_name": "Number.Allowed", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 2047, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Seed" : { + "generic_name": "Seed", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "SeedCompleted_BeginSendingKey": [0], + "UseLongSeedOrKeyFromDataSecMsg": [1], + "NoFurtherKeyRequiredOfTool": [255] + } + }, + "E.DCP_.Extension" : { + "generic_name": "E.DCP_.Extension", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "Completed": [0], + "ConcatenateDataAsHigherEDCParam": [2], + "ConcatenateDataAsLowerEDCParam": [3], + "DataInErrorIndicator": [6], + "DataInErrIndAndDataInSeedIsTime": [9], + "NoErrIndicator/EDCParamAvailable": [255] + } + }, + "Error.Indicator" : { + "generic_name": "Error.Indicator", + "bit_position": 15, + "bit_size": 24, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 16777215, + "comment": "Error Indicator/EDC Parameter", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoError": [0], + "ErrorNotIdentified": [1], + "ProcessingForSomeoneElse": [2], + "ProcessingEraseReq": [16], + "ProcessingReadReq": [17], + "ProcessingWriteReq": [18], + "ProcessingStatusReq": [19], + "ProcessingBootLoadReq": [22], + "ProcessingEDCPGenerationReq": [23], + "ProcessUnspecReqFromThisAddress": [31], + "EDCParaNotCorrectForDataStream": [32], + "RAMDidNotVerifyOnWrite": [33], + "FLASHDidNotVerifyOnWrite": [34], + "PROMDidNotVerifyOnWrite": [35], + "InternalFailurePreventingReq": [36], + "AddressingOrDataGeneralError": [256], + "AddressNotOnValidBoundary": [257], + "LengthNotValidForMemStructAndOp": [258], + "ReqMemoryExceededAvailableMemory": [259], + "OpRequiresPriorEraseOfDataMem": [260], + "OpRequiresPriorEraseOfProgramMem": [261], + "OpReqExeTransfAndEraseOfProgMem": [262], + "AddrForBootLoadExeOutsideExeMem": [263], + "AddrForBootLoadExeInvalidBoundary": [264], + "DataDoesNotConformToValueRanges": [265], + "NameDoesNotConformToExpectdValue": [266], + "SecurityErrorGeneral": [4096], + "InvalidPassword": [4097], + "InvalidUserLevel": [4098], + "InvalidKey": [4099], + "NotInDiagnosticMode": [4100], + "NotInEngineeringOrDevelopmentMode": [4101], + "EngineRunning": [4102], + "VehicleNotInParkOrNotStationary": [4103], + "AbortFromExtToNormalSoftwareProc": [65536], + "ModuleExceedingNumberOfRetries": [65537], + "NoResponseInTheTimeAllowed": [65538], + "TransportNotInitWithinTimeAllowd": [65539], + "TransprtNotComplWithinTimeAllowd": [65540], + "NoErrorIndicatorAvailable": [16777215] + } + }, + "Status" : { + "generic_name": "Status", + "bit_position": 8, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "Proceed": [0], + "Busy": [1], + "Reserved": [2, 3, 6, 7], + "OperationCompleted": [4], + "OperationFailed": [5] + } + }, + "Number.Allowed.High" : { + "generic_name": "Number.Allowed.High", + "bit_position": 12, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "None", + "is_big_endian": false, + "is_signed": false + } + } + }, + "55806": { + "comment": "Memory Access Request", + "length": 8, + "name": "DM14", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Key.Or.User.Level" : { + "generic_name": "Key.Or.User.Level", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 65535, + "comment": "Key/User Level", + "is_big_endian": false, + "is_signed": false, + "states": { + "UseLongSeedOrKey": [0], + "NoKeyAvailable": [65535] + } + }, + "Pointer.Extension" : { + "generic_name": "Pointer.Extension", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "SPN_SPACE": [0] + } + }, + "Pointer" : { + "generic_name": "Pointer", + "bit_position": 15, + "bit_size": 24, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 16777215, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Command" : { + "generic_name": "Command", + "bit_position": 8, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "Erase": [0], + "Read": [1], + "Write": [2], + "StatusRequest": [3], + "OperationCompleted": [4], + "OperationFailed": [5], + "BootLoad": [6], + "EDCP_Generation": [7] + } + }, + "Pointer.Type" : { + "generic_name": "Pointer.Type", + "bit_position": 11, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "DirectMemoryAddressing": [0], + "DirectedSpatialAddressing": [1] + } + }, + "Number.Requested" : { + "generic_name": "Number.Requested", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 2047, + "comment": "Length/Number Requested", + "is_big_endian": false, + "is_signed": false + }, + "Number.Requested.High" : { + "generic_name": "Number.Requested.High", + "bit_position": 12, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Length/Number Requested", + "is_big_endian": false, + "is_signed": false + } + } + }, + "57342": { + "comment": "Stop start broadcast", + "length": 8, + "name": "DM13", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Hold.Signal" : { + "generic_name": "Hold.Signal", + "bit_position": 27, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Indicator to all nodes that the communication ports that have been acted upon by the 'Stop start broadcast'PGN are remaining in the modified state.", + "is_big_endian": false, + "is_signed": false, + "states": { + "All devices": [0], + "Devices whose broadcast state ha": [1], + "Not available": [15] + } + }, + "J1939.Network3" : { + "generic_name": "J1939.Network3", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the action to be performed on the SAE J1939 Network #3.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Stop broadcast": [0], + "Start broadcast": [1], + "Reserved": [2], + "Don't care": [3] + } + }, + "J1939.Network2" : { + "generic_name": "J1939.Network2", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the action to be performed on the SAE J1939 Network #2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Stop broadcast": [0], + "Start broadcast": [1], + "Reserved": [2], + "Don't care": [3] + } + }, + "ISO9141" : { + "generic_name": "ISO9141", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the action to be performed on the ISO9141 communications port.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Stop broadcast": [0], + "Start broadcast": [1], + "Reserved": [2], + "Don't care": [3] + } + }, + "SAE_J1850" : { + "generic_name": "SAE_J1850", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the action to be performed on the SAE J1850 communications port.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Stop broadcast": [0], + "Start broadcast": [1], + "Reserved": [2], + "Don't care": [3] + } + }, + "Manufacturer.Specific.Port" : { + "generic_name": "Manufacturer.Specific.Port", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the action to be performed on 'Other, manufacturer specific port' communications port.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Stop broadcast": [0], + "Start broadcast": [1], + "Reserved": [2], + "Don't care": [3] + } + }, + "Current.Data.Link" : { + "generic_name": "Current.Data.Link", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the action to be performed on the communications port that this parameter was received.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Stop broadcast": [0], + "Start broadcast": [1], + "Reserved": [2], + "Don't care": [3] + } + }, + "SAE_J1587" : { + "generic_name": "SAE_J1587", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the action to be performed on the SAE J1587 communications port.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Stop broadcast": [0], + "Start broadcast": [1], + "Reserved": [2], + "Don't care": [3] + } + }, + "SAE_J1922" : { + "generic_name": "SAE_J1922", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the action to be performed on the SAE J1922 communications port.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Stop broadcast": [0], + "Start broadcast": [1], + "Reserved": [2], + "Don't care": [3] + } + }, + "J1939.Network1" : { + "generic_name": "J1939.Network1", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the action to be performed on the SAE J1939 Network #1, Primary vehicle communications port.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Stop broadcast": [0], + "Start broadcast": [1], + "Reserved": [2], + "Don't care": [3] + } + }, + "Suspend.Signal" : { + "generic_name": "Suspend.Signal", + "bit_position": 23, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "IndefiniteSuspensionOfAllBroadcasts": [0], + "IndefiniteSuspensionOfSomeMessages": [1], + "TemporarySuspensionOfAllBroadcasts": [2], + "TemporarySuspensionOfSomeMessages": [3], + "ResumingNormalBroadcastPattern": [14], + "NotAvailable": [15] + } + }, + "Suspend.Duration" : { + "generic_name": "Suspend.Duration", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "None", + "unit": "sec", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65236": { + "comment": "Emissions-related active diagnostic trouble codes.", + "length": 22, + "name": "DM12", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65235": { + "comment": "Diagnostic data clear/Reset for active DTCs", + "length": 0, + "name": "DM11", + "bus" : "j1939" + }, + "65234": { + "comment": "Non-continously monitored systems test identifiers support", + "length": 8, + "name": "DM10", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Test.Identifier.Supported" : { + "generic_name": "Test.Identifier.Supported", + "bit_position": -1, + "bit_size": 64, + "factor": 1, + "offset": 0, + "min_value": 1, + "max_value": 1.844674407371E+19, + "comment": "Indicates the test identifiers that the controller supports.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65226": { + "comment": "Active diagnostic trouble codes", + "length": 22, + "name": "DM1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65015": { + "comment": "Utility Total AC Reactive Power", + "length": 8, + "name": "UTACR", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Utlity.Overall.Power.Factor.Lagging" : { + "generic_name": "Utlity.Overall.Power.Factor.Lagging", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lead/lag status for utility incomer average power factor.", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Overall.Power.Factor" : { + "generic_name": "Utility.Overall.Power.Factor", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": -1, + "min_value": -1, + "max_value": 2.92181, + "comment": "The average power factor of the utility incomer.", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Total.Reactive.Power" : { + "generic_name": "Utility.Total.Reactive.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The total reactive power delivered by the utility incomer", + "unit": "VAr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65016": { + "comment": "Utility Total AC Power", + "length": 8, + "name": "UTACP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Utility.Total.Apparent.Power" : { + "generic_name": "Utility.Total.Apparent.Power", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The total apparent power delivered by the utility incomer.", + "unit": "VA", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Total.Real.Power" : { + "generic_name": "Utility.Total.Real.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "Total real power delivered by the utility incomer.", + "unit": "W", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65005": { + "comment": "Utility Total AC Energy", + "length": 8, + "name": "UTACE", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Utility.Total.KWHours.Import" : { + "generic_name": "Utility.Total.KWHours.Import", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "The total kilowatt-hours that have been imported by the utility incomer.", + "unit": "kWh", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Total.KWHours.Export" : { + "generic_name": "Utility.Total.KWHours.Export", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "The total kilowatt-hours that have been exported by the utility incomer.", + "unit": "kWh", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65006": { + "comment": "Utility Phase C AC Reactive Power", + "length": 8, + "name": "UPCACR", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Utility.Phase.CPower.Factor.Lagging" : { + "generic_name": "Utility.Phase.CPower.Factor.Lagging", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lead/lag status for utility incomer phase C power factor.", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Phase.CPower.Factor" : { + "generic_name": "Utility.Phase.CPower.Factor", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": -1, + "min_value": -1, + "max_value": 2.92181, + "comment": "The power factor of phases C of the utility incomer.", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Phase.CReactive.Power" : { + "generic_name": "Utility.Phase.CReactive.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The reactive power delivered by phase C of the utility incomer", + "unit": "VAr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65007": { + "comment": "Utility Phase C AC Power", + "length": 8, + "name": "UPCACP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Utility.Phase.CApparent.Power" : { + "generic_name": "Utility.Phase.CApparent.Power", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The apparent power delivered by phase C of the utility incomer.", + "unit": "VA", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Phase.CReal.Power" : { + "generic_name": "Utility.Phase.CReal.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The real power delivered by phase C of the utility incomer.", + "unit": "W", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65008": { + "comment": "Utility Phase C AC Basic Quantities", + "length": 8, + "name": "UPCAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Utility.Phase.CACRMSCurrent" : { + "generic_name": "Utility.Phase.CACRMSCurrent", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "RMS current measured at the utility incomer phase C.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Phase.CACFrequency" : { + "generic_name": "Utility.Phase.CACFrequency", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 501.9921875, + "comment": "AC frequency measured at the utility incomer phase C.", + "unit": "Hz", + "is_big_endian": false, + "is_signed": false + }, + "Utlty.Phs.CLne.Neutral.ACRMSVoltage" : { + "generic_name": "Utlty.Phs.CLne.Neutral.ACRMSVoltage", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Neutral RMS voltage measured at the utility incomer phase C.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Utlty.Phse.CALine.Line.ACRMSVoltage" : { + "generic_name": "Utlty.Phse.CALine.Line.ACRMSVoltage", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Line RMS voltage measured at the utility incomer phase CA.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65009": { + "comment": "Utility Phase B AC Reactive Power", + "length": 8, + "name": "UPBACR", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Utility.Phase.BPower.Factor.Lagging" : { + "generic_name": "Utility.Phase.BPower.Factor.Lagging", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lead/lag status for utility incomer phase B power factor.", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Phase.BPower.Factor" : { + "generic_name": "Utility.Phase.BPower.Factor", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": -1, + "min_value": -1, + "max_value": 2.92181, + "comment": "The power factor of phases B of the utility incomer.", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Phase.BReactive.Power" : { + "generic_name": "Utility.Phase.BReactive.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The reactive power delivered by phase B of the utility incomer", + "unit": "VAr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65010": { + "comment": "Utility Phase B AC Power", + "length": 8, + "name": "UPBACP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Utility.Phase.BApparent.Power" : { + "generic_name": "Utility.Phase.BApparent.Power", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The apparent power delivered by phase B of the utility incomer.", + "unit": "VA", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Phase.BReal.Power" : { + "generic_name": "Utility.Phase.BReal.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The real power delivered by phase B of the utility incomer.", + "unit": "W", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65011": { + "comment": "Utility Phase B AC Basic Quantities", + "length": 8, + "name": "UPBAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Utility.Phase.BACRMSCurrent" : { + "generic_name": "Utility.Phase.BACRMSCurrent", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "RMS current measured at the utility incomer phase B.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Phase.BACFrequency" : { + "generic_name": "Utility.Phase.BACFrequency", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 501.9921875, + "comment": "AC frequency measured at the utility incomer phase B.", + "unit": "Hz", + "is_big_endian": false, + "is_signed": false + }, + "Utlty.Phs.BLne.Neutral.ACRMSVoltage" : { + "generic_name": "Utlty.Phs.BLne.Neutral.ACRMSVoltage", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Neutral RMS voltage measured at the utility incomer phase B.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Utlty.Phse.BCLine.Line.ACRMSVoltage" : { + "generic_name": "Utlty.Phse.BCLine.Line.ACRMSVoltage", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Line RMS voltage measured at the utility incomer phase BC.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65012": { + "comment": "Utility Phase A AC Reactive Power", + "length": 8, + "name": "UPACCR", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Utility.Phase.APower.Factor.Lagging" : { + "generic_name": "Utility.Phase.APower.Factor.Lagging", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lead/lag status for utility incomer phase A power factor.", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Phase.APower.Factor" : { + "generic_name": "Utility.Phase.APower.Factor", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": -1, + "min_value": -1, + "max_value": 2.92181, + "comment": "The power factor of phase A of the utility incomer.", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Phase.AReactive.Power" : { + "generic_name": "Utility.Phase.AReactive.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The reactive power delivered by phase A of the utility incomer", + "unit": "VAr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65013": { + "comment": "Utility Phase A AC Power", + "length": 8, + "name": "UPAACP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Utility.Phase.AApparent.Power" : { + "generic_name": "Utility.Phase.AApparent.Power", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The apparent power delivered by phase A of the utility incomer.", + "unit": "VA", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Phase.AReal.Power" : { + "generic_name": "Utility.Phase.AReal.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The real power delivered by phase A of the utility incomer.", + "unit": "W", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65014": { + "comment": "Utility Phase A Basic AC Quantities", + "length": 8, + "name": "UPAAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Utility.Phase.AACRMSCurrent" : { + "generic_name": "Utility.Phase.AACRMSCurrent", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "RMS current measured at the utility incomer phase A.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Phase.AACFrequency" : { + "generic_name": "Utility.Phase.AACFrequency", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 501.9921875, + "comment": "AC frequency measured at the utility incomer phase A.", + "unit": "Hz", + "is_big_endian": false, + "is_signed": false + }, + "Utlty.Phs.ALne.Neutral.ACRMSVoltage" : { + "generic_name": "Utlty.Phs.ALne.Neutral.ACRMSVoltage", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Neutral RMS voltage measured at the utility incomer phase A.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Utlty.Phse.ABLine.Line.ACRMSVoltage" : { + "generic_name": "Utlty.Phse.ABLine.Line.ACRMSVoltage", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Line RMS voltage measured at the utility incomer phase AB.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65017": { + "comment": "Utility Average Basic AC Quantities", + "length": 8, + "name": "UAAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Utility.Average.ACRMSCurrent" : { + "generic_name": "Utility.Average.ACRMSCurrent", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Average RMS current measured at the utility incomer.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Utility.Average.ACFrequency" : { + "generic_name": "Utility.Average.ACFrequency", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 501.9921875, + "comment": "Average AC frequency measured at the utility incomer.", + "unit": "Hz", + "is_big_endian": false, + "is_signed": false + }, + "Utlty.Avrg.Lne.Neutral.ACRMSVoltage" : { + "generic_name": "Utlty.Avrg.Lne.Neutral.ACRMSVoltage", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The average Line to Neutral AC RMS voltage measured at the utility incomer .", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Utlty.Avrage.Line.Line.ACRMSVoltage" : { + "generic_name": "Utlty.Avrage.Line.Line.ACRMSVoltage", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Average Line to Line RMS voltage measured at the utility incomer .", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65028": { + "comment": "Generator Total AC Reactive Power", + "length": 8, + "name": "GTACR", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Gnrtor.Overall.Power.Factor.Lagging" : { + "generic_name": "Gnrtor.Overall.Power.Factor.Lagging", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lead/lag status for generator average power factor.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Leading": [0], + "Lagging": [1], + "Error": [2], + "NotAvailable_NotInstalled": [3] + } + }, + "Generator.Overall.Power.Factor" : { + "generic_name": "Generator.Overall.Power.Factor", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": -1, + "min_value": -1, + "max_value": 2.92181, + "comment": "The average power factor of the generator.", + "is_big_endian": false, + "is_signed": false + }, + "Generator.Total.Reactive.Power" : { + "generic_name": "Generator.Total.Reactive.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The total reactive power delivered by the generator", + "unit": "VAr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65029": { + "comment": "Generator Total AC Power", + "length": 8, + "name": "GTACP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Generator.Total.Apparent.Power" : { + "generic_name": "Generator.Total.Apparent.Power", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The total apparent power delivered by the generator.", + "unit": "VA", + "is_big_endian": false, + "is_signed": false + }, + "Generator.Total.Real.Power" : { + "generic_name": "Generator.Total.Real.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "Total real power delivered by the generator.", + "unit": "W", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65018": { + "comment": "Generator Total AC Energy", + "length": 8, + "name": "GTACE", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Generator.Total.KWHours.Import" : { + "generic_name": "Generator.Total.KWHours.Import", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "The total kilowatt-hours that have been imported by the generator.", + "unit": "kWh", + "is_big_endian": false, + "is_signed": false + }, + "Generator.Total.KWHours.Export" : { + "generic_name": "Generator.Total.KWHours.Export", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4211081215, + "comment": "The total kilowatt-hours that have been exported by the generator.", + "unit": "kWh", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65019": { + "comment": "Generator Phase C AC Reactive Power", + "length": 8, + "name": "GPCACR", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Gnrator.Phase.CPower.Factor.Lagging" : { + "generic_name": "Gnrator.Phase.CPower.Factor.Lagging", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lead/lag status for generator phase C power factor.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Leading": [0], + "Lagging": [1], + "Error": [2], + "NotAvailable_NotInstalled": [3] + } + }, + "Generator.Phase.CPower.Factor" : { + "generic_name": "Generator.Phase.CPower.Factor", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": -1, + "min_value": -1, + "max_value": 2.92181, + "comment": "The power factor of phases C of the generator.", + "is_big_endian": false, + "is_signed": false + }, + "Generator.Phase.CReactive.Power" : { + "generic_name": "Generator.Phase.CReactive.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The reactive power delivered by phase C of the generator", + "unit": "VAr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65020": { + "comment": "Generator Phase C AC Power", + "length": 8, + "name": "GPCACP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Generator.Phase.CApparent.Power" : { + "generic_name": "Generator.Phase.CApparent.Power", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The apparent power delivered by phase C of the generator.", + "unit": "VA", + "is_big_endian": false, + "is_signed": false + }, + "Generator.Phase.CReal.Power" : { + "generic_name": "Generator.Phase.CReal.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The real power delivered by phase C of the generator.", + "unit": "W", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65021": { + "comment": "Generator Phase C Basic AC Quantities", + "length": 8, + "name": "GPCAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Generator.Phase.CACRMSCurrent" : { + "generic_name": "Generator.Phase.CACRMSCurrent", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "RMS current measured at the generator phase C output.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Generator.Phase.CACFrequency" : { + "generic_name": "Generator.Phase.CACFrequency", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 501.9921875, + "comment": "AC frequency measured at the generator phase C output.", + "unit": "Hz", + "is_big_endian": false, + "is_signed": false + }, + "Gnrtr.Phs.CLne.Neutral.ACRMSVoltage" : { + "generic_name": "Gnrtr.Phs.CLne.Neutral.ACRMSVoltage", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Neutral RMS voltage measured at the generator phase C output.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Gnrtr.Phse.CALine.Line.ACRMSVoltage" : { + "generic_name": "Gnrtr.Phse.CALine.Line.ACRMSVoltage", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Line RMS voltage measured at the generator phase CA output.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65022": { + "comment": "Generator Phase B AC Reactive Power", + "length": 8, + "name": "GPBACRP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Gnrator.Phase.BPower.Factor.Lagging" : { + "generic_name": "Gnrator.Phase.BPower.Factor.Lagging", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lead/lag status for generator phase B power factor.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Leading": [0], + "Lagging": [1], + "Error": [2], + "NotAvailable_NotInstalled": [3] + } + }, + "Generator.Phase.BPower.Factor" : { + "generic_name": "Generator.Phase.BPower.Factor", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": -1, + "min_value": -1, + "max_value": 2.92181, + "comment": "The power factor of phases B of the generator.", + "is_big_endian": false, + "is_signed": false + }, + "Generator.Phase.BReactive.Power" : { + "generic_name": "Generator.Phase.BReactive.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The reactive power delivered by phase B of the generator", + "unit": "VAr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65023": { + "comment": "Generator Phase B AC Power", + "length": 8, + "name": "GPBACP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Generator.Phase.BApparent.Power" : { + "generic_name": "Generator.Phase.BApparent.Power", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The apparent power delivered by phase B of the generator.", + "unit": "VA", + "is_big_endian": false, + "is_signed": false + }, + "Generator.Phase.BReal.Power" : { + "generic_name": "Generator.Phase.BReal.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The real power delivered by phase B of the generator.", + "unit": "W", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65024": { + "comment": "Generator Phase B Basic AC Quantities", + "length": 8, + "name": "GPBAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Generator.Phase.BACRMSCurrent" : { + "generic_name": "Generator.Phase.BACRMSCurrent", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "RMS current measured at the generator phase B output.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Generator.Phase.BACFrequency" : { + "generic_name": "Generator.Phase.BACFrequency", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 501.9921875, + "comment": "AC frequency measured at the generator phase B output.", + "unit": "Hz", + "is_big_endian": false, + "is_signed": false + }, + "Gnrtr.Phs.BLne.Neutral.ACRMSVoltage" : { + "generic_name": "Gnrtr.Phs.BLne.Neutral.ACRMSVoltage", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Neutral RMS voltage measured at the generator phase B output.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Gnrtr.Phse.BCLine.Line.ACRMSVoltage" : { + "generic_name": "Gnrtr.Phse.BCLine.Line.ACRMSVoltage", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Line RMS voltage measured at the generator phase BC output.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65025": { + "comment": "Generator Phase A AC Reactive Power", + "length": 8, + "name": "GPAACR", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Gnrator.Phase.APower.Factor.Lagging" : { + "generic_name": "Gnrator.Phase.APower.Factor.Lagging", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Lead/lag status for generator phase A power factor.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Leading": [0], + "Lagging": [1], + "Error": [2], + "NotAvailable_NotInstalled": [3] + } + }, + "Generator.Phase.APower.Factor" : { + "generic_name": "Generator.Phase.APower.Factor", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": -1, + "min_value": -1, + "max_value": 2.92181, + "comment": "The power factor of phase A of the generator.", + "is_big_endian": false, + "is_signed": false + }, + "Generator.Phase.AReactive.Power" : { + "generic_name": "Generator.Phase.AReactive.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The reactive power delivered by phase A of the generator", + "unit": "VAr", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65026": { + "comment": "Generator Phase A AC Power", + "length": 8, + "name": "GPAACP", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Generator.Phase.AApparent.Power" : { + "generic_name": "Generator.Phase.AApparent.Power", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The apparent power delivered by phase A of the generator.", + "unit": "VA", + "is_big_endian": false, + "is_signed": false + }, + "Generator.Phase.AReal.Power" : { + "generic_name": "Generator.Phase.AReal.Power", + "bit_position": -1, + "bit_size": 32, + "factor": 1, + "offset": -2000000000, + "min_value": -2000000000, + "max_value": 2211081215, + "comment": "The real power delivered by phase A of the generator.", + "unit": "W", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65027": { + "comment": "Generator Phase A Basic AC Quantities", + "length": 8, + "name": "GPAAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Generator.Phase.AACRMSCurrent" : { + "generic_name": "Generator.Phase.AACRMSCurrent", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "RMS current measured at the generator phase A output.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Generator.Phase.AACFrequency" : { + "generic_name": "Generator.Phase.AACFrequency", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 501.9921875, + "comment": "AC frequency measured at the generator phase A output.", + "unit": "Hz", + "is_big_endian": false, + "is_signed": false + }, + "Gnrtr.Phs.ALne.Neutral.ACRMSVoltage" : { + "generic_name": "Gnrtr.Phs.ALne.Neutral.ACRMSVoltage", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Neutral RMS voltage measured at the generator phase A output.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Gnrtr.Phse.ABLine.Line.ACRMSVoltage" : { + "generic_name": "Gnrtr.Phse.ABLine.Line.ACRMSVoltage", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Line RMS voltage measured at the generator phase AB output.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65030": { + "comment": "Generator Average Basic AC Quantities", + "length": 8, + "name": "GAAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Generator.Average.ACRMSCurrent" : { + "generic_name": "Generator.Average.ACRMSCurrent", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Average RMS current measured at the generator output.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Generator.Average.ACFrequency" : { + "generic_name": "Generator.Average.ACFrequency", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 501.9921875, + "comment": "Average AC frequency measured at the generator output.", + "unit": "Hz", + "is_big_endian": false, + "is_signed": false + }, + "Gnrtr.Avrg.Lne.Neutral.ACRMSVoltage" : { + "generic_name": "Gnrtr.Avrg.Lne.Neutral.ACRMSVoltage", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The average Line to Neutral AC RMS voltage measured at the Generator output.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Gnrtr.Avrage.Line.Line.ACRMSVoltage" : { + "generic_name": "Gnrtr.Avrage.Line.Line.ACRMSVoltage", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Average Line to Line RMS voltage measured at the generator output.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64999": { + "comment": "Bus #1/Utility Sync Check Status", + "length": 8, + "name": "BUSC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Bus1_.Utility.ACPhase.Difference" : { + "generic_name": "Bus1_.Utility.ACPhase.Difference", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The phase difference between the Bus #1 voltage and Utility voltage.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Bus1_.Utility.In.Sync" : { + "generic_name": "Bus1_.Utility.In.Sync", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicator of whether Bus #1 and Utility are properly synchronized for paralleling. This indicator will be based on parameters such as Voltage Match, Frequency Match, and Phase Match.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSynchronized": [0], + "Sycnchronized": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Bus1_.Utility.Voltage.Match" : { + "generic_name": "Bus1_.Utility.Voltage.Match", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicator of whether voltage difference between Bus #1 and Utility is adequate for paralleling. This indicator will be based on the measured AC voltages qualified using parameters such as Voltage Tolerance.", + "is_big_endian": false, + "is_signed": false, + "states": { + "VolatagesDoNotMatch": [0], + "VoltagesMatch": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Bus1_.Utility.Frequency.Match" : { + "generic_name": "Bus1_.Utility.Frequency.Match", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicator of whether frequency difference between Bus #1 and Utility is adequate for paralleling. This indicator will be based on the measured AC frequencies qualified using parameters such as Frequency Tolerance, Phase Tolerance, and Dwell Time.", + "is_big_endian": false, + "is_signed": false, + "states": { + "FrequenciesDoNotMatch": [0], + "FrequenciesMatch": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Bus1_.Utility.Phase.Match" : { + "generic_name": "Bus1_.Utility.Phase.Match", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicator of whether phase difference between Bus #1 and Utility is adequate for paralleling. This indicator will be based on the measured AC phase difference qualified using parameters such as Phase Tolerance and Dwell Time.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PhasesDoNotMatch": [0], + "PhasesMatch": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Bus1_.Utility.Dead.Bus" : { + "generic_name": "Bus1_.Utility.Dead.Bus", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicator of whether Bus #1 is considered dead for closing to the utility. This indicator will be based on parameters such as Bus #1 Voltage and dead bus threshold values.", + "is_big_endian": false, + "is_signed": false, + "states": { + "BusIsNotDead": [0], + "BusIsDead": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "65001": { + "comment": "Bus #1 Phase C Basic AC Quantities", + "length": 8, + "name": "BPCAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Bus1.Phase.CACFrequency" : { + "generic_name": "Bus1.Phase.CACFrequency", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 501.9921875, + "comment": "AC frequency measured at bus #1 phase C.", + "unit": "Hz", + "is_big_endian": false, + "is_signed": false + }, + "Bs1.Phse.CLine.Neutral.ACRMSVoltage" : { + "generic_name": "Bs1.Phse.CLine.Neutral.ACRMSVoltage", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Neutral RMS voltage measured at bus #1 phase C.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Bus1.Phase.CALine.Line.ACRMSVoltage" : { + "generic_name": "Bus1.Phase.CALine.Line.ACRMSVoltage", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Line RMS voltage measured at bus #1 phase CA.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65002": { + "comment": "Bus #1 Phase B Basic AC Quantities", + "length": 8, + "name": "BPBAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Bus1.Phase.BACFrequency" : { + "generic_name": "Bus1.Phase.BACFrequency", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 501.9921875, + "comment": "AC frequency measured at bus #1 phase B.", + "unit": "Hz", + "is_big_endian": false, + "is_signed": false + }, + "Bs1.Phse.BLine.Neutral.ACRMSVoltage" : { + "generic_name": "Bs1.Phse.BLine.Neutral.ACRMSVoltage", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Neutral RMS voltage measured at bus #1 phase B.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Bus1.Phase.BCLine.Line.ACRMSVoltage" : { + "generic_name": "Bus1.Phase.BCLine.Line.ACRMSVoltage", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Line RMS voltage measured at bus #1 phase BC.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65003": { + "comment": "Bus #1 Phase A Basic AC Quantities", + "length": 8, + "name": "BPAAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Bus1.Phase.AACFrequency" : { + "generic_name": "Bus1.Phase.AACFrequency", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 501.9921875, + "comment": "AC frequency measured at bus #1 phase A.", + "unit": "Hz", + "is_big_endian": false, + "is_signed": false + }, + "Bs1.Phse.ALine.Neutral.ACRMSVoltage" : { + "generic_name": "Bs1.Phse.ALine.Neutral.ACRMSVoltage", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Neutral RMS voltage measured at bus #1 phase A.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Bus1.Phase.ABLine.Line.ACRMSVoltage" : { + "generic_name": "Bus1.Phase.ABLine.Line.ACRMSVoltage", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Line to Line RMS voltage measured at bus #1 phase AB.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65000": { + "comment": "Bus #1/Generator Sync Check Status", + "length": 8, + "name": "BGSC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Bus1_.Generator.ACPhase.Difference" : { + "generic_name": "Bus1_.Generator.ACPhase.Difference", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": -200, + "min_value": -200, + "max_value": 301.99, + "comment": "The phase difference between the Bus #1 voltage and Generator voltage.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Bus1_.Generator.In.Sync" : { + "generic_name": "Bus1_.Generator.In.Sync", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicator of whether Bus #1 and Generator are properly synchronized for paralleling. This indicator will be based on parameters such as Voltage Match, Frequency Match, and Phase Match.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotSynchronized": [0], + "Sycnchronized": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Bus1_.Generator.Voltage.Match" : { + "generic_name": "Bus1_.Generator.Voltage.Match", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicator of whether voltage difference between Bus #1 and Generator is adequate for paralleling. This indicator will be based on the measured AC voltages qualified using parameters such as Voltage Tolerance.", + "is_big_endian": false, + "is_signed": false, + "states": { + "VolatagesDoNotMatch": [0], + "VoltagesMatch": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Bus1_.Generator.Frequency.Match" : { + "generic_name": "Bus1_.Generator.Frequency.Match", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicator of whether frequency difference between Bus #1 and Generator is adequate for paralleling. This indicator will be based on the measured AC frequencies qualified using parameters such as Frequency Tolerance, Phase Tolerance, and Dwell Time.", + "is_big_endian": false, + "is_signed": false, + "states": { + "FrequenciesDoNotMatch": [0], + "FrequenciesMatch": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Bus1_.Generator.Phase.Match" : { + "generic_name": "Bus1_.Generator.Phase.Match", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicator of whether phase difference between Bus #1 and Generator is adequate for paralleling. This indicator will be based on the measured AC phase difference qualified using parameters such as Phase Tolerance and Dwell Time.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PhasesDoNotMatch": [0], + "PhasesMatch": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Bus1_.Generator.Dead.Bus" : { + "generic_name": "Bus1_.Generator.Dead.Bus", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicator of whether Bus #1 is considered dead for closing to the generator. This indicator will be based on parameters such as Bus #1 Voltage and dead bus threshold values.", + "is_big_endian": false, + "is_signed": false, + "states": { + "BusIsNotDead": [0], + "BusIsDead": [1], + "Error": [2], + "NotAvailable": [3] + } + } + } + }, + "65004": { + "comment": "Bus #1 Average Basic AC Quantities", + "length": 8, + "name": "BAAC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Bus1.Average.ACFrequency" : { + "generic_name": "Bus1.Average.ACFrequency", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 501.9921875, + "comment": "Average AC frequency measured at bus #1.", + "unit": "Hz", + "is_big_endian": false, + "is_signed": false + }, + "Bs1.Avrge.Line.Neutral.ACRMSVoltage" : { + "generic_name": "Bs1.Avrge.Line.Neutral.ACRMSVoltage", + "bit_position": 15, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "The average Line to Neutral AC RMS voltage measured at bus #1 .", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Bus1.Average.Line.Line.ACRMSVoltage" : { + "generic_name": "Bus1.Average.Line.Line.ACRMSVoltage", + "bit_position": -1, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Average Line to Line RMS voltage measured at bus #1 .", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65037": { + "comment": "Working Set Master", + "length": 8, + "name": "WSMSTR", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Number.Of.Members" : { + "generic_name": "Number.Of.Members", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "None", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65240": { + "comment": "Commanded Address", + "length": 9, + "name": "CA", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Address.Assignment" : { + "generic_name": "Address.Assignment", + "bit_position": 63, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "The source address that is to be assigned to the CA that has the NAME corresponding to the one conveyed in the first eight bytes of this Commanded Address message.", + "is_big_endian": false, + "is_signed": false + }, + "Arbitrary.Address.Capable" : { + "generic_name": "Arbitrary.Address.Capable", + "bit_position": 62, + "bit_size": 1, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 1, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Industry.Group" : { + "generic_name": "Industry.Group", + "bit_position": 59, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "0 = Global;1 = On-Highway;2 = Agricultural and Forestry;3 = Construction;4 = Marine;5 = Industrial - ProcessControl - Stationary (Gen-Sets)6 = Reserve for SAE7 = Reserve for SAE", + "multiplex": "Multiplexor", + "is_big_endian": false, + "is_signed": false, + "states": { + "Global": [0], + "On-Highway": [1], + "Agricultural and Forestry": [2], + "Construction": [3], + "Marine": [4], + "IndustrialProcessCtrlStationary": [5], + "Reserved for SAE": [6, 7] + } + }, + "Vehicle.System.Instance" : { + "generic_name": "Vehicle.System.Instance", + "bit_position": 55, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Function" : { + "generic_name": "Function", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "Engine": [0], + "Auxiliary Power Unit (APU)": [1], + "Electric Propulsion Control": [2], + "Transmission": [3], + "Battery Pack Monitor": [4], + "Shift Control/Console": [5], + "Power TakeOff - (Main or Rear)": [6], + "Axle - Steering": [7], + "Axle - Drive": [8], + "Brakes - System Controller": [9], + "Brakes - Steer Axle": [10], + "Brakes - Drive Axle": [11], + "Retarder - Engine": [12], + "Retarder - Driveline": [13], + "Cruise Control": [14], + "Fuel System": [15], + "Steering Controller": [16], + "Suspension - Steer Axle": [17], + "Suspension - Drive Axle": [18], + "Instrument Cluster": [19], + "Trip Recorder": [20], + "Cab Climate Control": [21], + "Aerodynamic Control": [22], + "Vehicle Navigation": [23], + "Vehicle Security": [24], + "Network Interconnect ECU": [25], + "Body Controller": [26], + "Power TakeOff (Secondary or Front)": [27], + "Off Vehicle Gateway": [28], + "Virtual Terminal (In Cab)": [29], + "Management Computer": [30], + "Propulsion Battery Charger": [31], + "Headway Controller": [32], + "System Monitor": [33], + "Hydraulic Pump Controller": [34], + "Suspension - System Controller": [35], + "Pneumatic - System Controller": [36], + "Cab Controller": [37], + "Tire Pressure Control": [38], + "Ignition Control Module": [39], + "Seat Control": [40], + "Lighting - Operator Controls": [41], + "Water Pump Control": [42], + "Transmission Display": [43], + "Exhaust Emission Control": [44], + "Vehicle Dynamic Stability Control": [45], + "Oil Sensor Unit": [46], + "Information System Controller": [47], + "Ramp Control": [48], + "Clutch/Converter Control": [49], + "Auxiliary Heater": [50], + "Forward-Looking Collision Warning System": [51], + "Chassis Controller": [52], + "Alternator/Charging System": [53], + "Communications Unit, Cellular": [54], + "Communications Unit, Satellite": [55], + "Communications Unit, Radio": [56], + "Steering Column Unit": [57], + "Fan Drive Control": [58], + "Starter": [59], + "Cab Display": [60], + "File Server/Printer": [61], + "On-Board Diagnostic Unit": [62], + "Engine Valve Controller": [63], + "Endurance Braking": [64], + "Gas Flow Measurement": [65], + "I/O Controller": [66], + "Electrical System Controller": [67], + "Aftertreatment system gas measurement": [68], + "Engine Emission Aftertreatement System": [69], + "Auxiliary Regeneration Device": [70], + "Transfer Case Control": [71], + "Coolant Valve Controller": [72], + "Reserved": [73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127] + } + }, + "Vehicle.System" : { + "generic_name": "Vehicle.System", + "bit_position": 48, + "bit_size": 7, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 127, + "comment": "None", + "multiplex": "0", + "is_big_endian": false, + "is_signed": false, + "states": { + "Non-specific System": [0], + "Not Available": [127] + } + }, + "Function.Instance" : { + "generic_name": "Function.Instance", + "bit_position": 34, + "bit_size": 5, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 31, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "E.CUInstance" : { + "generic_name": "E.CUInstance", + "bit_position": 31, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Manufacturer.Code" : { + "generic_name": "Manufacturer.Code", + "bit_position": 20, + "bit_size": 11, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 2047, + "comment": "Assigned by NMEA 2000 Committee", + "is_big_endian": false, + "is_signed": false, + "states": { + "Reserved": [0], + "Allied Signal Inc.": [1], + "Allison Transmission, GMC": [2], + "Ametek, US Gauge Division": [3], + "Ametek-Dixson": [4], + "AMP Inc.": [5], + "Berifors Electronics AB": [6], + "Case Corp.": [7], + "Caterpillar Inc.": [8], + "Chrysler Corp.": [9], + "Cummins Engine Co.": [10], + "Dearborn Group Inc.": [11], + "Deere & Company, Precision Farming": [12], + "Delco Electronics": [13], + "Detroit Diesel Corporation": [14], + "Dickey-John Corp.": [15], + "Eaton Corp.": [16], + "Eaton Corp. Res & Dev": [17], + "Eaton Corp, Transmission Division": [18], + "Eaton Corp. Trucking Info Services": [19], + "Eaton Ltd": [20], + "Echilin Inc., Midland Brake Inc.": [21], + "Ford Motor Co., Electronic Concepts $ Systems": [22], + "Ford Motor Co., Heavy Truck": [23], + "Ford Motor Co., Vehicle Controls": [24], + "Daimler Trucks North America LLC": [25], + "General Motors Corp., Service Technology Group": [26], + "GMC": [27], + "Grote Ind. Inc.": [28], + "Hino Motors Ltd.": [29], + "Isuzu Motors Ltd.": [30], + "J Pollak Corp.": [31], + "Jacobs Vehicle Systems": [32], + "John Deere": [33], + "Kelsey Hayes Co.": [34], + "Kenworth Truck Co.": [35], + "Lucas Ltd.": [36], + "Mack Trucks Inc.": [37], + "Micro Processor Systems Inc.": [38], + "Microfirm Inc.": [39], + "Motorola AIEG Inc.": [40], + "Motorola Inc.": [41], + "International Truck and Engine Corp. Engine Electronics": [42], + "International Truck and Engine Corp. Vehicle Electronics": [43], + "Nippondenso Co. Ltd.": [44], + "PACCAR": [45], + "Parasoft Computing Solutions": [46], + "Phillips Semiconductor": [47], + "Pollak Alphabet": [48], + "RE America Inc.": [49], + "Robert Bosch Corp": [50], + "Robert Bosch GmbH": [51], + "Meritor Automotive, Inc.": [52], + "Continental Automotive Systems US, Inc.": [53], + "Meritor Wabco": [54], + "Ryder System Inc.": [55], + "SAIC": [56], + "Sauer-Danfoss Co.": [57], + "SPX Corporation, OTC Division": [58], + "VES Inc.": [59], + "Volvo Trucks North America Inc.": [60], + "Volvo Truck Corp.": [61], + "Wabco": [62], + "ZF Industries Inc.": [63], + "unused": [64, 76], + "MAN Nutzfahrzeuge AG": [65], + "John Deere Construction Equipment Division": [66], + "Funk Manufacturing Company": [67], + "Scania": [68], + "Trimble Navigation": [69], + "Flex-Coil Limited": [70], + "Vansco Electronics Ltd.": [71], + "Sisu Corporation": [72], + "LeTourneau, Inc.": [73], + "Eaton Axle-Brake Division": [74], + "Deere & Co. Agricultural Division": [75], + "Deere Power Systems Group": [77], + "Frank W. Murphy Manufacturing, Inc.": [78], + "Daimler Benz AG - Engine Division (PBM)": [79], + "Twin Disc, Inc.": [80], + "Fire Research Corp": [81], + "Bobcat/Ingersoll-Rand": [82], + "Eaton VORAD Technologies": [83], + "New Holland UK Limited": [84], + "Kohler Co.": [85], + "C.E. Niehoff & Company": [86], + "J.C. Bamford Excavators Ltd (JCB)": [87], + "Satloc Precision GPS": [88], + "Kverneland Group, Electronics Division": [89], + "Knorr-Bremse SfN GmbH": [90], + "BSG Bodensee Steuergeraete GmbH": [91], + "Ag-Chem Equipment Co., Inc.": [92], + "Perkins Engines Company Ltd.": [93], + "CNH Global N.V.": [94], + "Pacific Insight Electronics Corp.": [95], + "Mech@tronic IT GmbH": [96], + "Ag Leader Technology, Inc.": [97], + "Mueller-Elektronik GmbH & Co.": [98], + "International Transmissions Ltd (ITL)": [99], + "VDO Technik AG": [100], + "Sensoria": [101], + "AGCO GmbH & Co.": [102], + "Agrocom GmbH & Co. Agrarsystem KG": [103], + "Claas Selbstfahrende Erntemaschinen GmbH": [104], + "Kiepe Elektrik GmbH & Co. KG": [105], + "BAE Systems Controls, Inc.": [106], + "Grimme Landmaschinen GmbH & Co. KG": [107], + "WTK-Elecktronik GmbH": [108], + "TeeJet Technologies Denmark": [109, 179], + "EPIQ Sensor-Nite": [110], + "Maschinenfabrik Bernhard Krone GmbH": [111], + "MECALAC": [112], + "Stress-Tek, Inc.": [113], + "EControls, Inc.": [114], + "NACCO Materials Handling Group, Inc.": [115], + "BEELINE Technologies": [116], + "HUSCO International": [117], + "Intron GmbH": [118], + "IntegriNautics": [119], + "RDS Technology Ltd.": [120], + "HED (Hydro Electronic Devices, Inc.)": [121], + "FG Wilson (Engineering) Limited": [122], + "Basler Electric": [123], + "Hydac Electronic": [124], + "Nevada Automotive Test Center": [125], + "Driver Tech": [126], + "Holland USA": [127], + "Gerhard Duecker GmbH & Co. KG": [128], + "OMNEX Control Systems, Inc.": [129], + "Nido - Universal Machines B.V.": [130], + "ITT Industries": [131], + "Mulag-Fahrzeugwerk": [132], + "Bucher Schoerling GmbH": [133], + "Iris Technology Ltd.": [134], + "Airmar Technology Corporation": [135], + "Komatsu Ltd.": [136], + "Maretron": [137], + "Georg Fritzmeier GmbH & Co. KG": [138], + "Caterpillar Trimble Control Technologies (CTCT), LLC": [139], + "Lowrance Electronics, Inc.": [140], + "Thales Navigation Ltd.": [141], + "TRW Automotive (Commercial Steering Systems)": [142], + "W. Gmeiner GmbH & Co.": [143], + "Mercury Marine": [144], + "MurCal Controls": [145], + "Maxima Technologies": [146], + "Nautibus Electronic GmbH": [147], + "Blue Water Data, Inc.": [148], + "Holset": [149], + "Fleetguard": [150], + "Raven Industries Inc. - Flow Controls Division": [151], + "Elobau Elektrobauelemente GmbH & Co. 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KG": [152], + "Woodward, Industrial Controls Division": [153], + "Westerbeke Corporation": [154], + "Vetronix Corporation": [155], + "ITT Industries - Cannon": [156], + "ISSPRO Inc.": [157], + "Firestone Industrial Products Company": [158], + "NTech Industries Inc.": [159], + "Nido": [160], + "Offshore Systems (UK) Limited": [161], + "Axiomatic Technologies": [162], + "BRP Inc.": [163], + "DaimlerChrysler Off-Highway": [164], + "CPAC Systems AB": [165], + "Phoenix International": [166], + "JLG Industries Inc.": [167], + "Xantrex": [168], + "Marlin Technologies Inc.": [169], + "Computronics Corporation Ltd.": [170], + "Wachendorff Elektronik GmbH & Co. KG": [171], + "Yanmar Marine USA": [172], + "Ryeso, Inc.": [173], + "AB Volvo Penta": [174], + "Veris Technologies, Inc.": [175], + "Moritz Aerospace": [176], + "Diagnostic System Associates": [177], + "Siemens VDO Automotive AG": [178], + "Smart Power Systems": [180], + "Coretronics, Inc.": [181], + "Vehicle Systems Engineering B.V.": [182], + "KDS Controls, Inc.": [183], + "EIA Electronics": [184], + "Beede Electrical Instrument Company": [185], + "Altronic, Inc.": [186], + "Air-Weigh": [187], + "EMP Corp.": [188], + "QUALCOMM": [189], + "Hella KGaA Hueck & Co.": [190], + "XATA Corporation": [191], + "Floscan": [192], + "Jeppesen Marine": [193], + "TriMark Corporation": [194], + "General Engine Products": [195], + "LEMKEN GmbH & Co. KG": [196], + "Mechron Power Systems": [197], + "Mystic Valley Communications": [198], + "Actia Corp.": [199], + "MGM Brakes": [200], + "Disenos y Tecnologia S.A.": [201], + "Curtis Instruments, Inc.": [202], + "MILtronik GmbH": [203], + "The Morey Corporation": [204], + "SmarTire Systems Inc": [205], + "port GmbH": [206], + "Otto Engineering": [207], + "Drew Technologies, Inc.": [208], + "Bell Equip. Co. SA (PTY) LTD": [209], + "Iteris, Inc.": [210], + "DNA Group": [211], + "Sure Power Industries, Inc.": [212], + "CNH Belgium N.V.": [213], + "MC elettronica Srl": [214], + "Aetna Engineering/Fireboy-Xintex": [215], + "Paneltronics Inc.": [216], + "RM Michaelides Software & Elektronik GmbH": [217], + "Gits Manufacturing Company": [218], + "Cat OEM Solutions": [219], + "Beede Electrical Instrument Company, Inc.": [220], + "SiE": [221], + "Generac Power Systems, Inc.": [222], + "Vaueo Retarder Co., Ltd.": [223], + "EMMI Network, S.L.": [224], + "SKF": [225], + "Monaco Coach Corporation": [226], + "Lykketronic A/S": [227], + "ZF Marine Electronics": [228], + "Garmin International Inc.": [229], + "Saucon Technologies": [230], + "Topcon Positioning Systems, Inc.": [231], + "TSD Integrated Controls": [232], + "Yacht Monitoring Solutions Inc.": [233], + "Mondial electronic GmbH": [234], + "SailorMade Marine Telemetry - Tetra Technology Ltd.": [235], + "Norac Systems International Inc": [236], + "Agtron Enterprises Inc": [237], + "ZF Friedrichshafen AG": [238], + "May & Scofield Ltd": [239], + "Vanair Mfg": [240], + "Schneider Automation SAS ": [241], + "Kokusandenki Co. Ltd": [242], + "eRide, Inc.": [243], + "Techno-Matic": [244], + "Capstan Ag Systems, Inc.": [245], + "Class 1, Inc": [246], + "ePULSE": [247], + "Cooper Standard Automotive Active Systems Group": [248], + "Schaltbau GmbH": [249], + "Kuhn Group": [250], + "German Agricultural Society": [251], + "Sensor-Technik Wiedemann GmbH": [252], + "Mobile Control Systems": [253], + "GE Sensing": [254], + "MEAS France": [255], + "Tyco Electronics AMP": [256], + "Honda Motor Co., Ltd": [257], + "ARAG": [258], + "Jetter AG": [259], + "Reichhardt GmbH": [260], + "Red Dot Corporation": [261], + "HydraForce, Inc": [262], + "IMMI": [263], + "Autolync": [264], + "MTS Sensor Technologie GmbH": [265], + "International Thermal Research Ltd": [266], + "Red Lion Controls, Inc": [267], + "Accurate Technologies": [268], + "Saft America Inc., Space & Defense Division": [269], + "Tennant": [270], + "Cole Hersee": [271], + "Gross Mechanical Laboratories, Inc": [272], + "Active Research Limited": [273], + "LTW Technology Co., LTD": [274], + "Navico Egersund AS": [275], + "Aqua-Hot Heating Systems": [276], + "LHP Telematics": [277], + "Takata Electronics": [278], + "Geometris LP": [279], + "Leica Geosystems Pty Ltd": [280], + "Precision Governors LLC": [281], + "Medallion Instrumentation Systems": [282], + "CWF Hamilton & Co Ltd": [283], + "Mobile Tech Chile": [284], + "Sea Recovery Corp": [285], + "Coelmo srl": [286], + "NTech Industries, Inc": [287], + "Mitsubishi FUSO Truck & Bus Corp.": [288], + "Watlow": [289], + "Kuebler GmbH": [290], + "Groeneveld Transport Efficiency BV": [291], + "IKUSI - Angel Iglesias S.A.": [292], + "Spyder Controls Corp.": [293], + "Grayhill Inc.": [294], + "BEP Marine": [295], + "micro dynamics GmbH": [296], + "Zonar Systems Inc": [297], + "Holley Performance": [298], + "Rauch Landmaschinen GmbH": [299], + "Systron Donner Automotive": [300], + "Parker Hannifin (UK) Ltd FDE group": [301], + "Nissin Kogyo Co., LTD": [302], + "CTS Corporation": [303], + "EmpirBus AB": [304], + "NovAtel Inc": [305], + "Sleipner Motor AB": [306], + "MAS Technologies": [307], + "Cyntrx": [308], + "Krauss-Maffei Wegmann GmbH & Co. KG": [309], + "TECNORD srl": [310], + "Patrick Power Products": [311], + "Lectronix, Inc.": [312], + "Ilmor Engineering, Inc": [313], + "CSM GmbH": [314], + "Icom Incorporated": [315], + "ITT Flow Control": [316], + "Navtronics Bvba": [317], + "SAT Plan": [318], + "Cadec Global": [319], + "Miedema Landbouwwerktuigenfabriek B.V.": [320], + "Ultra Electronics, Electrics": [321], + "MICHENKA s.r.o.": [322], + "Mobileye Vision Technologies Ltd.": [323], + "Snap-on Diagnostics": [324], + "ASM Automation Sensorik Messtechnik GmbH": [325], + "Akron Brass Company": [326], + "Sonceboz SA": [327], + "Teleflex": [1850], + "Raymarine": [1851], + "Navionics": [1852], + "Japan Radio Co.": [1853], + "Northstar Technologies": [1854], + "Furuno USA": [1855], + "Trimble": [1856], + "Simrad": [1857], + "Litton": [1858], + "Kvasar AB": [1859], + "MMP": [1860], + "Vector CANtech": [1861], + "Sanshin": [1862], + "Thomas G. Faria Co.": [1863] + } + }, + "Identity.Number" : { + "generic_name": "Identity.Number", + "bit_position": -1, + "bit_size": 21, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 2097152, + "comment": "None", + "is_big_endian": false, + "is_signed": false + }, + "Vehicle.System" : { + "generic_name": "Vehicle.System", + "bit_position": 48, + "bit_size": 7, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 127, + "comment": "None", + "multiplex": "0", + "is_big_endian": false, + "is_signed": false, + "states": { + "Non-specific System": [0], + "Not Available": [127] + } + }, + "Vehicle.System5" : { + "generic_name": "Vehicle.System5", + "bit_position": 48, + "bit_size": 7, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 127, + "comment": "None", + "multiplex": "5", + "is_big_endian": false, + "is_signed": false, + "states": { + "Ind. Process Control Stationary": [0], + "Not Available": [127] + } + }, + "Vehicle.System4" : { + "generic_name": "Vehicle.System4", + "bit_position": 48, + "bit_size": 7, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 127, + "comment": "None", + "multiplex": "4", + "is_big_endian": false, + "is_signed": false, + "states": { + "Non-specific System": [0], + "System Tools": [10], + "Safety Systems": [20], + "Gateway": [25], + "Power Mgmt and lighting systems": [30], + "Steering Systems": [40], + "Propulsion Systems": [50], + "Navigation Systems": [60], + "Communications Systems": [70], + "Instrumentation/General Systems": [80], + "Environmental (HVAC) Systems": [90], + "Deck/Cargo/Fishing equip. sys": [100], + "Not Available": [127] + } + }, + "Vehicle.System3" : { + "generic_name": "Vehicle.System3", + "bit_position": 48, + "bit_size": 7, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 127, + "comment": "None", + "multiplex": "3", + "is_big_endian": false, + "is_signed": false, + "states": { + "Non-specific System": [0], + "Skid Steer Loader": [1], + "Articulated Dump Truck": [2], + "Backhoe": [3], + "Crawler": [4], + "Excavator": [5], + "Forklift": [6], + "Four Wheel Drive Loader": [7], + "Grader": [8], + "Not Available": [127] + } + }, + "Vehicle.System2" : { + "generic_name": "Vehicle.System2", + "bit_position": 48, + "bit_size": 7, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 127, + "comment": "None", + "multiplex": "2", + "is_big_endian": false, + "is_signed": false, + "states": { + "Non-specific System": [0], + "Tractor": [1], + "Tillage": [2], + "Secondary Tillage": [3], + "Planters/Seeders": [4], + "Fertilizers": [5], + "Sprayers": [6], + "Harvesters": [7], + "Root Harvesters": [8], + "Forage": [9], + "Irrigation": [10], + "Transport/Trailer": [11], + "Farm Yard Operations": [12], + "Powered Auxiliary Device": [13], + "Special Crops": [14], + "Earth Work": [15], + "Skidder": [16], + "Not Available": [127] + } + }, + "Vehicle.System1" : { + "generic_name": "Vehicle.System1", + "bit_position": 48, + "bit_size": 7, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 127, + "comment": "None", + "multiplex": "1", + "is_big_endian": false, + "is_signed": false, + "states": { + "Non-specific System": [0], + "Tractor": [1], + "Trailer": [2], + "Not Available": [127] + } + } + } + }, + "51966": { + "comment": "Transfer", + "length": 8, + "name": "XFER", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Shrt.Name.Of.Actual.Reporting.Device" : { + "generic_name": "Shrt.Name.Of.Actual.Reporting.Device", + "bit_position": 31, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 0, + "comment": "Short name of reporting device of the requested PGN via the Transfer PGN.", + "unit": "(2^32 - 1)", + "is_big_endian": false, + "is_signed": false + }, + "Length.Of.Data.For.The.Reported.PGN" : { + "generic_name": "Length.Of.Data.For.The.Reported.PGN", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Length of data reported with the associated PGN via the Transfer PGN.", + "is_big_endian": false, + "is_signed": false + }, + "P.GNof.Requsted.Information" : { + "generic_name": "P.GNof.Requsted.Information", + "bit_position": -1, + "bit_size": 24, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 16777215, + "comment": "PGN associated with this transfer message", + "is_big_endian": false, + "is_signed": false + } + } + }, + "60414": { + "comment": "Transport Protocol - Data Transfer", + "length": 8, + "name": "TPDT", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Sequence.Number" : { + "generic_name": "Sequence.Number", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "is_big_endian": false, + "is_signed": false + } + } + }, + "60670": { + "comment": "Transport Protocol - Connection Management", + "length": 8, + "name": "TPCM", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Total.Number.Of.Packets.Eo.MA" : { + "generic_name": "Total.Number.Of.Packets.Eo.MA", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Total number of packets for BAM message.Total number of packets received for RTS/CTS message.Total number of packets for RTS/CTS message.", + "multiplex": "19", + "is_big_endian": false, + "is_signed": false + }, + "Total.Message.Size.Eo.MA" : { + "generic_name": "Total.Message.Size.Eo.MA", + "bit_position": 7, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Total message size (in bytes) for BAM message.Total message size (in bytes) for RTS/CTS message.Total message size (in bytes) for RTS/CTS message.", + "multiplex": "19", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Total.Message.Size.BAM" : { + "generic_name": "Total.Message.Size.BAM", + "bit_position": 7, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Total message size (in bytes) for BAM message.Total message size (in bytes) for RTS/CTS message.Total message size (in bytes) for RTS/CTS message.", + "multiplex": "32", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Total.Number.Of.Packets.BAM" : { + "generic_name": "Total.Number.Of.Packets.BAM", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Total number of packets for BAM message.Total number of packets received for RTS/CTS message.Total number of packets for RTS/CTS message.", + "multiplex": "32", + "is_big_endian": false, + "is_signed": false + }, + "Connection.Abort.Reason" : { + "generic_name": "Connection.Abort.Reason", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Reason for connection abort message.", + "multiplex": "255", + "is_big_endian": false, + "is_signed": false + }, + "Next.Packet.Number.To.Be.Sent" : { + "generic_name": "Next.Packet.Number.To.Be.Sent", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Next Packet Number to be sent (TP.CM_CTS)", + "multiplex": "17", + "is_big_endian": false, + "is_signed": false + }, + "Number.Of.Packets.That.Can.Be.Sent" : { + "generic_name": "Number.Of.Packets.That.Can.Be.Sent", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Number of Packets that can be sent (TP.CM_CTS)", + "multiplex": "17", + "is_big_endian": false, + "is_signed": false + }, + "P.GNumber" : { + "generic_name": "P.GNumber", + "bit_position": 39, + "bit_size": 24, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 16777200, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotAvailable": [255] + } + }, + "Maximum.Number.Of.Packets" : { + "generic_name": "Maximum.Number.Of.Packets", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Maximum number of packets for RTS/CTS message.", + "multiplex": "16", + "is_big_endian": false, + "is_signed": false + }, + "Total.Number.Of.Packets" : { + "generic_name": "Total.Number.Of.Packets", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Total number of packets for BAM message.Total number of packets received for RTS/CTS message.Total number of packets for RTS/CTS message.", + "multiplex": "16", + "is_big_endian": false, + "is_signed": false + }, + "Total.Message.Size" : { + "generic_name": "Total.Message.Size", + "bit_position": 7, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Total message size (in bytes) for BAM message.Total message size (in bytes) for RTS/CTS message.Total message size (in bytes) for RTS/CTS message.", + "multiplex": "16", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Control.Byte" : { + "generic_name": "Control.Byte", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "multiplex": "Multiplexor", + "is_big_endian": false, + "is_signed": false, + "states": { + "RTS": [16], + "CTS": [17], + "EoMA": [19], + "ERTS": [20], + "ECTS": [21], + "EDPO": [22], + "EEoMACK": [23], + "EAbort": [24], + "BAM": [32], + "Abort": [255] + } + } + } + }, + "51710": { + "comment": "Request 2", + "length": 8, + "name": "RQST2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Use.Transfer.Mode" : { + "generic_name": "Use.Transfer.Mode", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Requester is to respond via the Transfer PGN", + "is_big_endian": false, + "is_signed": false, + "states": { + "No": [0], + "Yes": [1], + "Undefined": [2], + "NA": [3] + } + }, + "Parameter.Group.Number" : { + "generic_name": "Parameter.Group.Number", + "bit_position": -1, + "bit_size": 24, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 16777215, + "comment": "PGN which is requested by Request2 message", + "is_big_endian": false, + "is_signed": false + } + } + }, + "60158": { + "comment": "Request", + "length": 3, + "name": "RQST", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Parameter.Group.Number" : { + "generic_name": "Parameter.Group.Number", + "bit_position": -1, + "bit_size": 24, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 16777215, + "comment": "PGN which is requested by Request2 message", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64874": { + "comment": "Axle Group Weight", + "length": 8, + "name": "AGW", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Axle.Group.Weight" : { + "generic_name": "Axle.Group.Weight", + "bit_position": 7, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "Total mass imposed on the road surface by all the tires in the axle group", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Axle.Group.Location" : { + "generic_name": "Axle.Group.Location", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Specific axle group used in conjunction with and when communicating the axle group weight, listed from the front of the", + "is_big_endian": false, + "is_signed": false, + "states": { + "Reserved": [0], + "SteerAxleGroup": [1], + "TrailerEAxleGroup": [2], + "TrailerFAxleGroup": [3] + } + } + } + }, + "64873": { + "comment": "Axle Group Calibration Weights", + "length": 8, + "name": "AGCW", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Axle.Group.Location" : { + "generic_name": "Axle.Group.Location", + "bit_position": 3, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Specific axle group used in conjunction with and when communicating the axle group calibration, listed from the front of", + "is_big_endian": false, + "is_signed": false, + "states": { + "Reserved": [0], + "SteerAxleGroup": [1], + "TrailerEAxleGroup": [2], + "TrailerFAxleGroup": [3] + } + }, + "Axle.Group.Full.Weight.Calib" : { + "generic_name": "Axle.Group.Full.Weight.Calib", + "bit_position": 23, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "The full weight calibration measurement of an axle group", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + }, + "Axle.Group.Empty.Weight.Calib" : { + "generic_name": "Axle.Group.Empty.Weight.Calib", + "bit_position": 7, + "bit_size": 16, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 128510, + "comment": "The empty weight calibration measurement of an axle group", + "unit": "kg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64849": { + "comment": "Aftercooler Coolant Control Valve Command", + "length": 8, + "name": "ACCVC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Dsrd.Aftrcooler.Coolant.Intake.Temp" : { + "generic_name": "Dsrd.Aftrcooler.Coolant.Intake.Temp", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Indicates the desired temperature of the fluid in the low temperature aftercooler circuit to an electronic thermostat.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Dsrd.Aftrclr.Clnt.Thrmostat.Opening" : { + "generic_name": "Dsrd.Aftrclr.Clnt.Thrmostat.Opening", + "bit_position": 15, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Used to transmit the desired position of the low temperature aftercooler temperature control valve.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aftrcooler.Coolant.Thermostat.Mode" : { + "generic_name": "Aftrcooler.Coolant.Thermostat.Mode", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Specifies if the aftercooler coolant thermostat valve will operate in temperature control mode or position control mode.", + "is_big_endian": false, + "is_signed": false, + "states": { + "TempCtrlMode": [0], + "PosCtrlMode": [1], + "Reserved": [2], + "DontCare_Reserved": [3] + } + } + } + }, + "64875": { + "comment": "Available Axle Group Weights", + "length": 8, + "name": "AAGW", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Addtnl.Trlr.Axl.Grp.Weight.Available" : { + "generic_name": "Addtnl.Trlr.Axl.Grp.Weight.Available", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the additional trailer axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "AddtnlTrilerAxleGroupNotPresent": [0], + "AddtonalTrailerAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + }, + "Triler.HAxle.Group.Weight.Available" : { + "generic_name": "Triler.HAxle.Group.Weight.Available", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the trailer H axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "TrailerHAxleGroupNotPresent": [0], + "TrailerHAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + }, + "Triler.GAxle.Group.Weight.Available" : { + "generic_name": "Triler.GAxle.Group.Weight.Available", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the trailer G axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "TrailerGAxleGroupNotPresent": [0], + "TrailerGAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + }, + "Triler.FAxle.Group.Weight.Available" : { + "generic_name": "Triler.FAxle.Group.Weight.Available", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the trailer F axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "TrailerFAxleGroupNotPresent": [0], + "TrailerFAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + }, + "Triler.EAxle.Group.Weight.Available" : { + "generic_name": "Triler.EAxle.Group.Weight.Available", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the trailer E axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "TrailerEAxleGroupNotPresent": [0], + "TrailerEAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + }, + "Triler.DAxle.Group.Weight.Available" : { + "generic_name": "Triler.DAxle.Group.Weight.Available", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the trailer D axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "TrailerDAxleGroupNotPresent": [0], + "TrailerDAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + }, + "Triler.CAxle.Group.Weight.Available" : { + "generic_name": "Triler.CAxle.Group.Weight.Available", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the trailer C axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "TrailerCAxleGroupNotPresent": [0], + "TrailerCAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + }, + "Triler.BAxle.Group.Weight.Available" : { + "generic_name": "Triler.BAxle.Group.Weight.Available", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the trailer B axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "TrailerBAxleGroupNotPresent": [0], + "TrailerBAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + }, + "Triler.AAxle.Group.Weight.Available" : { + "generic_name": "Triler.AAxle.Group.Weight.Available", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the trailer A axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "TrailerAAxleGroupNotPresent": [0], + "TrailerAAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + }, + "Addtnl.Trctr.Axl.Grp.Wight.Available" : { + "generic_name": "Addtnl.Trctr.Axl.Grp.Wight.Available", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the additional tractor axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "AddtnlTrctorAxleGroupNotPresent": [0], + "AddtonalTractorAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + }, + "Tag.Axle.Group.Weight.Available" : { + "generic_name": "Tag.Axle.Group.Weight.Available", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the tag axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "TagAxleGroupNotPresent": [0], + "TagAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + }, + "Drive.Axle.Group.Weight.Available" : { + "generic_name": "Drive.Axle.Group.Weight.Available", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the drive axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "DriveAxleGroupNotPresent": [0], + "DriveAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + }, + "Lift.Axle.Group.Weight.Available" : { + "generic_name": "Lift.Axle.Group.Weight.Available", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the lift axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "LiftAxleGroupNotPresent": [0], + "LiftAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + }, + "Steer.Axle.Group.Weight.Available" : { + "generic_name": "Steer.Axle.Group.Weight.Available", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates the availability of the steer axle group for purposes of weight measurement", + "is_big_endian": false, + "is_signed": false, + "states": { + "SteerAxleGroupNotPresent": [0], + "SteerAxleGroupPresent": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + } + } + }, + "64852": { + "comment": "Class C, Previously Active", + "length": 22, + "name": "DM52", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64853": { + "comment": "Class C, Confirmed and Active", + "length": 22, + "name": "DM51", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64854": { + "comment": "Class C, Pending", + "length": 22, + "name": "DM50", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64855": { + "comment": "Class B2, Previously Active", + "length": 22, + "name": "DM49", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64856": { + "comment": "Class B2, Confirmed and Active", + "length": 22, + "name": "DM48", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64857": { + "comment": "Class B2, Pending", + "length": 22, + "name": "DM47", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64858": { + "comment": "Class B1, Previously Active", + "length": 22, + "name": "DM46", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64859": { + "comment": "Class B1, Confirmed and Active", + "length": 22, + "name": "DM45", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64860": { + "comment": "Class B1, Pending", + "length": 22, + "name": "DM44", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64861": { + "comment": "Class A, Previously Active", + "length": 22, + "name": "DM43", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64862": { + "comment": "Class A, Confirmed and Active", + "length": 22, + "name": "DM42", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64863": { + "comment": "Class A, Pending", + "length": 22, + "name": "DM41", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "40958": { + "comment": "Immediate Fault Status ", + "length": 22, + "name": "DM35", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64871": { + "comment": "Zero Net Vehicle Weight Change", + "length": 8, + "name": "ZNVW", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Zero.Net.Vehicle.Weight.Change" : { + "generic_name": "Zero.Net.Vehicle.Weight.Change", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Zero Net Vehicle Weight Change command.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NChangeToNetVehicleWeightChange": [0], + "ZeroNetVehicleWeightChange": [1], + "Reserved": [2], + "NotAvailable_NotApplicable": [3] + } + } + } + }, + "64851": { + "comment": "Reports averaged engine information", + "length": 8, + "name": "EAI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Exhaust.Gas.Temp.Average.Bank2" : { + "generic_name": "Eng.Exhaust.Gas.Temp.Average.Bank2", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The calculated average temperature based upon all of the Bank 2 (right bank) engine exhaust port temperatures.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Temp.Average.Bank1" : { + "generic_name": "Eng.Exhaust.Gas.Temp.Average.Bank1", + "bit_position": 15, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The calculated average temperature based upon all of the Bank 1 (left bank) engine exhaust port temperatures.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Exhaust.Gas.Temp.Average" : { + "generic_name": "Eng.Exhaust.Gas.Temp.Average", + "bit_position": -1, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "The calculated average temperature based upon all of the engine exhaust port temperatures.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "40702": { + "comment": "DTC Counts", + "length": 8, + "name": "DM29", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Permanent.DTCs" : { + "generic_name": "Permanent.DTCs", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Identifies the current number of permanent DTCs", + "is_big_endian": false, + "is_signed": false + }, + "Previously.MILOn.DTCs" : { + "generic_name": "Previously.MILOn.DTCs", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Identifies the current number of previously MIL-On DTCs", + "is_big_endian": false, + "is_signed": false + }, + "MILOnDTCs" : { + "generic_name": "MILOnDTCs", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Identifies the current number of MIL-On DTCs", + "is_big_endian": false, + "is_signed": false + }, + "All.Pending.DTCs" : { + "generic_name": "All.Pending.DTCs", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Identifies the current total number of pending DTCs, including emission related", + "is_big_endian": false, + "is_signed": false + }, + "Pending.DTCs" : { + "generic_name": "Pending.DTCs", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Identifies the current number of emission related pending DTCs", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64896": { + "comment": "Permanent DTCs", + "length": 22, + "name": "DM28", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64898": { + "comment": "All Pending DTCs", + "length": 22, + "name": "DM27", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Flash.Red.Stop.Lamp" : { + "generic_name": "Flash.Red.Stop.Lamp", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the RSL (SPN 3039).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Protect.Lamp" : { + "generic_name": "Flash.Protect.Lamp", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the engine protect lamp (SPN 3041).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Malfunc.Indicator.Lamp" : { + "generic_name": "Flash.Malfunc.Indicator.Lamp", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the MIL (SPN 3038).", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Flash.Amber.Warning.Lamp" : { + "generic_name": "Flash.Amber.Warning.Lamp", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter provides the capability to flash the AWL (SPN 3040). ", + "is_big_endian": false, + "is_signed": false, + "states": { + "Slow Flash": [0], + "Fast Flash": [1], + "Reserved": [2], + "Unavailable / Do Not Flash": [3] + } + }, + "Malfunction.Indicator.Lamp.Status" : { + "generic_name": "Malfunction.Indicator.Lamp.Status", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "A lamp used to relay only emissions-related trouble code information.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Amber.Warning.Lamp.Status" : { + "generic_name": "Amber.Warning.Lamp.Status", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code information that is reporting a problem with the vehicle system but the vehicle neednot be immediately stopped.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Red.Stop.Lamp.State" : { + "generic_name": "Red.Stop.Lamp.State", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is uesed to relay trouble code information that is of a severe enought condition that it warrants stopping the vehicle.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "Protect.Lamp.Status" : { + "generic_name": "Protect.Lamp.Status", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This lamp is used to relay trouble code informatio that is reporting a problem with a vehicle system that is mostprobably not electronic subsystem related.", + "is_big_endian": false, + "is_signed": false, + "states": { + "Lamp off": [0], + "Lamp on": [1], + "Reserved": [2], + "Not available": [3] + } + }, + "DTC5" : { + "generic_name": "DTC5", + "bit_position": 143, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC4" : { + "generic_name": "DTC4", + "bit_position": 111, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC3" : { + "generic_name": "DTC3", + "bit_position": 79, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC2" : { + "generic_name": "DTC2", + "bit_position": 47, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + }, + "DTC1" : { + "generic_name": "DTC1", + "bit_position": 15, + "bit_size": 32, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 4294967295, + "comment": "Diagnostic Trouble Code", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64912": { + "comment": "Advertised Engine Torque Curve", + "length": 5, + "name": "AETC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "A.ETCSpeed.Value" : { + "generic_name": "A.ETCSpeed.Value", + "bit_position": 7, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 8031.875, + "comment": "None", + "unit": "rpm", + "is_big_endian": false, + "is_signed": true + }, + "A.ETCTorque.Value" : { + "generic_name": "A.ETCTorque.Value", + "bit_position": 23, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Engine torque value of the data points in PGN 64912 Advertised Engine Torque Curve (AETC).", + "unit": "Nm", + "is_big_endian": false, + "is_signed": false + }, + "Number.Of.AETCData.Points" : { + "generic_name": "Number.Of.AETCData.Points", + "bit_position": 3, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Indicates the number of speed / torque data points contained in the Advertised Engine Torque Curve broadcast (AETC).", + "is_big_endian": false, + "is_signed": false + }, + "A.ETCData.Collection.Standard" : { + "generic_name": "A.ETCData.Collection.Standard", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Indicates the standardized method by which torque data was obtained for the Advertised Engine Torque Curve (AETC).", + "is_big_endian": false, + "is_signed": false, + "states": { + "SAEJ1995": [0], + "1101NotDefined": [1], + "NotAvailable": [15] + } + } + } + }, + "64894": { + "comment": "Adaptive Front-Lighting System Status", + "length": 8, + "name": "AFSS", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Right.Headlamp.Light.Distribution" : { + "generic_name": "Right.Headlamp.Light.Distribution", + "bit_position": 11, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates what kind of light distribution is set by the AFS system for the right headlamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LghtDstrbtnTwnBscLghtDstrbtnFrT": [0], + "LghtDstrbtnCntryCntryLghtIsMstl": [1], + "LghtDstrbtnMtrwyTskOfMtrwyLghtI": [2], + "LghtDstrbtnHghBmHghBmDstrbtnOfT": [3], + "LghtDstrbtnAdvrsWthrAdvrsWthrLg": [4], + "LghtDstrbtnFlSfPsMdlIsDmgdCrrnt": [5], + "LghtDstrbtnFlrMdlIsDmgdCrrntPsM": [6], + "DffrntLghtDstrbtnsNtAvlblNAFSDs": [7], + "1110Reserved": [8], + "NotAvailable": [15] + } + }, + "Left.Headlamp.Light.Distribution" : { + "generic_name": "Left.Headlamp.Light.Distribution", + "bit_position": 7, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "This parameter indicates what kind of light distribution is set by the AFS system for the left headlamp.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LghtDstrbtnTwnBscLghtDstrbtnFrT": [0], + "LghtDstrbtnCntryCntryLghtIsMstl": [1], + "LghtDstrbtnMtrwyTskOfMtrwyLghtI": [2], + "LghtDstrbtnHghBmHghBmDstrbtnOfT": [3], + "LghtDstrbtnAdvrsWthrAdvrsWthrLg": [4], + "LghtDstrbtnFlSfPsMdlIsDmgdCrrnt": [5], + "LghtDstrbtnFlrMdlIsDmgdCrrntPsM": [6], + "DffrntLghtDstrbtnsNtAvlblNAFSDs": [7], + "1110Reserved": [8], + "NotAvailable": [15] + } + }, + "Rght.Headlamp.Dynamic.Bending.Light" : { + "generic_name": "Rght.Headlamp.Dynamic.Bending.Light", + "bit_position": 2, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "This parameter indicates whether the dynamic bending light of the left headlamp is working properly.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DynmcBndngLghtDctvtdThrIsNPrblm": [0], + "DynmcBndngLghtIsWrkngPrprlyNrml": [1], + "DynmcBndngLghtFlSfPsBndngLghtIs": [2], + "DynmcBndngLghtFlrBndngLghtDsNtW": [3], + "110Reserved": [4], + "NotAvailable": [7] + } + }, + "Left.Headlamp.Dynamic.Bending.Light" : { + "generic_name": "Left.Headlamp.Dynamic.Bending.Light", + "bit_position": -1, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "This parameter indicates whether the dynamic bending light of the left headlamp is working properly.", + "is_big_endian": false, + "is_signed": false, + "states": { + "DynmcBndngLghtDctvtdThrIsNPrblm": [0], + "DynmcBndngLghtIsWrkngPrprlyNrml": [1], + "DynmcBndngLghtFlSfPsBndngLghtIs": [2], + "DynmcBndngLghtFlrBndngLghtDsNtW": [3], + "110Reserved": [4], + "NotAvailable": [7] + } + } + } + }, + "65241": { + "comment": "Auxiliary Input/Output Status 1", + "length": 8, + "name": "AUXIO1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "AuxI_O16" : { + "generic_name": "AuxI_O16", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O15" : { + "generic_name": "AuxI_O15", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O14" : { + "generic_name": "AuxI_O14", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O13" : { + "generic_name": "AuxI_O13", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O12" : { + "generic_name": "AuxI_O12", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O11" : { + "generic_name": "AuxI_O11", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O10" : { + "generic_name": "AuxI_O10", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O09" : { + "generic_name": "AuxI_O09", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O08" : { + "generic_name": "AuxI_O08", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O07" : { + "generic_name": "AuxI_O07", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O06" : { + "generic_name": "AuxI_O06", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O05" : { + "generic_name": "AuxI_O05", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O04" : { + "generic_name": "AuxI_O04", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O03" : { + "generic_name": "AuxI_O03", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O02" : { + "generic_name": "AuxI_O02", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "AuxI_O01" : { + "generic_name": "AuxI_O01", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Aux.I_.OChannel2" : { + "generic_name": "Aux.I_.OChannel2", + "bit_position": 47, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Auxiliary channel of data (16 bit) read by the ECU.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + }, + "Aux.I_.OChannel1" : { + "generic_name": "Aux.I_.OChannel1", + "bit_position": 31, + "bit_size": 16, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 64255, + "comment": "Auxiliary channel of data (16 bit) read by the ECU.", + "unit": "counts", + "is_big_endian": false, + "is_signed": false + } + } + }, + "43006": { + "comment": "Auxiliary Input/Output Status 2", + "length": 8, + "name": "AUXIO2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "AuxI_O45" : { + "generic_name": "AuxI_O45", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O46" : { + "generic_name": "AuxI_O46", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O47" : { + "generic_name": "AuxI_O47", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O48" : { + "generic_name": "AuxI_O48", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O41" : { + "generic_name": "AuxI_O41", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O42" : { + "generic_name": "AuxI_O42", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O43" : { + "generic_name": "AuxI_O43", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O44" : { + "generic_name": "AuxI_O44", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O37" : { + "generic_name": "AuxI_O37", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O38" : { + "generic_name": "AuxI_O38", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O39" : { + "generic_name": "AuxI_O39", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O40" : { + "generic_name": "AuxI_O40", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O33" : { + "generic_name": "AuxI_O33", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O34" : { + "generic_name": "AuxI_O34", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O35" : { + "generic_name": "AuxI_O35", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O36" : { + "generic_name": "AuxI_O36", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O29" : { + "generic_name": "AuxI_O29", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O30" : { + "generic_name": "AuxI_O30", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O31" : { + "generic_name": "AuxI_O31", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O32" : { + "generic_name": "AuxI_O32", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O25" : { + "generic_name": "AuxI_O25", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O26" : { + "generic_name": "AuxI_O26", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O27" : { + "generic_name": "AuxI_O27", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O28" : { + "generic_name": "AuxI_O28", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O21" : { + "generic_name": "AuxI_O21", + "bit_position": 13, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O22" : { + "generic_name": "AuxI_O22", + "bit_position": 11, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O23" : { + "generic_name": "AuxI_O23", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O24" : { + "generic_name": "AuxI_O24", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O17" : { + "generic_name": "AuxI_O17", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O18" : { + "generic_name": "AuxI_O18", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O19" : { + "generic_name": "AuxI_O19", + "bit_position": 1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O20" : { + "generic_name": "AuxI_O20", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + } + } + }, + "42750": { + "comment": "Auxiliary Input/Output Status 3", + "length": 8, + "name": "AUXIO3", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "AuxI_O77" : { + "generic_name": "AuxI_O77", + "bit_position": 61, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O78" : { + "generic_name": "AuxI_O78", + "bit_position": 59, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O79" : { + "generic_name": "AuxI_O79", + "bit_position": 57, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O80" : { + "generic_name": "AuxI_O80", + "bit_position": 55, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O73" : { + "generic_name": "AuxI_O73", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O74" : { + "generic_name": "AuxI_O74", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O75" : { + "generic_name": "AuxI_O75", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O76" : { + "generic_name": "AuxI_O76", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O69" : { + "generic_name": "AuxI_O69", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O70" : { + "generic_name": "AuxI_O70", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O71" : { + "generic_name": "AuxI_O71", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] 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"ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O108" : { + "generic_name": "AuxI_O108", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O101" : { + "generic_name": "AuxI_O101", + "bit_position": 45, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O102" : { + "generic_name": "AuxI_O102", + "bit_position": 43, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O103" : { + "generic_name": "AuxI_O103", + "bit_position": 41, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O104" : { + "generic_name": "AuxI_O104", + "bit_position": 39, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O97" : { + "generic_name": "AuxI_O97", + "bit_position": 37, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O98" : { + "generic_name": "AuxI_O98", + "bit_position": 35, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O99" : { + "generic_name": "AuxI_O99", + "bit_position": 33, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O100" : { + "generic_name": "AuxI_O100", + "bit_position": 31, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O93" : { + "generic_name": "AuxI_O93", + "bit_position": 29, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O94" : { + "generic_name": "AuxI_O94", + "bit_position": 27, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O95" : { + "generic_name": "AuxI_O95", + "bit_position": 25, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O96" : { + "generic_name": "AuxI_O96", + "bit_position": 23, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O89" : { + "generic_name": "AuxI_O89", + "bit_position": 21, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O90" : { + "generic_name": "AuxI_O90", + "bit_position": 19, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + }, + "AuxI_O91" : { + "generic_name": "AuxI_O91", + "bit_position": 17, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Identifies the current status of auxiliary input/output functions that are configured uniquely per application.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AuxChannelOff": [0], + "AuxChannelOn": [1], + "ErrrIndctrNotUsedDependingOnApp": [2], + "NtAvlblTkNoActionDependingOnApp": [3] + } + } + } + }, + "64881": { + "comment": "Brake actuator stroke status", + "length": 8, + "name": "BSA", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trailer.Brake.Stroke.Axle5.Right" : { + "generic_name": "Trailer.Brake.Stroke.Axle5.Right", + "bit_position": 56, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for right brake actuator on trailer axle 5.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Trailer.Brake.Stroke.Axle5.Left" : { + "generic_name": "Trailer.Brake.Stroke.Axle5.Left", + "bit_position": 53, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for left brake actuator on trailer axle 5.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Trailer.Brake.Stroke.Axle4.Right" : { + "generic_name": "Trailer.Brake.Stroke.Axle4.Right", + "bit_position": 50, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for right brake actuator on trailer axle 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Trailer.Brake.Stroke.Axle4.Left" : { + "generic_name": "Trailer.Brake.Stroke.Axle4.Left", + "bit_position": 47, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for left brake actuator on trailer axle 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Trailer.Brake.Stroke.Axle3.Right" : { + "generic_name": "Trailer.Brake.Stroke.Axle3.Right", + "bit_position": 44, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for right brake actuator on trailer axle 3.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Trailer.Brake.Stroke.Axle3.Left" : { + "generic_name": "Trailer.Brake.Stroke.Axle3.Left", + "bit_position": 41, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for left brake actuator on trailer axle 3.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Trailer.Brake.Stroke.Axle2.Right" : { + "generic_name": "Trailer.Brake.Stroke.Axle2.Right", + "bit_position": 38, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for right brake actuator on trailer axle 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Trailer.Brake.Stroke.Axle2.Left" : { + "generic_name": "Trailer.Brake.Stroke.Axle2.Left", + "bit_position": 35, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for left brake actuator on trailer axle 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Trailer.Brake.Stroke.Axle1.Right" : { + "generic_name": "Trailer.Brake.Stroke.Axle1.Right", + "bit_position": 32, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for right brake actuator on trailer axle 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Trailer.Brake.Stroke.Axle1.Left" : { + "generic_name": "Trailer.Brake.Stroke.Axle1.Left", + "bit_position": 29, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for left brake actuator on trailerr axle 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Tractor.Brake.Stroke.Axle5.Right" : { + "generic_name": "Tractor.Brake.Stroke.Axle5.Right", + "bit_position": 26, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for right brake actuator on tractor axle 5.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Tractor.Brake.Stroke.Axle5.Left" : { + "generic_name": "Tractor.Brake.Stroke.Axle5.Left", + "bit_position": 23, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for left brake actuator on tractor axle 5.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Tractor.Brake.Stroke.Axle4.Right" : { + "generic_name": "Tractor.Brake.Stroke.Axle4.Right", + "bit_position": 20, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for right brake actuator on tractor axle 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Tractor.Brake.Stroke.Axle4.Left" : { + "generic_name": "Tractor.Brake.Stroke.Axle4.Left", + "bit_position": 17, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for left brake actuator on tractor axle 4.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Tractor.Brake.Stroke.Axle3.Right" : { + "generic_name": "Tractor.Brake.Stroke.Axle3.Right", + "bit_position": 14, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for right brake actuator on tractor axle 3.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Tractor.Brake.Stroke.Axle3.Left" : { + "generic_name": "Tractor.Brake.Stroke.Axle3.Left", + "bit_position": 11, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for left brake actuator on tractor axle 3.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Tractor.Brake.Stroke.Axle2.Right" : { + "generic_name": "Tractor.Brake.Stroke.Axle2.Right", + "bit_position": 8, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for right brake actuator on tractor axle 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Tractor.Brake.Stroke.Axle2.Left" : { + "generic_name": "Tractor.Brake.Stroke.Axle2.Left", + "bit_position": 5, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for left brake actuator on tractor axle 2.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Tractor.Brake.Stroke.Axle1.Right" : { + "generic_name": "Tractor.Brake.Stroke.Axle1.Right", + "bit_position": 2, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for right brake actuator on tractor axle 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + }, + "Tractor.Brake.Stroke.Axle1.Left" : { + "generic_name": "Tractor.Brake.Stroke.Axle1.Left", + "bit_position": -1, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Brake stroke status for left brake actuator on tractor axle 1.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OK": [0], + "Nonfunctioning": [1], + "Overstroke": [2], + "DraggingBrake": [3], + "Reserved": [5], + "SensorError": [6], + "NotAvailable": [7] + } + } + } + }, + "65269": { + "comment": "Ambient Conditions", + "length": 8, + "name": "AMB", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Air.Intake.Temp" : { + "generic_name": "Eng.Air.Intake.Temp", + "bit_position": 39, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of air entering vehicle air induction system.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Road.Surface.Temp" : { + "generic_name": "Road.Surface.Temp", + "bit_position": 47, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Indicated temperature of road surface over which vehicle is operating.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Ambient.Air.Temp" : { + "generic_name": "Ambient.Air.Temp", + "bit_position": 23, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of air surrounding vehicle.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Cab.Interior.Temp" : { + "generic_name": "Cab.Interior.Temp", + "bit_position": 7, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of air inside the part of the vehicle that encloses the driver and vehicle operating controls.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Barometric.Press" : { + "generic_name": "Barometric.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "Absolute air pressure of the atmosphere.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65246": { + "comment": "Air Start Pressure", + "length": 8, + "name": "AIR2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Air.Start.Press" : { + "generic_name": "Eng.Air.Start.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Gage pressure of air in an engine starting system that utilizes compressed air to provide the force required to rotate the", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65198": { + "comment": "Air Supply Pressure", + "length": 8, + "name": "AIR1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Service.Brake.Circuit2.Air.Press" : { + "generic_name": "Service.Brake.Circuit2.Air.Press", + "bit_position": 23, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "The pneumatic pressure in the secondary service brake circuit or reservoir, supplying the front axle.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Service.Brake.Circuit1.Air.Press" : { + "generic_name": "Service.Brake.Circuit1.Air.Press", + "bit_position": 15, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "The pneumatic pressure in the primary service brake circuit or reservoir, supplying the rear axle.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Air.Compressor.Status" : { + "generic_name": "Air.Compressor.Status", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates whether the air compressor is actively compressing air.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompressorNotActive": [0], + "CompressorActive": [1], + "ErrorIndicator": [2], + "NotAvailable": [3] + } + }, + "Air.Suspension.Supply.Press" : { + "generic_name": "Air.Suspension.Supply.Press", + "bit_position": 39, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "The pneumatic pressure in the circuit for the electronically controlled air suspension system.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aux.Equipment.Supply.Press" : { + "generic_name": "Aux.Equipment.Supply.Press", + "bit_position": 31, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "The pneumatic pressure in the auxiliary circuit.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Parking.And_.Or.Trailer.Air.Press" : { + "generic_name": "Parking.And_.Or.Trailer.Air.Press", + "bit_position": 7, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "The pneumatic pressure in the circuit or reservoir for the parking brake and/or the trailer supply.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Pneumatic.Supply.Press" : { + "generic_name": "Pneumatic.Supply.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 8, + "offset": 0, + "min_value": 0, + "max_value": 2000, + "comment": "The pneumatic pressure in the main reservoir, sometimes referred to as the wet tank.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65273": { + "comment": "Axle Information", + "length": 8, + "name": "AI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Steer.Axle.Lube.Press" : { + "generic_name": "Steer.Axle.Lube.Press", + "bit_position": 55, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "The steering axle lubricant pressure.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Steer.Axle.Temp" : { + "generic_name": "Steer.Axle.Temp", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of lubricant in steering axle.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Drive.Axle.Lube.Press" : { + "generic_name": "Drive.Axle.Lube.Press", + "bit_position": 31, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "The drive axle lubricant pressure with location determined by Drive Axle Location (SPN 930).", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Drive.Axle.Temp" : { + "generic_name": "Drive.Axle.Temp", + "bit_position": 23, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature of axle lubricant in drive axle.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Drive.Axle.Lift.Air.Press" : { + "generic_name": "Drive.Axle.Lift.Air.Press", + "bit_position": 15, + "bit_size": 8, + "factor": 4, + "offset": 0, + "min_value": 0, + "max_value": 1000, + "comment": "Gage pressure of air in system that utilizes compressed air to provide force between axle and frame.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Drive.Axle.Location" : { + "generic_name": "Drive.Axle.Location", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "To identify to which of several similar devices (such as tires or fuel tanks) the information applies.", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65194": { + "comment": "Alternate Fuel 2", + "length": 8, + "name": "AF2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Turbo.Wastegate.Valve.Pos" : { + "generic_name": "Eng.Turbo.Wastegate.Valve.Pos", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "The position of the turbocharger wastegate valve (not the electronic wastegate control valve).", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Gs.Mss.Flw.Snsr.Feling.Correction" : { + "generic_name": "Eng.Gs.Mss.Flw.Snsr.Feling.Correction", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "The amount of fuel the Gas Mass Flow Sensor is sensing should be added or subtracted compared to the maximum", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Dsired.Abs.Intake.Manifold.Press" : { + "generic_name": "Eng.Dsired.Abs.Intake.Manifold.Press", + "bit_position": 7, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "The desired absolute intake manifold pressure of the engine.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Gas.Fuel.Correction.Factor" : { + "generic_name": "Eng.Gas.Fuel.Correction.Factor", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "A correction to a predefined gaseous fuel energy (expressed in energy per unit volume) represented as a percentage.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65105": { + "comment": "Adaptive Cruise Control, Operator Input", + "length": 8, + "name": "ACC2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "A.CCUsage.Demand" : { + "generic_name": "A.CCUsage.Demand", + "bit_position": -1, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter indicates the drivers demand to activate or deactivate ACC keeping distance control.", + "is_big_endian": false, + "is_signed": false, + "states": { + "drvrDmndFrNtUsngACCDstncKpngCtr": [0], + "drvrDmndFrUsngACCDstncKpingCtrl": [1], + "reserved": [2], + "dontCare": [3] + } + }, + "Rqed.ACCDistance.Mode" : { + "generic_name": "Rqed.ACCDistance.Mode", + "bit_position": 4, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "The Requested Distance Control Mode to the ACC system from the operators interface.", + "is_big_endian": false, + "is_signed": false, + "states": { + "RqedACCDistanceMode1": [0], + "RqedACCDistanceMode2": [1], + "RqedACCDistanceMode3": [2], + "RqedACCDistanceMode4": [3], + "RqedACCDistanceMode5": [4], + "notDefined": [5], + "errorCondition": [6], + "notAvailable": [7] + } + } + } + }, + "65135": { + "comment": "Adaptive Cruise Control", + "length": 8, + "name": "ACC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Forward.Collision.Warning" : { + "generic_name": "Forward.Collision.Warning", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "This parameter indicates if a collision is imminent and strong driver reaction either by braking hard or by an avoidance", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoWarning": [0], + "CollisionIsImminent": [1], + "ErrorIndicator": [2], + "notAvailable": [3] + } + }, + "A.CCDistance.Alert.Signal" : { + "generic_name": "A.CCDistance.Alert.Signal", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal to indicate to the operator that the ACC system is not able to maintain the distance to the target.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ACCDASNotActive": [0], + "ACCDASActive": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "A.CCSystem.Shutoff.Warning" : { + "generic_name": "A.CCSystem.Shutoff.Warning", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal to warn the driver of system deactivation due to non-driver actions.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ACCSSOWNotActive": [0], + "ACCSSOWActive": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "A.CCTarget.Detected" : { + "generic_name": "A.CCTarget.Detected", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal to indicate to the driver that the ACC system has detected a target.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NoTargetsDetected": [0], + "TargetDetected": [1], + "Reserved": [2], + "TakeNoAction": [3] + } + }, + "Road.Curvature" : { + "generic_name": "Road.Curvature", + "bit_position": 31, + "bit_size": 16, + "factor": 0.0078125, + "offset": -250, + "min_value": -250, + "max_value": 251.992, + "comment": "Estimated value of the current road curvature for use by the adaptive cruise control system.", + "unit": "1/km", + "is_big_endian": false, + "is_signed": false + }, + "Adptve.Cruise.Ctrl.Set.Distance.Mode" : { + "generic_name": "Adptve.Cruise.Ctrl.Set.Distance.Mode", + "bit_position": 26, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "Selected distance mode for adaptive cruise control.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ACCDistanceMode1": [0], + "ACCDistanceMode2": [1], + "ACCDistanceMode3": [2], + "ACCDistanceMode4": [3], + "ACCDistanceMode5": [4], + "ConventionalCruiseCtrlMode": [5], + "ErrorCondition": [6], + "NotAvailable_NotValid": [7] + } + }, + "Adaptive.Cruise.Ctrl.Mode" : { + "generic_name": "Adaptive.Cruise.Ctrl.Mode", + "bit_position": 23, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "This parameter is used to indicate the current state, or mode, of operation by the Adaptive Cruise Control (ACC) device.", + "is_big_endian": false, + "is_signed": false, + "states": { + "OffUsdTIndctACCIsEnbldInClbCnfg": [0], + "SpeedCtrlActive": [1], + "DstncCtrlActvUsdTIndctThtACCIsO": [2], + "OvertakeMode": [3], + "HldMdUsdTIndctThtACCHsLstThPrvs": [4], + "FinishMode": [5], + "DsbldErrrCndtnUsdTIndctThtACCIs": [6], + "NotAvailable_NotValid": [7] + } + }, + "Adaptive.Cruise.Ctrl.Set.Speed" : { + "generic_name": "Adaptive.Cruise.Ctrl.Set.Speed", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Value of the desired (chosen) velocity of the adaptive cruise control system.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + }, + "Distance.To.Forward.Vehicle" : { + "generic_name": "Distance.To.Forward.Vehicle", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Distance to the preceding vehicle situated within 250 m in the same lane and moving in the same direction.", + "unit": "m", + "is_big_endian": false, + "is_signed": false + }, + "Speed.Of.Forward.Vehicle" : { + "generic_name": "Speed.Of.Forward.Vehicle", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Absolute velocity of the preceding vehicle situated within 250 m in the same lane and moving in the same direction.", + "unit": "km/h", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65192": { + "comment": "Articulation Control", + "length": 8, + "name": "AC", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Articulation.Angle" : { + "generic_name": "Articulation.Angle", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Angle of deflection of an articulated transit vehicle.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65164": { + "comment": "Auxiliary Analog Information", + "length": 8, + "name": "AAI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Relative.Humidity" : { + "generic_name": "Relative.Humidity", + "bit_position": 47, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Measures humidity of combustion air prior to entry into turbocharger", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Aux.Level" : { + "generic_name": "Aux.Level", + "bit_position": 31, + "bit_size": 16, + "factor": 0.1, + "offset": 0, + "min_value": 0, + "max_value": 6425.5, + "comment": "Level measured by a sensor.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Aux.Press2" : { + "generic_name": "Aux.Press2", + "bit_position": 23, + "bit_size": 8, + "factor": 16, + "offset": 0, + "min_value": 0, + "max_value": 4000, + "comment": "Pressure measured by auxiliary pressure sensor #2.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aux.Press1" : { + "generic_name": "Aux.Press1", + "bit_position": 15, + "bit_size": 8, + "factor": 16, + "offset": 0, + "min_value": 0, + "max_value": 4000, + "comment": "Pressure measured by auxiliary pressure sensor #1.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Aux.Temp2" : { + "generic_name": "Aux.Temp2", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature measured by auxiliary temperature sensor #2.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Aux.Temp1" : { + "generic_name": "Aux.Temp1", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -40, + "min_value": -40, + "max_value": 210, + "comment": "Temperature measured by auxiliary temperature sensor #1.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65277": { + "comment": "Alternate Fuel 1", + "length": 8, + "name": "A1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Eng.Blower.Bypass.Valve.Pos" : { + "generic_name": "Eng.Blower.Bypass.Valve.Pos", + "bit_position": -1, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Relative position of the blower bypass valve.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Eng.Gas.Supply.Press" : { + "generic_name": "Eng.Gas.Supply.Press", + "bit_position": 7, + "bit_size": 16, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 32127.5, + "comment": "Gage pressure of gas supply to fuel metering device.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "59646": { + "comment": "Acknowledgment Message", + "length": 8, + "name": "ACKM", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Address.Busy" : { + "generic_name": "Address.Busy", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "multiplex": "3", + "is_big_endian": false, + "is_signed": false + }, + "Control.Byte" : { + "generic_name": "Control.Byte", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "multiplex": "Multiplexor", + "is_big_endian": false, + "is_signed": false, + "states": { + "ACK": [0], + "NACK": [1], + "AccessDenied": [2], + "CannotRespond": [3] + } + }, + "Parameter.Group.Number" : { + "generic_name": "Parameter.Group.Number", + "bit_position": 39, + "bit_size": 24, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 16777215, + "comment": "PGN which is requested by Request2 message", + "is_big_endian": false, + "is_signed": false + }, + "Group.Function.Value" : { + "generic_name": "Group.Function.Value", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Group Function of PGN being acknowledged. This field identifies for a device the specific group function of a PGN being acknowledged or declined. This field is not used if the PGN being acknowledged or declined is not a group function PGN.", + "is_big_endian": false, + "is_signed": false + }, + "Address.Access.Denied" : { + "generic_name": "Address.Access.Denied", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "multiplex": "2", + "is_big_endian": false, + "is_signed": false + }, + "Address.Negative.Acknowledgement" : { + "generic_name": "Address.Negative.Acknowledgement", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "multiplex": "1", + "is_big_endian": false, + "is_signed": false + }, + "Address.Acknowledged" : { + "generic_name": "Address.Acknowledged", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "None", + "multiplex": "0", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65102": { + "comment": "Door Control 1", + "length": 8, + "name": "DC1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Status2.Of.Doors" : { + "generic_name": "Status2.Of.Doors", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Composite indication of all bus door statuses.", + "is_big_endian": false, + "is_signed": false, + "states": { + "allBusDoorsAreDisabled": [0], + "atLeast1BusDoorEnabled": [1], + "error": [2], + "notAvailable": [3] + } + }, + "Ramp_.Wheel.Chair.Lift.Pos" : { + "generic_name": "Ramp_.Wheel.Chair.Lift.Pos", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Signal which indicates the actual position of the ramp / wheel chair lift.", + "is_big_endian": false, + "is_signed": false, + "states": { + "InsideBus": [0], + "OutsideBus": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Pos.Of.Doors" : { + "generic_name": "Pos.Of.Doors", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Signal which indicates the actual position of the doors.", + "is_big_endian": false, + "is_signed": false, + "states": { + "AtLeast1DoorIsOpen": [0], + "ClosingLastDoor": [1], + "AllDoorsClosed": [2], + "1101NotDefined": [3], + "Error": [14], + "NotAvailable": [15] + } + } + } + }, + "61458": { + "comment": "Fifth Wheel Smart Systems 1", + "length": 8, + "name": "FWSS1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Fifth.Wheel.Roll.Warning.Indicator" : { + "generic_name": "Fifth.Wheel.Roll.Warning.Indicator", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates to the vehicle operator that the roll moment has exceeded a preset limit.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LimitNotExceeded": [0], + "LimitExceeded": [1], + "error": [2], + "NotAvailable": [3] + } + }, + "Fifth.Wheel.Roll.Moment" : { + "generic_name": "Fifth.Wheel.Roll.Moment", + "bit_position": 31, + "bit_size": 16, + "factor": 10, + "offset": -320000, + "min_value": -320000, + "max_value": 322550, + "comment": "Fifth wheel roll moment force - If the moment is positive, the trailer is rolling clockwise relative to the normal vehicle", + "unit": "N", + "is_big_endian": false, + "is_signed": false + }, + "Fifth.Wheel.Drawbar.Force" : { + "generic_name": "Fifth.Wheel.Drawbar.Force", + "bit_position": 15, + "bit_size": 16, + "factor": 10, + "offset": -320000, + "min_value": -320000, + "max_value": 322550, + "comment": "Fifth wheel drawbar force, with the trailer held stationary a positive force is generated by the vehicle pulling forward.", + "unit": "N", + "is_big_endian": false, + "is_signed": false + }, + "Fifth.Wheel.Vertical.Force" : { + "generic_name": "Fifth.Wheel.Vertical.Force", + "bit_position": -1, + "bit_size": 16, + "factor": 5, + "offset": 0, + "min_value": 0, + "max_value": 321275, + "comment": "The amount of load being applied to the fifth wheel by the trailer.", + "unit": "N", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64942": { + "comment": "Fifth Wheel Smart Systems 2", + "length": 8, + "name": "FWSS2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Fifth.Wheel.Slider.Lock.Indicator" : { + "generic_name": "Fifth.Wheel.Slider.Lock.Indicator", + "bit_position": 15, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates to vehicle operator that the fifth wheel slider is in position and locked.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NotLocked": [0], + "Locked": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Fifth.Wheel.Slider.Pos" : { + "generic_name": "Fifth.Wheel.Slider.Pos", + "bit_position": 7, + "bit_size": 8, + "factor": 10, + "offset": 0, + "min_value": 0, + "max_value": 2500, + "comment": "Slider position measurement.", + "unit": "mm", + "is_big_endian": false, + "is_signed": false + }, + "Ffth.Whl.Lck.Couple.Status.Indicator" : { + "generic_name": "Ffth.Whl.Lck.Couple.Status.Indicator", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates results of coupling operation to the vehicle operator.", + "is_big_endian": false, + "is_signed": false, + "states": { + "IncmpltBdCplTrckShuldNotBeMoved": [0], + "SuccessfulCoupleDetected": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Ffth.Whl.Lck.Rady.To.Couple.Indicator" : { + "generic_name": "Ffth.Whl.Lck.Rady.To.Couple.Indicator", + "bit_position": 3, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Indicates to the vehicle operator that the fifth wheel lock is open and ready to couple.", + "is_big_endian": false, + "is_signed": false, + "states": { + "LockNotOpenNotReadyToCouple": [0], + "LockOpenReadyToCouple": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Fifth.Wheel.Error.Status" : { + "generic_name": "Fifth.Wheel.Error.Status", + "bit_position": -1, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Fifth wheel error state which conveys information when coupling status is incomplete or bad.", + "is_big_endian": false, + "is_signed": false, + "states": { + "ImproperCouple": [0], + "LocksClosed_NoKingpinAtStartup": [1], + "Kingpin_LocksOpenAtStartup": [2], + "CouplingSequenceError": [5], + "CouplingSequenceError_Kingpin": [6], + "CouplingTimingError": [7], + "KingpinMissingMoreThan5Seconds": [8], + "Kingpin_LockOpen": [9], + "NotUsed": [14], + "NotAvailable": [15] + } + } + } + }, + "61459": { + "comment": "Slope Sensor Information", + "length": 8, + "name": "SSI", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Roll.And.Pitch.Measurement.Latency" : { + "generic_name": "Roll.And.Pitch.Measurement.Latency", + "bit_position": 55, + "bit_size": 8, + "factor": 0.5, + "offset": 0, + "min_value": 0, + "max_value": 125, + "comment": "The estimated measurement latency of the measurement.", + "unit": "ms", + "is_big_endian": false, + "is_signed": false + }, + "Pitch.And.Roll.Compensated" : { + "generic_name": "Pitch.And.Roll.Compensated", + "bit_position": 53, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Compensated mode for the pitch and roll measurements.", + "is_big_endian": false, + "is_signed": false, + "states": { + "CompensationOn": [0], + "NotAvailable": [1, 3], + "Error": [2] + } + }, + "Pitch.Rate.Figure.Of.Merit" : { + "generic_name": "Pitch.Rate.Figure.Of.Merit", + "bit_position": 51, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Figure of merit for the pitch rate measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PtchRtDgrddDtIsSspctDTEnvrnmntl": [0], + "NotAvailable": [1, 3], + "Error": [2] + } + }, + "Roll.Angle.Figure.Of.Merit" : { + "generic_name": "Roll.Angle.Figure.Of.Merit", + "bit_position": 49, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Figure of merit for roll angle measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "RollAngleFullyFunctional": [0], + "RollAngleDegraded": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Pitch.Angle.Figure.Of.Merit" : { + "generic_name": "Pitch.Angle.Figure.Of.Merit", + "bit_position": 47, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "Figure of merit for pitch angle measurement.", + "is_big_endian": false, + "is_signed": false, + "states": { + "PtchAnglDgrddDtIsSspctDTEnvrnmn": [0], + "NotAvailable": [1, 3], + "Error": [2] + } + }, + "Pitch.Rate" : { + "generic_name": "Pitch.Rate", + "bit_position": 31, + "bit_size": 16, + "factor": 0.002, + "offset": -64, + "min_value": -64, + "max_value": 64.51, + "comment": "Pitch rate is the rate-of-change of the pitch angle over time, where the pitch angle vector is in the direction of travel of the", + "unit": "deg/sec", + "is_big_endian": false, + "is_signed": false + }, + "Roll.Angle" : { + "generic_name": "Roll.Angle", + "bit_position": 15, + "bit_size": 16, + "factor": 0.002, + "offset": -64, + "min_value": -64, + "max_value": 64.51, + "comment": "The angle between the vehicle y-axis and the ground plane.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + }, + "Pitch.Angle" : { + "generic_name": "Pitch.Angle", + "bit_position": -1, + "bit_size": 16, + "factor": 0.002, + "offset": -64, + "min_value": -64, + "max_value": 64.51, + "comment": "The angle between the vehicle x-axis and the ground plane.", + "unit": "deg", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65272": { + "comment": "Transmission Fluids 1", + "length": 8, + "name": "TRF1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Trans.Oil.Level.Measurement.Status" : { + "generic_name": "Trans.Oil.Level.Measurement.Status", + "bit_position": 59, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Indicates if conditions are acceptable to obtain a valid transmission oil level measurement as conveyed in SPN 124", + "is_big_endian": false, + "is_signed": false, + "states": { + "CndtnsVldFrTrnsOlLvlMeasurement": [0], + "CndtnsNtVldSttlngTmrStllCntngDw": [1], + "ConditionsNotValidTransInGear": [2], + "CndtnsNtVldTransFluidTempTooLow": [3], + "CndtnsNtVldTrnsFluidTempTooHigh": [4], + "CndtnsNtVldVhclMvngOtptShftSpdT": [5], + "CndtionsNotValidVehicleNotLevel": [6], + "CnditionsNotValidEngSpeedTooLow": [7], + "CndtionsNotValidEngSpeedTooHigh": [8], + "CnditionsNotValidNoRqForReading": [9], + "NotDefined": [12], + "ConditionsNotValidOther": [13], + "Error": [14], + "NotAvailable": [15] + } + }, + "Trans.Oil.Level.Countdown.Timer" : { + "generic_name": "Trans.Oil.Level.Countdown.Timer", + "bit_position": 55, + "bit_size": 4, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 15, + "comment": "Once all vehicle conditions (such as vehicle stopped, etc) are met, some transmissions may require a `settling time' to", + "is_big_endian": false, + "is_signed": false, + "states": { + "lessThan1Minute": [0], + "OneMinute": [1], + "TwoMinutes": [2], + "ThreeMinutes": [3], + "FourMinutes": [4], + "FiveMinutes": [5], + "SixMinutes": [6], + "SevenMinutes": [7], + "EightMinutes": [8], + "NineMinutes": [9], + "TenMinutes": [10], + "ElevenMinutes": [11], + "TwelveMinutes": [12], + "ThirteenMinutes": [13], + "Error": [14], + "NotAvailable": [15] + } + }, + "Trans.Oil.Level.High_.Low" : { + "generic_name": "Trans.Oil.Level.High_.Low", + "bit_position": 47, + "bit_size": 8, + "factor": 0.5, + "offset": -62.5, + "min_value": -62.5, + "max_value": 62.5, + "comment": "Amount of current volume of transmission sump oil compared to recommended volume.", + "unit": "L", + "is_big_endian": false, + "is_signed": false, + "states": { + "CondNotAcceptableForValidMeasure": [251] + } + }, + "Trans.Oil.Temp" : { + "generic_name": "Trans.Oil.Temp", + "bit_position": 31, + "bit_size": 16, + "factor": 0.03125, + "offset": -273, + "min_value": -273, + "max_value": 1734.96875, + "comment": "Temperature of the transmission lubricant.", + "unit": "deg C", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Oil.Press" : { + "generic_name": "Trans.Oil.Press", + "bit_position": 23, + "bit_size": 8, + "factor": 16, + "offset": 0, + "min_value": 0, + "max_value": 4000, + "comment": "Gage pressure of lubrication fluid in transmission, measured after pump.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Filter.Diff.Press" : { + "generic_name": "Trans.Filter.Diff.Press", + "bit_position": 15, + "bit_size": 8, + "factor": 2, + "offset": 0, + "min_value": 0, + "max_value": 500, + "comment": "Change in transmission fluid pressure, measured after the filter, due to accumulation of solid or semisolid material on or in", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + }, + "Trans.Oil.Level" : { + "generic_name": "Trans.Oil.Level", + "bit_position": 7, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Ratio of volume of transmission sump oil to recommended volume.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Clutch.Press" : { + "generic_name": "Clutch.Press", + "bit_position": -1, + "bit_size": 8, + "factor": 16, + "offset": 0, + "min_value": 0, + "max_value": 4000, + "comment": "Gage pressure of oil within a wet clutch.", + "unit": "kPa", + "is_big_endian": false, + "is_signed": false + } + } + }, + "65271": { + "comment": "Vehicle Electrical Power 1", + "length": 8, + "name": "VEP1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Charging.System.Potential" : { + "generic_name": "Charging.System.Potential", + "bit_position": 15, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Electrical potential measured at the charging system output.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Alt.Current" : { + "generic_name": "Alt.Current", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 250, + "comment": "Measure of electrical current flow from the alternator.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Net.Battery.Current" : { + "generic_name": "Net.Battery.Current", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": -125, + "min_value": -125, + "max_value": 125, + "comment": "Net flow of electrical current into/out of the battery or batteries.", + "unit": "A", + "is_big_endian": false, + "is_signed": false + }, + "Keyswitch.Battery.Potential" : { + "generic_name": "Keyswitch.Battery.Potential", + "bit_position": 47, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "Battery potential measured at the input of the electronic control unit supplied through a keyswitch or similar switching", + "unit": "V", + "is_big_endian": false, + "is_signed": false + }, + "Battery.Potential_.Power.Input1" : { + "generic_name": "Battery.Potential_.Power.Input1", + "bit_position": 31, + "bit_size": 16, + "factor": 0.05, + "offset": 0, + "min_value": 0, + "max_value": 3212.75, + "comment": "This parameter measures the first source of battery potential as measured at the input of the ECM/actuator etc.", + "unit": "V", + "is_big_endian": false, + "is_signed": false + } + } + }, + "64936": { + "comment": "Wireless Communications Message 2", + "length": 8, + "name": "WCM2", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Wrless.Communication.Network.Type2" : { + "generic_name": "Wrless.Communication.Network.Type2", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Type of Wireless Communication Network", + "is_big_endian": false, + "is_signed": false, + "states": { + "CellularNetwork1": [0], + "CellularNetwork2": [1] + } + }, + "Network.Signal.Strength2" : { + "generic_name": "Network.Signal.Strength2", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Indicates the signal strength for the wireless communications network type.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Network.Antenna.Status2" : { + "generic_name": "Network.Antenna.Status2", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Indicates the status of the antenna for the wireless communications network type", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1] + } + }, + "Network.Service.Status2" : { + "generic_name": "Network.Service.Status2", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Indicates the status of the Service for the wireless communications network type", + "is_big_endian": false, + "is_signed": false, + "states": { + "LocalService": [0], + "RoamingService": [1] + } + }, + "Network.Transceiver.Status2" : { + "generic_name": "Network.Transceiver.Status2", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Indicates the status of the transceiver for the wireless communications network type", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1] + } + } + } + }, + "64937": { + "comment": "Wireless Communications Message 1", + "length": 8, + "name": "WCM1", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Wrless.Communication.Network.Type1" : { + "generic_name": "Wrless.Communication.Network.Type1", + "bit_position": 31, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Type of Wireless Communication Network", + "is_big_endian": false, + "is_signed": false, + "states": { + "CellularNetwork1": [0], + "CellularNetwork2": [1] + } + }, + "Network.Signal.Strength1" : { + "generic_name": "Network.Signal.Strength1", + "bit_position": 23, + "bit_size": 8, + "factor": 0.4, + "offset": 0, + "min_value": 0, + "max_value": 100, + "comment": "Indicates the signal strength for the wireless communications network type.", + "unit": "%", + "is_big_endian": false, + "is_signed": false + }, + "Network.Antenna.Status1" : { + "generic_name": "Network.Antenna.Status1", + "bit_position": 15, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Indicates the status of the antenna for the wireless communications network type", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1] + } + }, + "Network.Service.Status1" : { + "generic_name": "Network.Service.Status1", + "bit_position": 7, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Indicates the status of the Service for the wireless communications network type", + "is_big_endian": false, + "is_signed": false, + "states": { + "LocalService": [0], + "RoamingService": [1] + } + }, + "Network.Transceiver.Status1" : { + "generic_name": "Network.Transceiver.Status1", + "bit_position": -1, + "bit_size": 8, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 255, + "comment": "Indicates the status of the transceiver for the wireless communications network type", + "is_big_endian": false, + "is_signed": false, + "states": { + "Off": [0], + "On": [1] + } + } + } + }, + "64935": { + "comment": "Voltage Regulator Operating Mode", + "length": 8, + "name": "VROM", + "bus" : "j1939", + "is_fd" : false, + "is_extended" : false, + "is_j1939" : true, + "signals" : { + "Voltage.Regulator.Enabled" : { + "generic_name": "Voltage.Regulator.Enabled", + "bit_position": 9, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal indicating the Voltage regulator enabled.", + "is_big_endian": false, + "is_signed": false, + "states": { + "NtRegulatingVoltageUnitDisabled": [0], + "RegulatingVoltage": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Voltage.Regulator.Soft.Start.State" : { + "generic_name": "Voltage.Regulator.Soft.Start.State", + "bit_position": 7, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal indicating the mode of the Voltage regulator soft start function.", + "is_big_endian": false, + "is_signed": false, + "states": { + "SoftStartIsInactive": [0], + "SoftStartIsActive": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Vltg.Rgltr.Undrfrqncy.Cmpnstn.Enbld" : { + "generic_name": "Vltg.Rgltr.Undrfrqncy.Cmpnstn.Enbld", + "bit_position": 5, + "bit_size": 2, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 3, + "comment": "State signal indicating the operating mode for underfrequency compensation.", + "is_big_endian": false, + "is_signed": false, + "states": { + "UndrfrqencyCompensationDisabled": [0], + "UndrfrquencyCompensationEnabled": [1], + "Error": [2], + "NotAvailable": [3] + } + }, + "Vltg.Rgltr.VAr_.Pwr.Fctr.Oprting.Mode" : { + "generic_name": "Vltg.Rgltr.VAr_.Pwr.Fctr.Oprting.Mode", + "bit_position": 2, + "bit_size": 3, + "factor": 1, + "offset": 0, + "min_value": 0, + "max_value": 7, + "comment": "None", + "is_big_endian": false, + "is_signed": false, + "states": { + "VAr_PwrFactorRegulationDisabled": [0], + "PowerFactorRegulationEnabled": [1], + "VArRegulationEnabled": [2], + "Reserved": [5], + "Error": [6], + "NotAvailable": [7] + } diff --git a/examples/tests/application-generated.cpp b/examples/tests/application-generated.cpp index 7dd03d73..2cbcbe28 100644 --- a/examples/tests/application-generated.cpp +++ b/examples/tests/application-generated.cpp @@ -7,7 +7,7 @@ application_t::application_t() , message_set_{ {std::make_shared<message_set_t>(message_set_t{0,"AGL Virtual Car", { // beginning message_definition_ vector - {std::make_shared<message_definition_t>(message_definition_t{"ls",0x111,"",16,66,frequency_clock_t(5.00000f),true, + {std::make_shared<message_definition_t>(message_definition_t{"ls", 0x111,"", 16, 66, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "sig1.1",// generic_name @@ -187,7 +187,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"ls",0x30,"",8,4,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"ls", 0x30,"", 8, 4, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "hvac.fan.speed",// generic_name @@ -279,7 +279,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x3D9,"",8,2050,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x3D9,"", 8, 2050, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "engine.speed",// generic_name @@ -349,7 +349,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x3E9,"",8,2,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x3E9,"", 8, 2, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "vehicle.average.speed",// generic_name @@ -375,7 +375,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x4D1,"",8,2,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x4D1,"", 8, 2, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "engine.oil.temp",// generic_name @@ -423,7 +423,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x620,"",8,2,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x620,"", 8, 2, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "doors.boot.open",// generic_name @@ -537,7 +537,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x799,"",8,2,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x799,"", 8, 2, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "windows.front_left.open",// generic_name @@ -629,7 +629,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"j1939",61442,"ETC1",8,18,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"j1939", 61442,"ETC1", 8, 18, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "Eng.Momentary.Overspeed.Enable",// generic_name @@ -903,7 +903,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"j1939",61444,"EEC1",8,18,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"j1939", 61444,"EEC1", 8, 18, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "Actl.Eng.Prcnt.Trque.High.Resolution",// generic_name @@ -1113,7 +1113,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"j1939",61449,"VDC2",8,18,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"j1939", 61449,"VDC2", 8, 18, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "Lateral.Acceleration",// generic_name @@ -1253,7 +1253,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"j1939",65215,"EBC2",8,18,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"j1939", 65215,"EBC2", 8, 18, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "Front.Axle.Speed",// generic_name @@ -1411,7 +1411,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"j1939",65253,"HOURS",8,18,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"j1939", 65253,"HOURS", 8, 18, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "Eng.Total.Hours.Of.Operation",// generic_name @@ -1459,7 +1459,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"j1939",65262,"ET1",8,18,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"j1939", 65262,"ET1", 8, 18, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "Eng.Coolant.Temp",// generic_name @@ -1857,7 +1857,7 @@ application_t::application_t() { for(std::shared_ptr<message_set_t> cms: message_set_) { - std::vector<std::shared_ptr<message_definition_t>> messages_definition = cms->get_messages_definition(); + vect_ptr_msg_def_t messages_definition = cms->get_messages_definition(); for(std::shared_ptr<message_definition_t> cmd : messages_definition) { cmd->set_parent(cms); diff --git a/examples/toyota/auris/application-generated.cpp b/examples/toyota/auris/application-generated.cpp index 1d5e946a..30102d74 100644 --- a/examples/toyota/auris/application-generated.cpp +++ b/examples/toyota/auris/application-generated.cpp @@ -7,7 +7,7 @@ application_t::application_t() , message_set_{ {std::make_shared<message_set_t>(message_set_t{0,"example", { // beginning message_definition_ vector - {std::make_shared<message_definition_t>(message_definition_t{"hs",0x3D9,"",0,false,message_format_t::STANDARD,frequency_clock_t(5.00000f),true, + {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x3D9,"", 0, false, message_format_t::STANDARD, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "engine.speed",// generic_name @@ -77,7 +77,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x3E9,"",0,false,message_format_t::STANDARD,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x3E9,"", 0, false, message_format_t::STANDARD, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "vehicle.average.speed",// generic_name @@ -103,7 +103,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x4D1,"",0,false,message_format_t::STANDARD,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x4D1,"", 0, false, message_format_t::STANDARD, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "engine.oil.temp",// generic_name @@ -151,7 +151,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x620,"",0,false,message_format_t::STANDARD,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x620,"", 0, false, message_format_t::STANDARD, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "doors.boot.open",// generic_name @@ -265,7 +265,7 @@ application_t::application_t() })} } // end signals vector })} // end message_definition entry -, {std::make_shared<message_definition_t>(message_definition_t{"hs",0x799,"",0,false,message_format_t::STANDARD,frequency_clock_t(5.00000f),true, +, {std::make_shared<message_definition_t>(message_definition_t{"hs", 0x799,"", 0, false, message_format_t::STANDARD, frequency_clock_t(5.00000f), true, { // beginning signals vector {std::make_shared<signal_t> (signal_t{ "windows.front_left.open",// generic_name @@ -619,7 +619,7 @@ application_t::application_t() { for(std::shared_ptr<message_set_t> cms: message_set_) { - std::vector<std::shared_ptr<message_definition_t>> messages_definition = cms->get_messages_definition(); + vect_ptr_msg_def_t messages_definition = cms->get_messages_definition(); for(std::shared_ptr<message_definition_t> cmd : messages_definition) { cmd->set_parent(cms); |