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Auto-generated configs and docs

This commit is contained in:
GitHub gen-configs Action 2024-10-21 15:05:10 +00:00
parent 96916127dc
commit 0a85635462
228 changed files with 25762 additions and 18751 deletions
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1
firmware/config/boards/hellen/uaefi121/connectors/generated_ts_name_by_pin.cpp
View File

@ -24,6 +24,7 @@ const char * getBoardSpecificPinName(brain_pin_e brainPin) {
case Gpio::D7: return "43a High Side Output";
case Gpio::E0: return "VR_DISCRETE+";
case Gpio::E1: return "VR_9924+";
case Gpio::E11: return "FLEX";
case Gpio::E12: return "36a HALL1 / VSS";
case Gpio::E13: return "35a HALL2";
case Gpio::E14: return "34a HALL3";

20
firmware/console/binary/generated/data_logs.ini
View File

@ -462,6 +462,26 @@ entry = m_knockThreshold, "Knock: Threshold", float, "%.3f"
entry = m_knockCount, "Knock: Count", int, "%d"
entry = m_maximumRetard, "Knock: Max retard", float, "%.3f"
entry = m_knockFrequency, "knock: frequency", int, "%d"
entry = m_knockSpectrum1, "Knock: SpectrumData 1", int, "%d"
entry = m_knockSpectrum2, "Knock: SpectrumData 2", int, "%d"
entry = m_knockSpectrum3, "Knock: SpectrumData 3", int, "%d"
entry = m_knockSpectrum4, "Knock: SpectrumData 4", int, "%d"
entry = m_knockSpectrum5, "Knock: SpectrumData 5", int, "%d"
entry = m_knockSpectrum6, "Knock: SpectrumData 6", int, "%d"
entry = m_knockSpectrum7, "Knock: SpectrumData 7", int, "%d"
entry = m_knockSpectrum8, "Knock: SpectrumData 8", int, "%d"
entry = m_knockSpectrum9, "Knock: SpectrumData 9", int, "%d"
entry = m_knockSpectrum10, "Knock: SpectrumData 10", int, "%d"
entry = m_knockSpectrum11, "Knock: SpectrumData 11", int, "%d"
entry = m_knockSpectrum12, "Knock: SpectrumData 12", int, "%d"
entry = m_knockSpectrum13, "Knock: SpectrumData 13", int, "%d"
entry = m_knockSpectrum14, "Knock: SpectrumData 14", int, "%d"
entry = m_knockSpectrum15, "Knock: SpectrumData 15", int, "%d"
entry = m_knockSpectrum16, "Knock: SpectrumData 16", int, "%d"
entry = m_knockSpectrumChannelCyl, "Knock: ChannelAndCylNumber", int, "%d"
entry = m_knockFrequencyStart, "Knock: Start Freq", int, "%d"
entry = m_knockFrequencyStep, "Knock: Step Freq", float, "%.3f"
entry = m_knockFuelTrimMultiplier, "Knock: Fuel trim when knock", float, "%.3f"
entry = tcuCurrentGear, "TCU: Current Gear", int, "%d"
entry = tcRatio, "TCU: Torque Converter Ratio", float, "%.3f"
entry = lastShiftTime, "lastShiftTime", float, "%.3f"

25
firmware/console/binary/generated/fancy_content.ini
View File

@ -72,6 +72,31 @@ dialog = knock_controllerDialog, "knock_controller"
liveGraph = knock_controller_5_Graph, "Graph", South
graphLine = m_maximumRetard
graphLine = m_knockFrequency
graphLine = m_knockSpectrum1
graphLine = m_knockSpectrum2
liveGraph = knock_controller_6_Graph, "Graph", South
graphLine = m_knockSpectrum3
graphLine = m_knockSpectrum4
graphLine = m_knockSpectrum5
graphLine = m_knockSpectrum6
liveGraph = knock_controller_7_Graph, "Graph", South
graphLine = m_knockSpectrum7
graphLine = m_knockSpectrum8
graphLine = m_knockSpectrum9
graphLine = m_knockSpectrum10
liveGraph = knock_controller_8_Graph, "Graph", South
graphLine = m_knockSpectrum11
graphLine = m_knockSpectrum12
graphLine = m_knockSpectrum13
graphLine = m_knockSpectrum14
liveGraph = knock_controller_9_Graph, "Graph", South
graphLine = m_knockSpectrum15
graphLine = m_knockSpectrum16
graphLine = m_knockSpectrumChannelCyl
graphLine = m_knockFrequencyStart
liveGraph = knock_controller_10_Graph, "Graph", South
graphLine = m_knockFrequencyStep
graphLine = m_knockFuelTrimMultiplier
indicatorPanel = tcu_controllerIndicatorPanel, 2
indicator = {isShifting}, "isShifting No", "isShifting Yes"

50
firmware/console/binary/generated/live_data_ids.h
View File

@ -44,28 +44,28 @@ LDS_lambda_monitor,
#define FUEL_COMPUTER_BASE_ADDRESS 848
#define IGNITION_STATE_BASE_ADDRESS 900
#define KNOCK_CONTROLLER_BASE_ADDRESS 940
#define TCU_CONTROLLER_BASE_ADDRESS 976
#define THROTTLE_MODEL_BASE_ADDRESS 992
#define HIGH_PRESSURE_FUEL_PUMP_BASE_ADDRESS 1004
#define INJECTOR_MODEL_BASE_ADDRESS 1032
#define LAUNCH_CONTROL_STATE_BASE_ADDRESS 1044
#define SHIFT_TORQUE_REDUCTION_STATE_BASE_ADDRESS 1052
#define ANTILAG_SYSTEM_STATE_BASE_ADDRESS 1056
#define BOOST_CONTROL_BASE_ADDRESS 1068
#define AC_CONTROL_BASE_ADDRESS 1092
#define FAN_CONTROL_BASE_ADDRESS 1100
#define FUEL_PUMP_CONTROL_BASE_ADDRESS 1116
#define MAIN_RELAY_BASE_ADDRESS 1120
#define ENGINE_STATE_BASE_ADDRESS 1124
#define TPS_ACCEL_STATE_BASE_ADDRESS 1224
#define TRIGGER_CENTRAL_BASE_ADDRESS 1272
#define TRIGGER_STATE_BASE_ADDRESS 1336
#define TRIGGER_STATE_PRIMARY_BASE_ADDRESS 1536
#define WALL_FUEL_STATE_BASE_ADDRESS 1544
#define IDLE_STATE_BASE_ADDRESS 1552
#define ELECTRONIC_THROTTLE_BASE_ADDRESS 1600
#define WIDEBAND_STATE_BASE_ADDRESS 1696
#define DC_MOTORS_BASE_ADDRESS 1720
#define SENT_STATE_BASE_ADDRESS 1732
#define VVT_BASE_ADDRESS 1740
#define LAMBDA_MONITOR_BASE_ADDRESS 1744
#define TCU_CONTROLLER_BASE_ADDRESS 1052
#define THROTTLE_MODEL_BASE_ADDRESS 1068
#define HIGH_PRESSURE_FUEL_PUMP_BASE_ADDRESS 1080
#define INJECTOR_MODEL_BASE_ADDRESS 1108
#define LAUNCH_CONTROL_STATE_BASE_ADDRESS 1120
#define SHIFT_TORQUE_REDUCTION_STATE_BASE_ADDRESS 1128
#define ANTILAG_SYSTEM_STATE_BASE_ADDRESS 1132
#define BOOST_CONTROL_BASE_ADDRESS 1144
#define AC_CONTROL_BASE_ADDRESS 1168
#define FAN_CONTROL_BASE_ADDRESS 1176
#define FUEL_PUMP_CONTROL_BASE_ADDRESS 1192
#define MAIN_RELAY_BASE_ADDRESS 1196
#define ENGINE_STATE_BASE_ADDRESS 1200
#define TPS_ACCEL_STATE_BASE_ADDRESS 1300
#define TRIGGER_CENTRAL_BASE_ADDRESS 1348
#define TRIGGER_STATE_BASE_ADDRESS 1412
#define TRIGGER_STATE_PRIMARY_BASE_ADDRESS 1612
#define WALL_FUEL_STATE_BASE_ADDRESS 1620
#define IDLE_STATE_BASE_ADDRESS 1628
#define ELECTRONIC_THROTTLE_BASE_ADDRESS 1676
#define WIDEBAND_STATE_BASE_ADDRESS 1772
#define DC_MOTORS_BASE_ADDRESS 1796
#define SENT_STATE_BASE_ADDRESS 1808
#define VVT_BASE_ADDRESS 1816
#define LAMBDA_MONITOR_BASE_ADDRESS 1820

740
firmware/console/binary/generated/output_channels.ini
View File

@ -524,367 +524,387 @@ m_knockThreshold = scalar, F32, 960, "", 1, 0
m_knockCount = scalar, U32, 964, "", 1, 0
m_maximumRetard = scalar, F32, 968, "", 1, 0
m_knockFrequency = scalar, U32, 972, "Hz", 1, 0
; total TS size = 976
tcuCurrentGear = scalar, S08, 976, "gear", 1, 0
tcRatio = scalar, U16, 978, "value", 0.01, 0
lastShiftTime = scalar, F32, 980, "", 1, 0
tcu_currentRange = scalar, U08, 984, "", 1, 0
pressureControlDuty = scalar, S08, 985, "%", 1,0
torqueConverterDuty = scalar, S08, 986, "%", 1,0
isShifting = bits, U32, 988, [0:0]
; total TS size = 992
throttleUseWotModel = bits, U32, 992, [0:0]
throttleModelCrossoverAngle = scalar, S16, 996, "%", 0.01, 0
throttleEstimatedFlow = scalar, F32, 1000, "g/s", 1, 0
; total TS size = 1004
m_requested_pump = scalar, F32, 1004, "", 1, 0
fuel_requested_percent = scalar, F32, 1008, "", 1, 0
fuel_requested_percent_pi = scalar, F32, 1012, "", 1, 0
noValve = bits, U32, 1016, [0:0]
angleAboveMin = bits, U32, 1016, [1:1]
isHpfpInactive = bits, U32, 1016, [2:2]
m_pressureTarget_kPa = scalar, F32, 1020, "", 1, 0
nextLobe = scalar, F32, 1024, "", 1, 0
di_nextStart = scalar, F32, 1028, "v", 1, 0
; total TS size = 1032
m_deadtime = scalar, F32, 1032, "ms", 1, 0
pressureDelta = scalar, F32, 1036, "kPa", 1, 0
pressureRatio = scalar, F32, 1040, "", 1, 0
; total TS size = 1044
retardThresholdRpm = scalar, S32, 1044, "", 1, 0
launchActivatePinState = bits, U32, 1048, [0:0]
isPreLaunchCondition = bits, U32, 1048, [1:1]
isLaunchCondition = bits, U32, 1048, [2:2]
isSwitchActivated = bits, U32, 1048, [3:3]
isClutchActivated = bits, U32, 1048, [4:4]
isBrakePedalActivated = bits, U32, 1048, [5:5]
isValidInputPin = bits, U32, 1048, [6:6]
activateSwitchCondition = bits, U32, 1048, [7:7]
rpmLaunchCondition = bits, U32, 1048, [8:8]
rpmPreLaunchCondition = bits, U32, 1048, [9:9]
speedCondition = bits, U32, 1048, [10:10]
tpsCondition = bits, U32, 1048, [11:11]
m_knockSpectrum1 = scalar, U32, 976, "compressed data", 1, 0
m_knockSpectrum2 = scalar, U32, 980, "compressed data", 1, 0
m_knockSpectrum3 = scalar, U32, 984, "compressed data", 1, 0
m_knockSpectrum4 = scalar, U32, 988, "compressed data", 1, 0
m_knockSpectrum5 = scalar, U32, 992, "compressed data", 1, 0
m_knockSpectrum6 = scalar, U32, 996, "compressed data", 1, 0
m_knockSpectrum7 = scalar, U32, 1000, "compressed data", 1, 0
m_knockSpectrum8 = scalar, U32, 1004, "compressed data", 1, 0
m_knockSpectrum9 = scalar, U32, 1008, "compressed data", 1, 0
m_knockSpectrum10 = scalar, U32, 1012, "compressed data", 1, 0
m_knockSpectrum11 = scalar, U32, 1016, "compressed data", 1, 0
m_knockSpectrum12 = scalar, U32, 1020, "compressed data", 1, 0
m_knockSpectrum13 = scalar, U32, 1024, "compressed data", 1, 0
m_knockSpectrum14 = scalar, U32, 1028, "compressed data", 1, 0
m_knockSpectrum15 = scalar, U32, 1032, "compressed data", 1, 0
m_knockSpectrum16 = scalar, U32, 1036, "compressed data", 1, 0
m_knockSpectrumChannelCyl = scalar, U16, 1040, "compressed N + N", 1, 0
m_knockFrequencyStart = scalar, U16, 1042, "Hz", 1, 0
m_knockFrequencyStep = scalar, F32, 1044, "Hz", 1, 0
m_knockFuelTrimMultiplier = scalar, F32, 1048, "multiplier", 1, 0
; total TS size = 1052
isTorqueReductionTriggerPinValid = bits, U32, 1052, [0:0]
torqueReductionTriggerPinState = bits, U32, 1052, [1:1]
isTimeConditionSatisfied = bits, U32, 1052, [2:2]
isRpmConditionSatisfied = bits, U32, 1052, [3:3]
isAppConditionSatisfied = bits, U32, 1052, [4:4]
isFlatShiftConditionSatisfied = bits, U32, 1052, [5:5]
; total TS size = 1056
isAntilagCondition = bits, U32, 1056, [0:0]
ALSMinRPMCondition = bits, U32, 1056, [1:1]
ALSMaxRPMCondition = bits, U32, 1056, [2:2]
ALSMinCLTCondition = bits, U32, 1056, [3:3]
ALSMaxCLTCondition = bits, U32, 1056, [4:4]
ALSMaxThrottleIntentCondition = bits, U32, 1056, [5:5]
isALSSwitchActivated = bits, U32, 1056, [6:6]
ALSActivatePinState = bits, U32, 1056, [7:7]
ALSSwitchCondition = bits, U32, 1056, [8:8]
ALSTimerCondition = bits, U32, 1056, [9:9]
fuelALSCorrection = scalar, F32, 1060, "", 1, 0
timingALSCorrection = scalar, S16, 1064, "deg", 0.01, 0
timingALSSkip = scalar, S16, 1066, "deg", 0.01, 0
tcuCurrentGear = scalar, S08, 1052, "gear", 1, 0
tcRatio = scalar, U16, 1054, "value", 0.01, 0
lastShiftTime = scalar, F32, 1056, "", 1, 0
tcu_currentRange = scalar, U08, 1060, "", 1, 0
pressureControlDuty = scalar, S08, 1061, "%", 1,0
torqueConverterDuty = scalar, S08, 1062, "%", 1,0
isShifting = bits, U32, 1064, [0:0]
; total TS size = 1068
isTpsInvalid = bits, U32, 1068, [0:0]
m_shouldResetPid = bits, U32, 1068, [1:1]
isBelowClosedLoopThreshold = bits, U32, 1068, [2:2]
isNotClosedLoop = bits, U32, 1068, [3:3]
isZeroRpm = bits, U32, 1068, [4:4]
hasInitBoost = bits, U32, 1068, [5:5]
rpmTooLow = bits, U32, 1068, [6:6]
tpsTooLow = bits, U32, 1068, [7:7]
mapTooLow = bits, U32, 1068, [8:8]
isPlantValid = bits, U32, 1068, [9:9]
isBoostControlled = bits, U32, 1068, [10:10]
luaTargetAdd = scalar, S16, 1072, "v", 0.5,0
boostOutput = scalar, S16, 1074, "percent", 0.01,0
luaTargetMult = scalar, F32, 1076, "v", 1,0
openLoopPart = scalar, F32, 1080, "v", 1,0
luaOpenLoopAdd = scalar, F32, 1084, "v", 1,0
boostControllerClosedLoopPart = scalar, S08, 1088, "%", 0.5,0
boostControlTarget = scalar, S16, 1090, "kPa", 0.03333333333333333,0
; total TS size = 1092
acButtonState = scalar, S08, 1092, "", 1, 0
m_acEnabled = bits, U32, 1096, [0:0]
engineTooSlow = bits, U32, 1096, [1:1]
engineTooFast = bits, U32, 1096, [2:2]
noClt = bits, U32, 1096, [3:3]
engineTooHot = bits, U32, 1096, [4:4]
tpsTooHigh = bits, U32, 1096, [5:5]
isDisabledByLua = bits, U32, 1096, [6:6]
acCompressorState = bits, U32, 1096, [7:7]
acPressureTooLow = bits, U32, 1096, [8:8]
acPressureTooHigh = bits, U32, 1096, [9:9]
; total TS size = 1100
cranking0 = bits, U32, 1100, [0:0]
notRunning0 = bits, U32, 1100, [1:1]
disabledWhileEngineStopped0 = bits, U32, 1100, [2:2]
brokenClt0 = bits, U32, 1100, [3:3]
enabledForAc0 = bits, U32, 1100, [4:4]
hot0 = bits, U32, 1100, [5:5]
cold0 = bits, U32, 1100, [6:6]
disabledBySpeed0 = bits, U32, 1100, [7:7]
radiatorFanStatus0 = scalar, U08, 1104, "", 1, 0
throttleUseWotModel = bits, U32, 1068, [0:0]
throttleModelCrossoverAngle = scalar, S16, 1072, "%", 0.01, 0
throttleEstimatedFlow = scalar, F32, 1076, "g/s", 1, 0
; total TS size = 1080
m_requested_pump = scalar, F32, 1080, "", 1, 0
fuel_requested_percent = scalar, F32, 1084, "", 1, 0
fuel_requested_percent_pi = scalar, F32, 1088, "", 1, 0
noValve = bits, U32, 1092, [0:0]
angleAboveMin = bits, U32, 1092, [1:1]
isHpfpInactive = bits, U32, 1092, [2:2]
m_pressureTarget_kPa = scalar, F32, 1096, "", 1, 0
nextLobe = scalar, F32, 1100, "", 1, 0
di_nextStart = scalar, F32, 1104, "v", 1, 0
; total TS size = 1108
cranking1 = bits, U32, 1108, [0:0]
notRunning1 = bits, U32, 1108, [1:1]
disabledWhileEngineStopped1 = bits, U32, 1108, [2:2]
brokenClt1 = bits, U32, 1108, [3:3]
enabledForAc1 = bits, U32, 1108, [4:4]
hot1 = bits, U32, 1108, [5:5]
cold1 = bits, U32, 1108, [6:6]
disabledBySpeed1 = bits, U32, 1108, [7:7]
radiatorFanStatus1 = scalar, U08, 1112, "", 1, 0
; total TS size = 1116
isPrime = bits, U32, 1116, [0:0]
engineTurnedRecently = bits, U32, 1116, [1:1]
isFuelPumpOn = bits, U32, 1116, [2:2]
ignitionOn = bits, U32, 1116, [3:3]
m_deadtime = scalar, F32, 1108, "ms", 1, 0
pressureDelta = scalar, F32, 1112, "kPa", 1, 0
pressureRatio = scalar, F32, 1116, "", 1, 0
; total TS size = 1120
isBenchTest = bits, U32, 1120, [0:0]
hasIgnitionVoltage = bits, U32, 1120, [1:1]
mainRelayState = bits, U32, 1120, [2:2]
delayedShutoffRequested = bits, U32, 1120, [3:3]
; total TS size = 1124
lua_fuelAdd = scalar, F32, 1124, "g", 1, 0
lua_fuelMult = scalar, F32, 1128, "", 1, 0
lua_clutchUpState = bits, U32, 1132, [0:0]
lua_brakePedalState = bits, U32, 1132, [1:1]
lua_acRequestState = bits, U32, 1132, [2:2]
lua_luaDisableEtb = bits, U32, 1132, [3:3]
lua_luaIgnCut = bits, U32, 1132, [4:4]
lua_luaFuelCut = bits, U32, 1132, [5:5]
lua_clutchDownState = bits, U32, 1132, [6:6]
lua_disableDecelerationFuelCutOff = bits, U32, 1132, [7:7]
sd_tCharge = scalar, S16, 1136, "deg C", 0.01, 0
sd_tChargeK = scalar, F32, 1140, "", 1, 0
crankingFuel_coolantTemperatureCoefficient = scalar, F32, 1144, "", 1, 0
crankingFuel_tpsCoefficient = scalar, F32, 1148, "", 1, 0
crankingFuel_durationCoefficient = scalar, F32, 1152, "", 1, 0
crankingFuel_fuel = scalar, U16, 1156, "mg", 0.01, 0
baroCorrection = scalar, F32, 1160, "", 1, 0
hellenBoardId = scalar, S16, 1164, "id", 1, 0
clutchUpState = scalar, S08, 1166, "", 1, 0
clutchDownState = scalar, S08, 1167, "", 1, 0
brakePedalState = scalar, S08, 1168, "", 1, 0
startStopState = scalar, S08, 1169, "", 1, 0
smartChipState = scalar, S08, 1170, "", 1, 0
smartChipRestartCounter = scalar, S08, 1171, "", 1, 0
smartChipAliveCounter = scalar, S08, 1172, "", 1, 0
startStopPhysicalState = bits, U32, 1176, [0:0]
acrActive = bits, U32, 1176, [1:1]
acrEngineMovedRecently = bits, U32, 1176, [2:2]
heaterControlEnabled = bits, U32, 1176, [3:3]
luaDigitalState0 = bits, U32, 1176, [4:4]
luaDigitalState1 = bits, U32, 1176, [5:5]
luaDigitalState2 = bits, U32, 1176, [6:6]
luaDigitalState3 = bits, U32, 1176, [7:7]
startStopStateToggleCounter = scalar, U32, 1180, "", 1, 0
luaSoftSparkSkip = scalar, F32, 1184, "", 1, 0
luaHardSparkSkip = scalar, F32, 1188, "", 1, 0
tractionControlSparkSkip = scalar, F32, 1192, "", 1, 0
desiredRpmLimit = scalar, S16, 1196, "rpm", 1, 0
fuelInjectionCounter = scalar, U32, 1200, "", 1, 0
globalSparkCounter = scalar, U32, 1204, "", 1, 0
fuelingLoad = scalar, F32, 1208, "", 1, 0
ignitionLoad = scalar, F32, 1212, "", 1, 0
veTableYAxis = scalar, U16, 1216, "%", 0.01, 0
overDwellCounter = scalar, U08, 1218, "", 1, 0
overDwellNotScheduledCounter = scalar, U08, 1219, "", 1, 0
sparkOutOfOrderCounter = scalar, U08, 1220, "", 1, 0
; total TS size = 1224
tpsFrom = scalar, F32, 1224
tpsTo = scalar, F32, 1228
deltaTps = scalar, F32, 1232
extraFuel = scalar, F32, 1236, "", 1, 0
valueFromTable = scalar, F32, 1240, "", 1, 0
isAboveAccelThreshold = bits, U32, 1244, [0:0]
isBelowDecelThreshold = bits, U32, 1244, [1:1]
isTimeToResetAccumulator = bits, U32, 1244, [2:2]
isFractionalEnrichment = bits, U32, 1244, [3:3]
belowEpsilon = bits, U32, 1244, [4:4]
tooShort = bits, U32, 1244, [5:5]
fractionalInjFuel = scalar, F32, 1248, "", 1, 0
accumulatedValue = scalar, F32, 1252, "", 1, 0
maxExtraPerCycle = scalar, F32, 1256, "", 1, 0
maxExtraPerPeriod = scalar, F32, 1260, "", 1, 0
maxInjectedPerPeriod = scalar, F32, 1264, "", 1, 0
cycleCnt = scalar, S32, 1268, "", 1, 0
; total TS size = 1272
hwEventCounters1 = scalar, U32, 1272, "", 1, 0
hwEventCounters2 = scalar, U32, 1276, "", 1, 0
hwEventCounters3 = scalar, U32, 1280, "", 1, 0
hwEventCounters4 = scalar, U32, 1284, "", 1, 0
hwEventCounters5 = scalar, U32, 1288, "", 1, 0
hwEventCounters6 = scalar, U32, 1292, "", 1, 0
vvtCamCounter = scalar, U32, 1296, "", 1, 0
mapVvt_MAP_AT_SPECIAL_POINT = scalar, F32, 1300, "kPa", 1, 0
mapVvt_MAP_AT_DIFF = scalar, F32, 1304, "kPa", 1, 0
mapVvt_MAP_AT_CYCLE_COUNT = scalar, S08, 1308, "distance", 1, 0
mapVvt_sync_counter = scalar, U08, 1309, "counter", 1, 0
currentEngineDecodedPhase = scalar, F32, 1312, "deg", 1, 0
triggerToothAngleError = scalar, F32, 1316, "deg", 1, 0
triggerIgnoredToothCount = scalar, U08, 1320, "", 1, 0
mapCamPrevToothAngle = scalar, F32, 1324, "deg", 1, 0
isDecodingMapCam = bits, U32, 1328, [0:0]
triggerElapsedUs = scalar, U32, 1332, "", 1, 0
; total TS size = 1336
crankSynchronizationCounter0 = scalar, U32, 1336, "", 1, 0
vvtSyncGapRatio0 = scalar, F32, 1340, "", 1, 0
vvtToothDurations00 = scalar, U32, 1344, "us", 1, 0
vvtCurrentPosition0 = scalar, F32, 1348, "sync: Primary Cam Position", 1, 0
vvtToothPosition10 = scalar, F32, 1352, "sync: Cam Tooth Position", 1, 0
vvtToothPosition20 = scalar, F32, 1356, "sync: Cam Tooth Position", 1, 0
vvtToothPosition30 = scalar, F32, 1360, "sync: Cam Tooth Position", 1, 0
vvtToothPosition40 = scalar, F32, 1364, "sync: Cam Tooth Position", 1, 0
triggerSyncGapRatio0 = scalar, F32, 1368, "", 1, 0
triggerStateIndex0 = scalar, U08, 1372, "", 1, 0
vvtStateIndex0 = scalar, U08, 1373, "", 1, 0
; total TS size = 1376
crankSynchronizationCounter1 = scalar, U32, 1376, "", 1, 0
vvtSyncGapRatio1 = scalar, F32, 1380, "", 1, 0
vvtToothDurations01 = scalar, U32, 1384, "us", 1, 0
vvtCurrentPosition1 = scalar, F32, 1388, "sync: Primary Cam Position", 1, 0
vvtToothPosition11 = scalar, F32, 1392, "sync: Cam Tooth Position", 1, 0
vvtToothPosition21 = scalar, F32, 1396, "sync: Cam Tooth Position", 1, 0
vvtToothPosition31 = scalar, F32, 1400, "sync: Cam Tooth Position", 1, 0
vvtToothPosition41 = scalar, F32, 1404, "sync: Cam Tooth Position", 1, 0
triggerSyncGapRatio1 = scalar, F32, 1408, "", 1, 0
triggerStateIndex1 = scalar, U08, 1412, "", 1, 0
vvtStateIndex1 = scalar, U08, 1413, "", 1, 0
; total TS size = 1416
crankSynchronizationCounter2 = scalar, U32, 1416, "", 1, 0
vvtSyncGapRatio2 = scalar, F32, 1420, "", 1, 0
vvtToothDurations02 = scalar, U32, 1424, "us", 1, 0
vvtCurrentPosition2 = scalar, F32, 1428, "sync: Primary Cam Position", 1, 0
vvtToothPosition12 = scalar, F32, 1432, "sync: Cam Tooth Position", 1, 0
vvtToothPosition22 = scalar, F32, 1436, "sync: Cam Tooth Position", 1, 0
vvtToothPosition32 = scalar, F32, 1440, "sync: Cam Tooth Position", 1, 0
vvtToothPosition42 = scalar, F32, 1444, "sync: Cam Tooth Position", 1, 0
triggerSyncGapRatio2 = scalar, F32, 1448, "", 1, 0
triggerStateIndex2 = scalar, U08, 1452, "", 1, 0
vvtStateIndex2 = scalar, U08, 1453, "", 1, 0
; total TS size = 1456
crankSynchronizationCounter3 = scalar, U32, 1456, "", 1, 0
vvtSyncGapRatio3 = scalar, F32, 1460, "", 1, 0
vvtToothDurations03 = scalar, U32, 1464, "us", 1, 0
vvtCurrentPosition3 = scalar, F32, 1468, "sync: Primary Cam Position", 1, 0
vvtToothPosition13 = scalar, F32, 1472, "sync: Cam Tooth Position", 1, 0
vvtToothPosition23 = scalar, F32, 1476, "sync: Cam Tooth Position", 1, 0
vvtToothPosition33 = scalar, F32, 1480, "sync: Cam Tooth Position", 1, 0
vvtToothPosition43 = scalar, F32, 1484, "sync: Cam Tooth Position", 1, 0
triggerSyncGapRatio3 = scalar, F32, 1488, "", 1, 0
triggerStateIndex3 = scalar, U08, 1492, "", 1, 0
vvtStateIndex3 = scalar, U08, 1493, "", 1, 0
; total TS size = 1496
crankSynchronizationCounter4 = scalar, U32, 1496, "", 1, 0
vvtSyncGapRatio4 = scalar, F32, 1500, "", 1, 0
vvtToothDurations04 = scalar, U32, 1504, "us", 1, 0
vvtCurrentPosition4 = scalar, F32, 1508, "sync: Primary Cam Position", 1, 0
vvtToothPosition14 = scalar, F32, 1512, "sync: Cam Tooth Position", 1, 0
vvtToothPosition24 = scalar, F32, 1516, "sync: Cam Tooth Position", 1, 0
vvtToothPosition34 = scalar, F32, 1520, "sync: Cam Tooth Position", 1, 0
vvtToothPosition44 = scalar, F32, 1524, "sync: Cam Tooth Position", 1, 0
triggerSyncGapRatio4 = scalar, F32, 1528, "", 1, 0
triggerStateIndex4 = scalar, U08, 1532, "", 1, 0
vvtStateIndex4 = scalar, U08, 1533, "", 1, 0
; total TS size = 1536
camResyncCounter = scalar, U08, 1536, "", 1, 0
m_hasSynchronizedPhase = bits, U32, 1540, [0:0]
; total TS size = 1544
wallFuelCorrection = scalar, F32, 1544, "", 1, 0
wallFuel = scalar, F32, 1548, "", 1, 0
; total TS size = 1552
idleState = bits, S32, 1552, [0:2], "not important"
currentIdlePosition = scalar, F32, 1556
baseIdlePosition = scalar, F32, 1560
idleClosedLoop = scalar, F32, 1564
iacByTpsTaper = scalar, F32, 1568
throttlePedalUpState = scalar, S32, 1572, "", 1, 0
mightResetPid = bits, U32, 1576, [0:0]
shouldResetPid = bits, U32, 1576, [1:1]
wasResetPid = bits, U32, 1576, [2:2]
mustResetPid = bits, U32, 1576, [3:3]
isCranking = bits, U32, 1576, [4:4]
isIacTableForCoasting = bits, U32, 1576, [5:5]
notIdling = bits, U32, 1576, [6:6]
needReset = bits, U32, 1576, [7:7]
isInDeadZone = bits, U32, 1576, [8:8]
isBlipping = bits, U32, 1576, [9:9]
useClosedLoop = bits, U32, 1576, [10:10]
badTps = bits, U32, 1576, [11:11]
looksLikeRunning = bits, U32, 1576, [12:12]
looksLikeCoasting = bits, U32, 1576, [13:13]
looksLikeCrankToIdle = bits, U32, 1576, [14:14]
isIdleCoasting = bits, U32, 1576, [15:15]
isIdleClosedLoop = bits, U32, 1576, [16:16]
idleTarget = scalar, S32, 1580, "", 1, 0
targetRpmByClt = scalar, S32, 1584, "", 1, 0
targetRpmAc = scalar, S32, 1588, "", 1, 0
iacByRpmTaper = scalar, F32, 1592
luaAdd = scalar, F32, 1596
; total TS size = 1600
targetWithIdlePosition0 = scalar, F32, 1600, "per", 1,0
trim0 = scalar, F32, 1604, "", 1, 0
luaAdjustment0 = scalar, F32, 1608, "per", 1,0
m_wastegatePosition0 = scalar, F32, 1612, "per", 1,0
etbFeedForward0 = scalar, F32, 1616
etbIntegralError0 = scalar, F32, 1620, "", 1, 0
etbCurrentTarget0 = scalar, F32, 1624, "%", 1, 0
etbCurrentAdjustedTarget0 = scalar, F32, 1628, "%", 1, 0
etbRevLimitActive0 = bits, U32, 1632, [0:0]
jamDetected0 = bits, U32, 1632, [1:1]
etbTpsErrorCounter0 = scalar, U16, 1636, "count", 1,0
etbPpsErrorCounter0 = scalar, U16, 1638, "count", 1,0
etbErrorCode0 = scalar, S08, 1640, "", 1, 0
tcEtbDrop0 = scalar, S08, 1641, "%", 1, 0
jamTimer0 = scalar, U16, 1642, "sec", 0.01, 0
adjustedEtbTarget0 = scalar, S08, 1644, "%", 1, 0
; total TS size = 1648
targetWithIdlePosition1 = scalar, F32, 1648, "per", 1,0
trim1 = scalar, F32, 1652, "", 1, 0
luaAdjustment1 = scalar, F32, 1656, "per", 1,0
m_wastegatePosition1 = scalar, F32, 1660, "per", 1,0
etbFeedForward1 = scalar, F32, 1664
etbIntegralError1 = scalar, F32, 1668, "", 1, 0
etbCurrentTarget1 = scalar, F32, 1672, "%", 1, 0
etbCurrentAdjustedTarget1 = scalar, F32, 1676, "%", 1, 0
etbRevLimitActive1 = bits, U32, 1680, [0:0]
jamDetected1 = bits, U32, 1680, [1:1]
etbTpsErrorCounter1 = scalar, U16, 1684, "count", 1,0
etbPpsErrorCounter1 = scalar, U16, 1686, "count", 1,0
etbErrorCode1 = scalar, S08, 1688, "", 1, 0
tcEtbDrop1 = scalar, S08, 1689, "%", 1, 0
jamTimer1 = scalar, U16, 1690, "sec", 0.01, 0
adjustedEtbTarget1 = scalar, S08, 1692, "%", 1, 0
; total TS size = 1696
faultCode0 = scalar, U08, 1696, "", 1, 0
heaterDuty0 = scalar, U08, 1697, "%", 1, 0
pumpDuty0 = scalar, U08, 1698, "%", 1, 0
tempC0 = scalar, U16, 1700, "C", 1, 0
nernstVoltage0 = scalar, U16, 1702, "V", 0.001, 0
esr0 = scalar, U16, 1704, "ohm", 1, 0
; total TS size = 1708
faultCode1 = scalar, U08, 1708, "", 1, 0
heaterDuty1 = scalar, U08, 1709, "%", 1, 0
pumpDuty1 = scalar, U08, 1710, "%", 1, 0
tempC1 = scalar, U16, 1712, "C", 1, 0
nernstVoltage1 = scalar, U16, 1714, "V", 0.001, 0
esr1 = scalar, U16, 1716, "ohm", 1, 0
; total TS size = 1720
dcOutput0 = scalar, F32, 1720, "per", 1,0
isEnabled0_int = scalar, U08, 1724, "per", 1,0
isEnabled0 = bits, U32, 1728, [0:0]
; total TS size = 1732
value0 = scalar, U16, 1732, "value", 1,0
value1 = scalar, U16, 1734, "value", 1,0
errorRate = scalar, F32, 1736, "ratio", 1,0
; total TS size = 1740
vvtTarget = scalar, U16, 1740, "deg", 0.1, 0
vvtOutput = scalar, U08, 1742, "%", 0.5, 0
; total TS size = 1744
lambdaCurrentlyGood = bits, U32, 1744, [0:0]
lambdaMonitorCut = bits, U32, 1744, [1:1]
lambdaTimeSinceGood = scalar, U16, 1748, "sec", 0.01, 0
; total TS size = 1752
retardThresholdRpm = scalar, S32, 1120, "", 1, 0
launchActivatePinState = bits, U32, 1124, [0:0]
isPreLaunchCondition = bits, U32, 1124, [1:1]
isLaunchCondition = bits, U32, 1124, [2:2]
isSwitchActivated = bits, U32, 1124, [3:3]
isClutchActivated = bits, U32, 1124, [4:4]
isBrakePedalActivated = bits, U32, 1124, [5:5]
isValidInputPin = bits, U32, 1124, [6:6]
activateSwitchCondition = bits, U32, 1124, [7:7]
rpmLaunchCondition = bits, U32, 1124, [8:8]
rpmPreLaunchCondition = bits, U32, 1124, [9:9]
speedCondition = bits, U32, 1124, [10:10]
tpsCondition = bits, U32, 1124, [11:11]
; total TS size = 1128
isTorqueReductionTriggerPinValid = bits, U32, 1128, [0:0]
torqueReductionTriggerPinState = bits, U32, 1128, [1:1]
isTimeConditionSatisfied = bits, U32, 1128, [2:2]
isRpmConditionSatisfied = bits, U32, 1128, [3:3]
isAppConditionSatisfied = bits, U32, 1128, [4:4]
isFlatShiftConditionSatisfied = bits, U32, 1128, [5:5]
; total TS size = 1132
isAntilagCondition = bits, U32, 1132, [0:0]
ALSMinRPMCondition = bits, U32, 1132, [1:1]
ALSMaxRPMCondition = bits, U32, 1132, [2:2]
ALSMinCLTCondition = bits, U32, 1132, [3:3]
ALSMaxCLTCondition = bits, U32, 1132, [4:4]
ALSMaxThrottleIntentCondition = bits, U32, 1132, [5:5]
isALSSwitchActivated = bits, U32, 1132, [6:6]
ALSActivatePinState = bits, U32, 1132, [7:7]
ALSSwitchCondition = bits, U32, 1132, [8:8]
ALSTimerCondition = bits, U32, 1132, [9:9]
fuelALSCorrection = scalar, F32, 1136, "", 1, 0
timingALSCorrection = scalar, S16, 1140, "deg", 0.01, 0
timingALSSkip = scalar, S16, 1142, "deg", 0.01, 0
; total TS size = 1144
isTpsInvalid = bits, U32, 1144, [0:0]
m_shouldResetPid = bits, U32, 1144, [1:1]
isBelowClosedLoopThreshold = bits, U32, 1144, [2:2]
isNotClosedLoop = bits, U32, 1144, [3:3]
isZeroRpm = bits, U32, 1144, [4:4]
hasInitBoost = bits, U32, 1144, [5:5]
rpmTooLow = bits, U32, 1144, [6:6]
tpsTooLow = bits, U32, 1144, [7:7]
mapTooLow = bits, U32, 1144, [8:8]
isPlantValid = bits, U32, 1144, [9:9]
isBoostControlled = bits, U32, 1144, [10:10]
luaTargetAdd = scalar, S16, 1148, "v", 0.5,0
boostOutput = scalar, S16, 1150, "percent", 0.01,0
luaTargetMult = scalar, F32, 1152, "v", 1,0
openLoopPart = scalar, F32, 1156, "v", 1,0
luaOpenLoopAdd = scalar, F32, 1160, "v", 1,0
boostControllerClosedLoopPart = scalar, S08, 1164, "%", 0.5,0
boostControlTarget = scalar, S16, 1166, "kPa", 0.03333333333333333,0
; total TS size = 1168
acButtonState = scalar, S08, 1168, "", 1, 0
m_acEnabled = bits, U32, 1172, [0:0]
engineTooSlow = bits, U32, 1172, [1:1]
engineTooFast = bits, U32, 1172, [2:2]
noClt = bits, U32, 1172, [3:3]
engineTooHot = bits, U32, 1172, [4:4]
tpsTooHigh = bits, U32, 1172, [5:5]
isDisabledByLua = bits, U32, 1172, [6:6]
acCompressorState = bits, U32, 1172, [7:7]
acPressureTooLow = bits, U32, 1172, [8:8]
acPressureTooHigh = bits, U32, 1172, [9:9]
; total TS size = 1176
cranking0 = bits, U32, 1176, [0:0]
notRunning0 = bits, U32, 1176, [1:1]
disabledWhileEngineStopped0 = bits, U32, 1176, [2:2]
brokenClt0 = bits, U32, 1176, [3:3]
enabledForAc0 = bits, U32, 1176, [4:4]
hot0 = bits, U32, 1176, [5:5]
cold0 = bits, U32, 1176, [6:6]
disabledBySpeed0 = bits, U32, 1176, [7:7]
radiatorFanStatus0 = scalar, U08, 1180, "", 1, 0
; total TS size = 1184
cranking1 = bits, U32, 1184, [0:0]
notRunning1 = bits, U32, 1184, [1:1]
disabledWhileEngineStopped1 = bits, U32, 1184, [2:2]
brokenClt1 = bits, U32, 1184, [3:3]
enabledForAc1 = bits, U32, 1184, [4:4]
hot1 = bits, U32, 1184, [5:5]
cold1 = bits, U32, 1184, [6:6]
disabledBySpeed1 = bits, U32, 1184, [7:7]
radiatorFanStatus1 = scalar, U08, 1188, "", 1, 0
; total TS size = 1192
isPrime = bits, U32, 1192, [0:0]
engineTurnedRecently = bits, U32, 1192, [1:1]
isFuelPumpOn = bits, U32, 1192, [2:2]
ignitionOn = bits, U32, 1192, [3:3]
; total TS size = 1196
isBenchTest = bits, U32, 1196, [0:0]
hasIgnitionVoltage = bits, U32, 1196, [1:1]
mainRelayState = bits, U32, 1196, [2:2]
delayedShutoffRequested = bits, U32, 1196, [3:3]
; total TS size = 1200
lua_fuelAdd = scalar, F32, 1200, "g", 1, 0
lua_fuelMult = scalar, F32, 1204, "", 1, 0
lua_clutchUpState = bits, U32, 1208, [0:0]
lua_brakePedalState = bits, U32, 1208, [1:1]
lua_acRequestState = bits, U32, 1208, [2:2]
lua_luaDisableEtb = bits, U32, 1208, [3:3]
lua_luaIgnCut = bits, U32, 1208, [4:4]
lua_luaFuelCut = bits, U32, 1208, [5:5]
lua_clutchDownState = bits, U32, 1208, [6:6]
lua_disableDecelerationFuelCutOff = bits, U32, 1208, [7:7]
sd_tCharge = scalar, S16, 1212, "deg C", 0.01, 0
sd_tChargeK = scalar, F32, 1216, "", 1, 0
crankingFuel_coolantTemperatureCoefficient = scalar, F32, 1220, "", 1, 0
crankingFuel_tpsCoefficient = scalar, F32, 1224, "", 1, 0
crankingFuel_durationCoefficient = scalar, F32, 1228, "", 1, 0
crankingFuel_fuel = scalar, U16, 1232, "mg", 0.01, 0
baroCorrection = scalar, F32, 1236, "", 1, 0
hellenBoardId = scalar, S16, 1240, "id", 1, 0
clutchUpState = scalar, S08, 1242, "", 1, 0
clutchDownState = scalar, S08, 1243, "", 1, 0
brakePedalState = scalar, S08, 1244, "", 1, 0
startStopState = scalar, S08, 1245, "", 1, 0
smartChipState = scalar, S08, 1246, "", 1, 0
smartChipRestartCounter = scalar, S08, 1247, "", 1, 0
smartChipAliveCounter = scalar, S08, 1248, "", 1, 0
startStopPhysicalState = bits, U32, 1252, [0:0]
acrActive = bits, U32, 1252, [1:1]
acrEngineMovedRecently = bits, U32, 1252, [2:2]
heaterControlEnabled = bits, U32, 1252, [3:3]
luaDigitalState0 = bits, U32, 1252, [4:4]
luaDigitalState1 = bits, U32, 1252, [5:5]
luaDigitalState2 = bits, U32, 1252, [6:6]
luaDigitalState3 = bits, U32, 1252, [7:7]
startStopStateToggleCounter = scalar, U32, 1256, "", 1, 0
luaSoftSparkSkip = scalar, F32, 1260, "", 1, 0
luaHardSparkSkip = scalar, F32, 1264, "", 1, 0
tractionControlSparkSkip = scalar, F32, 1268, "", 1, 0
desiredRpmLimit = scalar, S16, 1272, "rpm", 1, 0
fuelInjectionCounter = scalar, U32, 1276, "", 1, 0
globalSparkCounter = scalar, U32, 1280, "", 1, 0
fuelingLoad = scalar, F32, 1284, "", 1, 0
ignitionLoad = scalar, F32, 1288, "", 1, 0
veTableYAxis = scalar, U16, 1292, "%", 0.01, 0
overDwellCounter = scalar, U08, 1294, "", 1, 0
overDwellNotScheduledCounter = scalar, U08, 1295, "", 1, 0
sparkOutOfOrderCounter = scalar, U08, 1296, "", 1, 0
; total TS size = 1300
tpsFrom = scalar, F32, 1300
tpsTo = scalar, F32, 1304
deltaTps = scalar, F32, 1308
extraFuel = scalar, F32, 1312, "", 1, 0
valueFromTable = scalar, F32, 1316, "", 1, 0
isAboveAccelThreshold = bits, U32, 1320, [0:0]
isBelowDecelThreshold = bits, U32, 1320, [1:1]
isTimeToResetAccumulator = bits, U32, 1320, [2:2]
isFractionalEnrichment = bits, U32, 1320, [3:3]
belowEpsilon = bits, U32, 1320, [4:4]
tooShort = bits, U32, 1320, [5:5]
fractionalInjFuel = scalar, F32, 1324, "", 1, 0
accumulatedValue = scalar, F32, 1328, "", 1, 0
maxExtraPerCycle = scalar, F32, 1332, "", 1, 0
maxExtraPerPeriod = scalar, F32, 1336, "", 1, 0
maxInjectedPerPeriod = scalar, F32, 1340, "", 1, 0
cycleCnt = scalar, S32, 1344, "", 1, 0
; total TS size = 1348
hwEventCounters1 = scalar, U32, 1348, "", 1, 0
hwEventCounters2 = scalar, U32, 1352, "", 1, 0
hwEventCounters3 = scalar, U32, 1356, "", 1, 0
hwEventCounters4 = scalar, U32, 1360, "", 1, 0
hwEventCounters5 = scalar, U32, 1364, "", 1, 0
hwEventCounters6 = scalar, U32, 1368, "", 1, 0
vvtCamCounter = scalar, U32, 1372, "", 1, 0
mapVvt_MAP_AT_SPECIAL_POINT = scalar, F32, 1376, "kPa", 1, 0
mapVvt_MAP_AT_DIFF = scalar, F32, 1380, "kPa", 1, 0
mapVvt_MAP_AT_CYCLE_COUNT = scalar, S08, 1384, "distance", 1, 0
mapVvt_sync_counter = scalar, U08, 1385, "counter", 1, 0
currentEngineDecodedPhase = scalar, F32, 1388, "deg", 1, 0
triggerToothAngleError = scalar, F32, 1392, "deg", 1, 0
triggerIgnoredToothCount = scalar, U08, 1396, "", 1, 0
mapCamPrevToothAngle = scalar, F32, 1400, "deg", 1, 0
isDecodingMapCam = bits, U32, 1404, [0:0]
triggerElapsedUs = scalar, U32, 1408, "", 1, 0
; total TS size = 1412
crankSynchronizationCounter0 = scalar, U32, 1412, "", 1, 0
vvtSyncGapRatio0 = scalar, F32, 1416, "", 1, 0
vvtToothDurations00 = scalar, U32, 1420, "us", 1, 0
vvtCurrentPosition0 = scalar, F32, 1424, "sync: Primary Cam Position", 1, 0
vvtToothPosition10 = scalar, F32, 1428, "sync: Cam Tooth Position", 1, 0
vvtToothPosition20 = scalar, F32, 1432, "sync: Cam Tooth Position", 1, 0
vvtToothPosition30 = scalar, F32, 1436, "sync: Cam Tooth Position", 1, 0
vvtToothPosition40 = scalar, F32, 1440, "sync: Cam Tooth Position", 1, 0
triggerSyncGapRatio0 = scalar, F32, 1444, "", 1, 0
triggerStateIndex0 = scalar, U08, 1448, "", 1, 0
vvtStateIndex0 = scalar, U08, 1449, "", 1, 0
; total TS size = 1452
crankSynchronizationCounter1 = scalar, U32, 1452, "", 1, 0
vvtSyncGapRatio1 = scalar, F32, 1456, "", 1, 0
vvtToothDurations01 = scalar, U32, 1460, "us", 1, 0
vvtCurrentPosition1 = scalar, F32, 1464, "sync: Primary Cam Position", 1, 0
vvtToothPosition11 = scalar, F32, 1468, "sync: Cam Tooth Position", 1, 0
vvtToothPosition21 = scalar, F32, 1472, "sync: Cam Tooth Position", 1, 0
vvtToothPosition31 = scalar, F32, 1476, "sync: Cam Tooth Position", 1, 0
vvtToothPosition41 = scalar, F32, 1480, "sync: Cam Tooth Position", 1, 0
triggerSyncGapRatio1 = scalar, F32, 1484, "", 1, 0
triggerStateIndex1 = scalar, U08, 1488, "", 1, 0
vvtStateIndex1 = scalar, U08, 1489, "", 1, 0
; total TS size = 1492
crankSynchronizationCounter2 = scalar, U32, 1492, "", 1, 0
vvtSyncGapRatio2 = scalar, F32, 1496, "", 1, 0
vvtToothDurations02 = scalar, U32, 1500, "us", 1, 0
vvtCurrentPosition2 = scalar, F32, 1504, "sync: Primary Cam Position", 1, 0
vvtToothPosition12 = scalar, F32, 1508, "sync: Cam Tooth Position", 1, 0
vvtToothPosition22 = scalar, F32, 1512, "sync: Cam Tooth Position", 1, 0
vvtToothPosition32 = scalar, F32, 1516, "sync: Cam Tooth Position", 1, 0
vvtToothPosition42 = scalar, F32, 1520, "sync: Cam Tooth Position", 1, 0
triggerSyncGapRatio2 = scalar, F32, 1524, "", 1, 0
triggerStateIndex2 = scalar, U08, 1528, "", 1, 0
vvtStateIndex2 = scalar, U08, 1529, "", 1, 0
; total TS size = 1532
crankSynchronizationCounter3 = scalar, U32, 1532, "", 1, 0
vvtSyncGapRatio3 = scalar, F32, 1536, "", 1, 0
vvtToothDurations03 = scalar, U32, 1540, "us", 1, 0
vvtCurrentPosition3 = scalar, F32, 1544, "sync: Primary Cam Position", 1, 0
vvtToothPosition13 = scalar, F32, 1548, "sync: Cam Tooth Position", 1, 0
vvtToothPosition23 = scalar, F32, 1552, "sync: Cam Tooth Position", 1, 0
vvtToothPosition33 = scalar, F32, 1556, "sync: Cam Tooth Position", 1, 0
vvtToothPosition43 = scalar, F32, 1560, "sync: Cam Tooth Position", 1, 0
triggerSyncGapRatio3 = scalar, F32, 1564, "", 1, 0
triggerStateIndex3 = scalar, U08, 1568, "", 1, 0
vvtStateIndex3 = scalar, U08, 1569, "", 1, 0
; total TS size = 1572
crankSynchronizationCounter4 = scalar, U32, 1572, "", 1, 0
vvtSyncGapRatio4 = scalar, F32, 1576, "", 1, 0
vvtToothDurations04 = scalar, U32, 1580, "us", 1, 0
vvtCurrentPosition4 = scalar, F32, 1584, "sync: Primary Cam Position", 1, 0
vvtToothPosition14 = scalar, F32, 1588, "sync: Cam Tooth Position", 1, 0
vvtToothPosition24 = scalar, F32, 1592, "sync: Cam Tooth Position", 1, 0
vvtToothPosition34 = scalar, F32, 1596, "sync: Cam Tooth Position", 1, 0
vvtToothPosition44 = scalar, F32, 1600, "sync: Cam Tooth Position", 1, 0
triggerSyncGapRatio4 = scalar, F32, 1604, "", 1, 0
triggerStateIndex4 = scalar, U08, 1608, "", 1, 0
vvtStateIndex4 = scalar, U08, 1609, "", 1, 0
; total TS size = 1612
camResyncCounter = scalar, U08, 1612, "", 1, 0
m_hasSynchronizedPhase = bits, U32, 1616, [0:0]
; total TS size = 1620
wallFuelCorrection = scalar, F32, 1620, "", 1, 0
wallFuel = scalar, F32, 1624, "", 1, 0
; total TS size = 1628
idleState = bits, S32, 1628, [0:2], "not important"
currentIdlePosition = scalar, F32, 1632
baseIdlePosition = scalar, F32, 1636
idleClosedLoop = scalar, F32, 1640
iacByTpsTaper = scalar, F32, 1644
throttlePedalUpState = scalar, S32, 1648, "", 1, 0
mightResetPid = bits, U32, 1652, [0:0]
shouldResetPid = bits, U32, 1652, [1:1]
wasResetPid = bits, U32, 1652, [2:2]
mustResetPid = bits, U32, 1652, [3:3]
isCranking = bits, U32, 1652, [4:4]
isIacTableForCoasting = bits, U32, 1652, [5:5]
notIdling = bits, U32, 1652, [6:6]
needReset = bits, U32, 1652, [7:7]
isInDeadZone = bits, U32, 1652, [8:8]
isBlipping = bits, U32, 1652, [9:9]
useClosedLoop = bits, U32, 1652, [10:10]
badTps = bits, U32, 1652, [11:11]
looksLikeRunning = bits, U32, 1652, [12:12]
looksLikeCoasting = bits, U32, 1652, [13:13]
looksLikeCrankToIdle = bits, U32, 1652, [14:14]
isIdleCoasting = bits, U32, 1652, [15:15]
isIdleClosedLoop = bits, U32, 1652, [16:16]
idleTarget = scalar, S32, 1656, "", 1, 0
targetRpmByClt = scalar, S32, 1660, "", 1, 0
targetRpmAc = scalar, S32, 1664, "", 1, 0
iacByRpmTaper = scalar, F32, 1668
luaAdd = scalar, F32, 1672
; total TS size = 1676
targetWithIdlePosition0 = scalar, F32, 1676, "per", 1,0
trim0 = scalar, F32, 1680, "", 1, 0
luaAdjustment0 = scalar, F32, 1684, "per", 1,0
m_wastegatePosition0 = scalar, F32, 1688, "per", 1,0
etbFeedForward0 = scalar, F32, 1692
etbIntegralError0 = scalar, F32, 1696, "", 1, 0
etbCurrentTarget0 = scalar, F32, 1700, "%", 1, 0
etbCurrentAdjustedTarget0 = scalar, F32, 1704, "%", 1, 0
etbRevLimitActive0 = bits, U32, 1708, [0:0]
jamDetected0 = bits, U32, 1708, [1:1]
etbTpsErrorCounter0 = scalar, U16, 1712, "count", 1,0
etbPpsErrorCounter0 = scalar, U16, 1714, "count", 1,0
etbErrorCode0 = scalar, S08, 1716, "", 1, 0
tcEtbDrop0 = scalar, S08, 1717, "%", 1, 0
jamTimer0 = scalar, U16, 1718, "sec", 0.01, 0
adjustedEtbTarget0 = scalar, S08, 1720, "%", 1, 0
; total TS size = 1724
targetWithIdlePosition1 = scalar, F32, 1724, "per", 1,0
trim1 = scalar, F32, 1728, "", 1, 0
luaAdjustment1 = scalar, F32, 1732, "per", 1,0
m_wastegatePosition1 = scalar, F32, 1736, "per", 1,0
etbFeedForward1 = scalar, F32, 1740
etbIntegralError1 = scalar, F32, 1744, "", 1, 0
etbCurrentTarget1 = scalar, F32, 1748, "%", 1, 0
etbCurrentAdjustedTarget1 = scalar, F32, 1752, "%", 1, 0
etbRevLimitActive1 = bits, U32, 1756, [0:0]
jamDetected1 = bits, U32, 1756, [1:1]
etbTpsErrorCounter1 = scalar, U16, 1760, "count", 1,0
etbPpsErrorCounter1 = scalar, U16, 1762, "count", 1,0
etbErrorCode1 = scalar, S08, 1764, "", 1, 0
tcEtbDrop1 = scalar, S08, 1765, "%", 1, 0
jamTimer1 = scalar, U16, 1766, "sec", 0.01, 0
adjustedEtbTarget1 = scalar, S08, 1768, "%", 1, 0
; total TS size = 1772
faultCode0 = scalar, U08, 1772, "", 1, 0
heaterDuty0 = scalar, U08, 1773, "%", 1, 0
pumpDuty0 = scalar, U08, 1774, "%", 1, 0
tempC0 = scalar, U16, 1776, "C", 1, 0
nernstVoltage0 = scalar, U16, 1778, "V", 0.001, 0
esr0 = scalar, U16, 1780, "ohm", 1, 0
; total TS size = 1784
faultCode1 = scalar, U08, 1784, "", 1, 0
heaterDuty1 = scalar, U08, 1785, "%", 1, 0
pumpDuty1 = scalar, U08, 1786, "%", 1, 0
tempC1 = scalar, U16, 1788, "C", 1, 0
nernstVoltage1 = scalar, U16, 1790, "V", 0.001, 0
esr1 = scalar, U16, 1792, "ohm", 1, 0
; total TS size = 1796
dcOutput0 = scalar, F32, 1796, "per", 1,0
isEnabled0_int = scalar, U08, 1800, "per", 1,0
isEnabled0 = bits, U32, 1804, [0:0]
; total TS size = 1808
value0 = scalar, U16, 1808, "value", 1,0
value1 = scalar, U16, 1810, "value", 1,0
errorRate = scalar, F32, 1812, "ratio", 1,0
; total TS size = 1816
vvtTarget = scalar, U16, 1816, "deg", 0.1, 0
vvtOutput = scalar, U08, 1818, "%", 0.5, 0
; total TS size = 1820
lambdaCurrentlyGood = bits, U32, 1820, [0:0]
lambdaMonitorCut = bits, U32, 1820, [1:1]
lambdaTimeSinceGood = scalar, U16, 1824, "sec", 0.01, 0
; total TS size = 1828

474
firmware/console/binary/generated/sensors.java
View File

@ -417,230 +417,250 @@ m_knockThreshold("Knock: Threshold", SensorCategory.SENSOR_INPUTS, FieldType.INT
m_knockCount("Knock: Count", SensorCategory.SENSOR_INPUTS, FieldType.INT, 964, 1.0, 0.0, 0.0, ""),
m_maximumRetard("Knock: Max retard", SensorCategory.SENSOR_INPUTS, FieldType.INT, 968, 1.0, -1.0, -1.0, ""),
m_knockFrequency("knock: frequency", SensorCategory.SENSOR_INPUTS, FieldType.INT, 972, 1.0, 0.0, 0.0, "Hz"),
tcuCurrentGear("TCU: Current Gear", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 976, 1.0, -1.0, 10.0, "gear"),
alignmentFill_at_1("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 977, 1.0, -20.0, 100.0, "units"),
tcRatio("TCU: Torque Converter Ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 978, 0.01, 0.0, 0.0, "value"),
lastShiftTime("lastShiftTime", SensorCategory.SENSOR_INPUTS, FieldType.INT, 980, 1.0, -1.0, -1.0, ""),
tcu_currentRange("TCU: Current Range", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 984, 1.0, 0.0, 0.0, ""),
pressureControlDuty("TCU: EPC Duty", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 985, 1.0, 0.0, 100.0, "%"),
torqueConverterDuty("TCU: TC Duty", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 986, 1.0, 0.0, 100.0, "%"),
alignmentFill_at_11("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 987, 1.0, -20.0, 100.0, "units"),
throttleModelCrossoverAngle("Air: Throttle crossover pos", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 996, 0.01, 0.0, 100.0, "%"),
alignmentFill_at_6("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 998, 1.0, -20.0, 100.0, "units"),
throttleEstimatedFlow("Air: Throttle flow estimate", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1000, 1.0, 0.0, 5.0, "g/s"),
m_requested_pump("GDI: HPFP duration\nComputed requested pump duration in degrees (not including deadtime)", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1004, 1.0, -1.0, -1.0, ""),
fuel_requested_percent("GDI: requested_percent", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1008, 1.0, -1.0, -1.0, ""),
fuel_requested_percent_pi("GDI: percent_pi", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1012, 1.0, -1.0, -1.0, ""),
m_pressureTarget_kPa("GDI: target pressure", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1020, 1.0, -1.0, -1.0, ""),
nextLobe("GDI: nextLobe", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1024, 1.0, -1.0, -1.0, ""),
di_nextStart("GDI: next start", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1028, 1.0, 0.0, 100.0, "v"),
m_deadtime("Fuel: injector lag", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1032, 1.0, 0.0, 0.0, "ms"),
pressureDelta("Fuel: Injector pressure delta", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1036, 1.0, -1000.0, 1000.0, "kPa"),
pressureRatio("Fuel: Injector pressure ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1040, 1.0, 0.0, 100.0, ""),
retardThresholdRpm("retardThresholdRpm", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1044, 1.0, -1.0, -1.0, ""),
fuelALSCorrection("fuelALSCorrection", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1060, 1.0, -1.0, -1.0, ""),
timingALSCorrection("timingALSCorrection", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1064, 0.01, -20.0, 20.0, "deg"),
timingALSSkip("timingALSSkip", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1066, 0.01, 0.0, 50.0, "deg"),
luaTargetAdd("Boost: Lua target add", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1072, 0.5, -100.0, 100.0, "v"),
boostOutput("Boost: Output", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1074, 0.01, -100.0, 100.0, "percent"),
luaTargetMult("Boost: Lua target mult", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1076, 1.0, -100.0, 100.0, "v"),
openLoopPart("Boost: Open loop", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1080, 1.0, -100.0, 100.0, "v"),
luaOpenLoopAdd("Boost: Lua open loop add", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1084, 1.0, -100.0, 100.0, "v"),
boostControllerClosedLoopPart("Boost: Closed loop", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1088, 0.5, -50.0, 50.0, "%"),
alignmentFill_at_21("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1089, 1.0, -20.0, 100.0, "units"),
boostControlTarget("Boost: Target", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1090, 0.03333333333333333, 0.0, 300.0, "kPa"),
acButtonState("AC switch", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1092, 1.0, -1.0, -1.0, ""),
alignmentFill_at_1("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1093, 1.0, -20.0, 100.0, "units"),
radiatorFanStatus("radiatorFanStatus", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1104, 1.0, -1.0, -1.0, ""),
alignmentFill_at_5("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1105, 1.0, -20.0, 100.0, "units"),
radiatorFanStatus("radiatorFanStatus", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1104, 1.0, -1.0, -1.0, ""),
alignmentFill_at_5("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1105, 1.0, -20.0, 100.0, "units"),
lua("lua", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1124, 1.0, -1.0, -1.0, ""),
sd("sd", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1136, 1.0, -1.0, -1.0, ""),
crankingFuel("crankingFuel", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1144, 1.0, -1.0, -1.0, ""),
baroCorrection("Fuel: Barometric pressure mult", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1160, 1.0, -1.0, -1.0, ""),
hellenBoardId("Detected Board ID", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1164, 1.0, 0.0, 3000.0, "id"),
clutchUpState("Clutch: up", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1166, 1.0, -1.0, -1.0, ""),
clutchDownState("Clutch: down", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1167, 1.0, -1.0, -1.0, ""),
brakePedalState("Brake switch", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1168, 1.0, -1.0, -1.0, ""),
startStopState("startStopState", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1169, 1.0, -1.0, -1.0, ""),
smartChipState("smartChipState", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1170, 1.0, -1.0, -1.0, ""),
smartChipRestartCounter("smartChipRestartCounter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1171, 1.0, -1.0, -1.0, ""),
smartChipAliveCounter("smartChipAliveCounter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1172, 1.0, -1.0, -1.0, ""),
alignmentFill_at_49("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1173, 1.0, -20.0, 100.0, "units"),
startStopStateToggleCounter("startStopStateToggleCounter", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1180, 1.0, -1.0, -1.0, ""),
luaSoftSparkSkip("luaSoftSparkSkip", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1184, 1.0, -1.0, -1.0, ""),
luaHardSparkSkip("luaHardSparkSkip", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1188, 1.0, -1.0, -1.0, ""),
tractionControlSparkSkip("tractionControlSparkSkip", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1192, 1.0, -1.0, -1.0, ""),
desiredRpmLimit("User-defined RPM hard limit", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1196, 1.0, 0.0, 30000.0, "rpm"),
alignmentFill_at_74("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1198, 1.0, -20.0, 100.0, "units"),
fuelInjectionCounter("Fuel: Injection counter", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1200, 1.0, -1.0, -1.0, ""),
globalSparkCounter("Ign: Spark counter", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1204, 1.0, -1.0, -1.0, ""),
fuelingLoad("Fuel: Load", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1208, 1.0, -1.0, -1.0, ""),
ignitionLoad("Ignition: load", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1212, 1.0, -1.0, -1.0, ""),
veTableYAxis("veTableYAxis", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1216, 0.01, 0.0, 0.0, "%"),
overDwellCounter("overDwellCounter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1218, 1.0, -1.0, -1.0, ""),
overDwellNotScheduledCounter("overDwellNotScheduledCounter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1219, 1.0, -1.0, -1.0, ""),
sparkOutOfOrderCounter("sparkOutOfOrderCounter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1220, 1.0, -1.0, -1.0, ""),
alignmentFill_at_97("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1221, 1.0, -20.0, 100.0, "units"),
tpsFrom("Fuel: TPS AE from", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1224, 1.0, -1.0, -1.0, ""),
tpsTo("Fuel: TPS AE to", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1228, 1.0, -1.0, -1.0, ""),
deltaTps("Fuel: TPS AE change", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1232, 1.0, -1.0, -1.0, ""),
extraFuel("extraFuel", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1236, 1.0, -1.0, -1.0, ""),
valueFromTable("valueFromTable", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1240, 1.0, -1.0, -1.0, ""),
fractionalInjFuel("fractionalInjFuel", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1248, 1.0, -1.0, -1.0, ""),
accumulatedValue("accumulatedValue", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1252, 1.0, -1.0, -1.0, ""),
maxExtraPerCycle("maxExtraPerCycle", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1256, 1.0, -1.0, -1.0, ""),
maxExtraPerPeriod("maxExtraPerPeriod", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1260, 1.0, -1.0, -1.0, ""),
maxInjectedPerPeriod("maxInjectedPerPeriod", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1264, 1.0, -1.0, -1.0, ""),
cycleCnt("cycleCnt", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1268, 1.0, -1.0, -1.0, ""),
hwEventCounters1("Hardware events since boot 1", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1272, 1.0, -1.0, -1.0, ""),
hwEventCounters2("Hardware events since boot 2", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1276, 1.0, -1.0, -1.0, ""),
hwEventCounters3("Hardware events since boot 3", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1280, 1.0, -1.0, -1.0, ""),
hwEventCounters4("Hardware events since boot 4", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1284, 1.0, -1.0, -1.0, ""),
hwEventCounters5("Hardware events since boot 5", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1288, 1.0, -1.0, -1.0, ""),
hwEventCounters6("Hardware events since boot 6", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1292, 1.0, -1.0, -1.0, ""),
vvtCamCounter("Sync: total cams front counter", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1296, 1.0, -1.0, -1.0, ""),
mapVvt_MAP_AT_SPECIAL_POINT("InstantMAP at readout angle", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1300, 1.0, -300.0, 300.0, "kPa"),
mapVvt_MAP_AT_DIFF("InstantMAP delta @ readout angles", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1304, 1.0, -300.0, 300.0, "kPa"),
mapVvt_MAP_AT_CYCLE_COUNT("mapVvt_MAP_AT_CYCLE_COUNT", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1308, 1.0, -10.0, 100.0, "distance"),
mapVvt_sync_counter("Instant MAP sync counter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1309, 1.0, 0.0, 10000.0, "counter"),
alignmentFill_at_38("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1310, 1.0, -20.0, 100.0, "units"),
currentEngineDecodedPhase("Sync: Engine Phase", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1312, 1.0, 0.0, 0.0, "deg"),
triggerToothAngleError("Sync: trigger angle error", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1316, 1.0, -30.0, 30.0, "deg"),
triggerIgnoredToothCount("triggerIgnoredToothCount", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1320, 1.0, -1.0, -1.0, ""),
alignmentFill_at_49("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1321, 1.0, -20.0, 100.0, "units"),
mapCamPrevToothAngle("Sync: MAP: prev angle", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1324, 1.0, -3000.0, 3000.0, "deg"),
triggerElapsedUs("triggerElapsedUs", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1332, 1.0, -1.0, -1.0, ""),
crankSynchronizationCounter("sync: Crank sync counter\nUsually matches crank revolutions", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1336, 1.0, -1.0, -1.0, ""),
vvtSyncGapRatio("vvtSyncGapRatio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1340, 1.0, -10000.0, 10000.0, ""),
vvtToothDurations0("vvtToothDurations0", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1344, 1.0, 0.0, 100000.0, "us"),
vvtCurrentPosition("vvtCurrentPosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1348, 1.0, -10000.0, 10000.0, "sync: Primary Cam Position"),
vvtToothPosition1("vvtToothPosition 1", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1352, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition2("vvtToothPosition 2", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1356, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition3("vvtToothPosition 3", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1360, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition4("vvtToothPosition 4", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1364, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
triggerSyncGapRatio("Trigger Sync Latest Ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1368, 1.0, -10000.0, 10000.0, ""),
triggerStateIndex("triggerStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1372, 1.0, -1.0, -1.0, ""),
vvtStateIndex("vvtStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1373, 1.0, -1.0, -1.0, ""),
alignmentFill_at_38("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1374, 1.0, -20.0, 100.0, "units"),
crankSynchronizationCounter("sync: Crank sync counter\nUsually matches crank revolutions", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1336, 1.0, -1.0, -1.0, ""),
vvtSyncGapRatio("vvtSyncGapRatio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1340, 1.0, -10000.0, 10000.0, ""),
vvtToothDurations0("vvtToothDurations0", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1344, 1.0, 0.0, 100000.0, "us"),
vvtCurrentPosition("vvtCurrentPosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1348, 1.0, -10000.0, 10000.0, "sync: Primary Cam Position"),
vvtToothPosition1("vvtToothPosition 1", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1352, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition2("vvtToothPosition 2", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1356, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition3("vvtToothPosition 3", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1360, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition4("vvtToothPosition 4", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1364, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
triggerSyncGapRatio("Trigger Sync Latest Ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1368, 1.0, -10000.0, 10000.0, ""),
triggerStateIndex("triggerStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1372, 1.0, -1.0, -1.0, ""),
vvtStateIndex("vvtStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1373, 1.0, -1.0, -1.0, ""),
alignmentFill_at_38("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1374, 1.0, -20.0, 100.0, "units"),
crankSynchronizationCounter("sync: Crank sync counter\nUsually matches crank revolutions", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1336, 1.0, -1.0, -1.0, ""),
vvtSyncGapRatio("vvtSyncGapRatio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1340, 1.0, -10000.0, 10000.0, ""),
vvtToothDurations0("vvtToothDurations0", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1344, 1.0, 0.0, 100000.0, "us"),
vvtCurrentPosition("vvtCurrentPosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1348, 1.0, -10000.0, 10000.0, "sync: Primary Cam Position"),
vvtToothPosition1("vvtToothPosition 1", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1352, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition2("vvtToothPosition 2", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1356, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition3("vvtToothPosition 3", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1360, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition4("vvtToothPosition 4", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1364, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
triggerSyncGapRatio("Trigger Sync Latest Ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1368, 1.0, -10000.0, 10000.0, ""),
triggerStateIndex("triggerStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1372, 1.0, -1.0, -1.0, ""),
vvtStateIndex("vvtStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1373, 1.0, -1.0, -1.0, ""),
alignmentFill_at_38("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1374, 1.0, -20.0, 100.0, "units"),
crankSynchronizationCounter("sync: Crank sync counter\nUsually matches crank revolutions", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1336, 1.0, -1.0, -1.0, ""),
vvtSyncGapRatio("vvtSyncGapRatio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1340, 1.0, -10000.0, 10000.0, ""),
vvtToothDurations0("vvtToothDurations0", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1344, 1.0, 0.0, 100000.0, "us"),
vvtCurrentPosition("vvtCurrentPosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1348, 1.0, -10000.0, 10000.0, "sync: Primary Cam Position"),
vvtToothPosition1("vvtToothPosition 1", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1352, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition2("vvtToothPosition 2", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1356, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition3("vvtToothPosition 3", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1360, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition4("vvtToothPosition 4", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1364, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
triggerSyncGapRatio("Trigger Sync Latest Ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1368, 1.0, -10000.0, 10000.0, ""),
triggerStateIndex("triggerStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1372, 1.0, -1.0, -1.0, ""),
vvtStateIndex("vvtStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1373, 1.0, -1.0, -1.0, ""),
alignmentFill_at_38("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1374, 1.0, -20.0, 100.0, "units"),
crankSynchronizationCounter("sync: Crank sync counter\nUsually matches crank revolutions", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1336, 1.0, -1.0, -1.0, ""),
vvtSyncGapRatio("vvtSyncGapRatio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1340, 1.0, -10000.0, 10000.0, ""),
vvtToothDurations0("vvtToothDurations0", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1344, 1.0, 0.0, 100000.0, "us"),
vvtCurrentPosition("vvtCurrentPosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1348, 1.0, -10000.0, 10000.0, "sync: Primary Cam Position"),
vvtToothPosition1("vvtToothPosition 1", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1352, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition2("vvtToothPosition 2", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1356, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition3("vvtToothPosition 3", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1360, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition4("vvtToothPosition 4", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1364, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
triggerSyncGapRatio("Trigger Sync Latest Ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1368, 1.0, -10000.0, 10000.0, ""),
triggerStateIndex("triggerStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1372, 1.0, -1.0, -1.0, ""),
vvtStateIndex("vvtStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1373, 1.0, -1.0, -1.0, ""),
alignmentFill_at_38("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1374, 1.0, -20.0, 100.0, "units"),
camResyncCounter("sync: Phase Re-Sync Counter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1536, 1.0, -1.0, -1.0, ""),
alignmentFill_at_1("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1537, 1.0, -20.0, 100.0, "units"),
wallFuelCorrection("fuel wallwetting injection time\n correction to account for wall wetting effect for current cycle", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1544, 1.0, -1.0, -1.0, ""),
wallFuel("Fuel on the wall\nin ms of injector open time for each injector.", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1548, 1.0, -1.0, -1.0, ""),
idleState("idleState", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1552, 1.0, -1.0, -1.0, ""),
currentIdlePosition("Idle: Position", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1556, 1.0, 0.0, 0.0, "%"),
baseIdlePosition("idle: base value\ncurrent position without adjustments (iacByTpsTaper, afterCrankingIACtaperDuration)", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1560, 1.0, -1.0, -1.0, ""),
idleClosedLoop("Idle: Closed loop", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1564, 1.0, -1.0, -1.0, ""),
iacByTpsTaper("idle: iacByTpsTaper portion", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1568, 1.0, -1.0, -1.0, ""),
throttlePedalUpState("idle: throttlePedalUpState\ntrue in IDLE throttle pedal state, false if driver is touching the pedal\ntodo: better name for this field?", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1572, 1.0, -1.0, -1.0, ""),
idleTarget("Idle: Target RPM", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1580, 1.0, -1.0, -1.0, ""),
targetRpmByClt("Idle: Target RPM base", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1584, 1.0, -1.0, -1.0, ""),
targetRpmAc("Idle: Target A/C RPM", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1588, 1.0, -1.0, -1.0, ""),
iacByRpmTaper("idle: iacByRpmTaper portion", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1592, 1.0, -1.0, -1.0, ""),
luaAdd("idle: Lua Adder", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1596, 1.0, -1.0, -1.0, ""),
targetWithIdlePosition("ETB: target with idle", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1600, 1.0, 0.0, 10.0, "per"),
trim("ETB: trim", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1604, 1.0, -1.0, -1.0, ""),
luaAdjustment("ETB: luaAdjustment", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1608, 1.0, 0.0, 3.0, "per"),
m_wastegatePosition("DC: wastegatePosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1612, 1.0, 0.0, 3.0, "per"),
etbFeedForward("etbFeedForward", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1616, 1.0, -1.0, -1.0, ""),
etbIntegralError("etbIntegralError", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1620, 1.0, -10000.0, 10000.0, ""),
etbCurrentTarget("ETB: target for current pedal", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1624, 1.0, -10000.0, 10000.0, "%"),
etbCurrentAdjustedTarget("etbCurrentAdjustedTarget", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1628, 1.0, -10000.0, 10000.0, "%"),
etbTpsErrorCounter("ETB TPS error counter", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1636, 1.0, 0.0, 3.0, "count"),
etbPpsErrorCounter("ETB pedal error counter", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1638, 1.0, 0.0, 3.0, "count"),
etbErrorCode("etbErrorCode", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1640, 1.0, -1.0, -1.0, ""),
tcEtbDrop("ETB traction control", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1641, 1.0, 0.0, 100.0, "%"),
jamTimer("ETB jam timer", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1642, 0.01, 0.0, 100.0, "sec"),
adjustedEtbTarget("ETB with adjustments", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1644, 1.0, 0.0, 100.0, "%"),
alignmentFill_at_45("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1645, 1.0, -20.0, 100.0, "units"),
targetWithIdlePosition("ETB: target with idle", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1600, 1.0, 0.0, 10.0, "per"),
trim("ETB: trim", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1604, 1.0, -1.0, -1.0, ""),
luaAdjustment("ETB: luaAdjustment", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1608, 1.0, 0.0, 3.0, "per"),
m_wastegatePosition("DC: wastegatePosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1612, 1.0, 0.0, 3.0, "per"),
etbFeedForward("etbFeedForward", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1616, 1.0, -1.0, -1.0, ""),
etbIntegralError("etbIntegralError", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1620, 1.0, -10000.0, 10000.0, ""),
etbCurrentTarget("ETB: target for current pedal", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1624, 1.0, -10000.0, 10000.0, "%"),
etbCurrentAdjustedTarget("etbCurrentAdjustedTarget", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1628, 1.0, -10000.0, 10000.0, "%"),
etbTpsErrorCounter("ETB TPS error counter", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1636, 1.0, 0.0, 3.0, "count"),
etbPpsErrorCounter("ETB pedal error counter", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1638, 1.0, 0.0, 3.0, "count"),
etbErrorCode("etbErrorCode", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1640, 1.0, -1.0, -1.0, ""),
tcEtbDrop("ETB traction control", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1641, 1.0, 0.0, 100.0, "%"),
jamTimer("ETB jam timer", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1642, 0.01, 0.0, 100.0, "sec"),
adjustedEtbTarget("ETB with adjustments", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1644, 1.0, 0.0, 100.0, "%"),
alignmentFill_at_45("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1645, 1.0, -20.0, 100.0, "units"),
faultCode("WBO: Fault code", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1696, 1.0, -1.0, -1.0, ""),
heaterDuty("WBO: Heater duty", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1697, 1.0, 0.0, 100.0, "%"),
pumpDuty("WBO: Pump duty", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1698, 1.0, 0.0, 100.0, "%"),
alignmentFill_at_3("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1699, 1.0, -20.0, 100.0, "units"),
tempC("WBO: Temperature", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1700, 1.0, 500.0, 1000.0, "C"),
nernstVoltage("WBO: Nernst Voltage", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1702, 0.001, 0.0, 1.0, "V"),
esr("WBO: ESR", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1704, 1.0, 0.0, 10000.0, "ohm"),
alignmentFill_at_10("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1706, 1.0, -20.0, 100.0, "units"),
faultCode("WBO: Fault code", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1696, 1.0, -1.0, -1.0, ""),
heaterDuty("WBO: Heater duty", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1697, 1.0, 0.0, 100.0, "%"),
pumpDuty("WBO: Pump duty", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1698, 1.0, 0.0, 100.0, "%"),
alignmentFill_at_3("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1699, 1.0, -20.0, 100.0, "units"),
tempC("WBO: Temperature", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1700, 1.0, 500.0, 1000.0, "C"),
nernstVoltage("WBO: Nernst Voltage", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1702, 0.001, 0.0, 1.0, "V"),
esr("WBO: ESR", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1704, 1.0, 0.0, 10000.0, "ohm"),
alignmentFill_at_10("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1706, 1.0, -20.0, 100.0, "units"),
dcOutput0("DC: output0", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1720, 1.0, 0.0, 10.0, "per"),
isEnabled0_int("DC: en0", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1724, 1.0, 0.0, 10.0, "per"),
alignmentFill_at_5("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1725, 1.0, -20.0, 100.0, "units"),
value0("ETB: SENT value0", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1732, 1.0, 0.0, 3.0, "value"),
value1("ETB: SENT value1", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1734, 1.0, 0.0, 3.0, "value"),
errorRate("ETB: SENT error rate", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1736, 1.0, 0.0, 3.0, "ratio"),
vvtTarget("vvtTarget", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1740, 0.1, -90.0, 90.0, "deg"),
vvtOutput("vvtOutput", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1742, 0.5, 100.0, 1.0, "%"),
alignmentFill_at_3("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1743, 1.0, -20.0, 100.0, "units"),
lambdaTimeSinceGood("lambdaTimeSinceGood", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1748, 0.01, 0.0, 1.0, "sec"),
alignmentFill_at_6("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1750, 1.0, -20.0, 100.0, "units"),
m_knockSpectrum1("Knock: SpectrumData 1", SensorCategory.SENSOR_INPUTS, FieldType.INT, 976, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum2("Knock: SpectrumData 2", SensorCategory.SENSOR_INPUTS, FieldType.INT, 980, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum3("Knock: SpectrumData 3", SensorCategory.SENSOR_INPUTS, FieldType.INT, 984, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum4("Knock: SpectrumData 4", SensorCategory.SENSOR_INPUTS, FieldType.INT, 988, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum5("Knock: SpectrumData 5", SensorCategory.SENSOR_INPUTS, FieldType.INT, 992, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum6("Knock: SpectrumData 6", SensorCategory.SENSOR_INPUTS, FieldType.INT, 996, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum7("Knock: SpectrumData 7", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1000, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum8("Knock: SpectrumData 8", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1004, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum9("Knock: SpectrumData 9", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1008, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum10("Knock: SpectrumData 10", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1012, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum11("Knock: SpectrumData 11", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1016, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum12("Knock: SpectrumData 12", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1020, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum13("Knock: SpectrumData 13", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1024, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum14("Knock: SpectrumData 14", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1028, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum15("Knock: SpectrumData 15", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1032, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrum16("Knock: SpectrumData 16", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1036, 1.0, 0.0, 0.0, "compressed data"),
m_knockSpectrumChannelCyl("Knock: ChannelAndCylNumber", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1040, 1.0, 0.0, 0.0, "compressed N + N"),
m_knockFrequencyStart("Knock: Start Freq", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1042, 1.0, 0.0, 0.0, "Hz"),
m_knockFrequencyStep("Knock: Step Freq", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1044, 1.0, 0.0, 0.0, "Hz"),
m_knockFuelTrimMultiplier("Knock: Fuel trim when knock", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1048, 1.0, 0.0, 0.0, "multiplier"),
tcuCurrentGear("TCU: Current Gear", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1052, 1.0, -1.0, 10.0, "gear"),
alignmentFill_at_1("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1053, 1.0, -20.0, 100.0, "units"),
tcRatio("TCU: Torque Converter Ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1054, 0.01, 0.0, 0.0, "value"),
lastShiftTime("lastShiftTime", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1056, 1.0, -1.0, -1.0, ""),
tcu_currentRange("TCU: Current Range", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1060, 1.0, 0.0, 0.0, ""),
pressureControlDuty("TCU: EPC Duty", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1061, 1.0, 0.0, 100.0, "%"),
torqueConverterDuty("TCU: TC Duty", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1062, 1.0, 0.0, 100.0, "%"),
alignmentFill_at_11("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1063, 1.0, -20.0, 100.0, "units"),
throttleModelCrossoverAngle("Air: Throttle crossover pos", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1072, 0.01, 0.0, 100.0, "%"),
alignmentFill_at_6("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1074, 1.0, -20.0, 100.0, "units"),
throttleEstimatedFlow("Air: Throttle flow estimate", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1076, 1.0, 0.0, 5.0, "g/s"),
m_requested_pump("GDI: HPFP duration\nComputed requested pump duration in degrees (not including deadtime)", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1080, 1.0, -1.0, -1.0, ""),
fuel_requested_percent("GDI: requested_percent", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1084, 1.0, -1.0, -1.0, ""),
fuel_requested_percent_pi("GDI: percent_pi", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1088, 1.0, -1.0, -1.0, ""),
m_pressureTarget_kPa("GDI: target pressure", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1096, 1.0, -1.0, -1.0, ""),
nextLobe("GDI: nextLobe", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1100, 1.0, -1.0, -1.0, ""),
di_nextStart("GDI: next start", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1104, 1.0, 0.0, 100.0, "v"),
m_deadtime("Fuel: injector lag", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1108, 1.0, 0.0, 0.0, "ms"),
pressureDelta("Fuel: Injector pressure delta", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1112, 1.0, -1000.0, 1000.0, "kPa"),
pressureRatio("Fuel: Injector pressure ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1116, 1.0, 0.0, 100.0, ""),
retardThresholdRpm("retardThresholdRpm", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1120, 1.0, -1.0, -1.0, ""),
fuelALSCorrection("fuelALSCorrection", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1136, 1.0, -1.0, -1.0, ""),
timingALSCorrection("timingALSCorrection", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1140, 0.01, -20.0, 20.0, "deg"),
timingALSSkip("timingALSSkip", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1142, 0.01, 0.0, 50.0, "deg"),
luaTargetAdd("Boost: Lua target add", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1148, 0.5, -100.0, 100.0, "v"),
boostOutput("Boost: Output", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1150, 0.01, -100.0, 100.0, "percent"),
luaTargetMult("Boost: Lua target mult", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1152, 1.0, -100.0, 100.0, "v"),
openLoopPart("Boost: Open loop", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1156, 1.0, -100.0, 100.0, "v"),
luaOpenLoopAdd("Boost: Lua open loop add", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1160, 1.0, -100.0, 100.0, "v"),
boostControllerClosedLoopPart("Boost: Closed loop", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1164, 0.5, -50.0, 50.0, "%"),
alignmentFill_at_21("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1165, 1.0, -20.0, 100.0, "units"),
boostControlTarget("Boost: Target", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1166, 0.03333333333333333, 0.0, 300.0, "kPa"),
acButtonState("AC switch", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1168, 1.0, -1.0, -1.0, ""),
alignmentFill_at_1("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1169, 1.0, -20.0, 100.0, "units"),
radiatorFanStatus("radiatorFanStatus", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1180, 1.0, -1.0, -1.0, ""),
alignmentFill_at_5("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1181, 1.0, -20.0, 100.0, "units"),
radiatorFanStatus("radiatorFanStatus", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1180, 1.0, -1.0, -1.0, ""),
alignmentFill_at_5("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1181, 1.0, -20.0, 100.0, "units"),
lua("lua", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1200, 1.0, -1.0, -1.0, ""),
sd("sd", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1212, 1.0, -1.0, -1.0, ""),
crankingFuel("crankingFuel", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1220, 1.0, -1.0, -1.0, ""),
baroCorrection("Fuel: Barometric pressure mult", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1236, 1.0, -1.0, -1.0, ""),
hellenBoardId("Detected Board ID", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1240, 1.0, 0.0, 3000.0, "id"),
clutchUpState("Clutch: up", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1242, 1.0, -1.0, -1.0, ""),
clutchDownState("Clutch: down", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1243, 1.0, -1.0, -1.0, ""),
brakePedalState("Brake switch", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1244, 1.0, -1.0, -1.0, ""),
startStopState("startStopState", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1245, 1.0, -1.0, -1.0, ""),
smartChipState("smartChipState", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1246, 1.0, -1.0, -1.0, ""),
smartChipRestartCounter("smartChipRestartCounter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1247, 1.0, -1.0, -1.0, ""),
smartChipAliveCounter("smartChipAliveCounter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1248, 1.0, -1.0, -1.0, ""),
alignmentFill_at_49("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1249, 1.0, -20.0, 100.0, "units"),
startStopStateToggleCounter("startStopStateToggleCounter", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1256, 1.0, -1.0, -1.0, ""),
luaSoftSparkSkip("luaSoftSparkSkip", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1260, 1.0, -1.0, -1.0, ""),
luaHardSparkSkip("luaHardSparkSkip", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1264, 1.0, -1.0, -1.0, ""),
tractionControlSparkSkip("tractionControlSparkSkip", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1268, 1.0, -1.0, -1.0, ""),
desiredRpmLimit("User-defined RPM hard limit", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1272, 1.0, 0.0, 30000.0, "rpm"),
alignmentFill_at_74("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1274, 1.0, -20.0, 100.0, "units"),
fuelInjectionCounter("Fuel: Injection counter", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1276, 1.0, -1.0, -1.0, ""),
globalSparkCounter("Ign: Spark counter", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1280, 1.0, -1.0, -1.0, ""),
fuelingLoad("Fuel: Load", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1284, 1.0, -1.0, -1.0, ""),
ignitionLoad("Ignition: load", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1288, 1.0, -1.0, -1.0, ""),
veTableYAxis("veTableYAxis", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1292, 0.01, 0.0, 0.0, "%"),
overDwellCounter("overDwellCounter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1294, 1.0, -1.0, -1.0, ""),
overDwellNotScheduledCounter("overDwellNotScheduledCounter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1295, 1.0, -1.0, -1.0, ""),
sparkOutOfOrderCounter("sparkOutOfOrderCounter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1296, 1.0, -1.0, -1.0, ""),
alignmentFill_at_97("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1297, 1.0, -20.0, 100.0, "units"),
tpsFrom("Fuel: TPS AE from", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1300, 1.0, -1.0, -1.0, ""),
tpsTo("Fuel: TPS AE to", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1304, 1.0, -1.0, -1.0, ""),
deltaTps("Fuel: TPS AE change", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1308, 1.0, -1.0, -1.0, ""),
extraFuel("extraFuel", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1312, 1.0, -1.0, -1.0, ""),
valueFromTable("valueFromTable", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1316, 1.0, -1.0, -1.0, ""),
fractionalInjFuel("fractionalInjFuel", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1324, 1.0, -1.0, -1.0, ""),
accumulatedValue("accumulatedValue", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1328, 1.0, -1.0, -1.0, ""),
maxExtraPerCycle("maxExtraPerCycle", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1332, 1.0, -1.0, -1.0, ""),
maxExtraPerPeriod("maxExtraPerPeriod", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1336, 1.0, -1.0, -1.0, ""),
maxInjectedPerPeriod("maxInjectedPerPeriod", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1340, 1.0, -1.0, -1.0, ""),
cycleCnt("cycleCnt", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1344, 1.0, -1.0, -1.0, ""),
hwEventCounters1("Hardware events since boot 1", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1348, 1.0, -1.0, -1.0, ""),
hwEventCounters2("Hardware events since boot 2", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1352, 1.0, -1.0, -1.0, ""),
hwEventCounters3("Hardware events since boot 3", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1356, 1.0, -1.0, -1.0, ""),
hwEventCounters4("Hardware events since boot 4", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1360, 1.0, -1.0, -1.0, ""),
hwEventCounters5("Hardware events since boot 5", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1364, 1.0, -1.0, -1.0, ""),
hwEventCounters6("Hardware events since boot 6", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1368, 1.0, -1.0, -1.0, ""),
vvtCamCounter("Sync: total cams front counter", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1372, 1.0, -1.0, -1.0, ""),
mapVvt_MAP_AT_SPECIAL_POINT("InstantMAP at readout angle", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1376, 1.0, -300.0, 300.0, "kPa"),
mapVvt_MAP_AT_DIFF("InstantMAP delta @ readout angles", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1380, 1.0, -300.0, 300.0, "kPa"),
mapVvt_MAP_AT_CYCLE_COUNT("mapVvt_MAP_AT_CYCLE_COUNT", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1384, 1.0, -10.0, 100.0, "distance"),
mapVvt_sync_counter("Instant MAP sync counter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1385, 1.0, 0.0, 10000.0, "counter"),
alignmentFill_at_38("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1386, 1.0, -20.0, 100.0, "units"),
currentEngineDecodedPhase("Sync: Engine Phase", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1388, 1.0, 0.0, 0.0, "deg"),
triggerToothAngleError("Sync: trigger angle error", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1392, 1.0, -30.0, 30.0, "deg"),
triggerIgnoredToothCount("triggerIgnoredToothCount", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1396, 1.0, -1.0, -1.0, ""),
alignmentFill_at_49("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1397, 1.0, -20.0, 100.0, "units"),
mapCamPrevToothAngle("Sync: MAP: prev angle", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1400, 1.0, -3000.0, 3000.0, "deg"),
triggerElapsedUs("triggerElapsedUs", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1408, 1.0, -1.0, -1.0, ""),
crankSynchronizationCounter("sync: Crank sync counter\nUsually matches crank revolutions", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1412, 1.0, -1.0, -1.0, ""),
vvtSyncGapRatio("vvtSyncGapRatio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1416, 1.0, -10000.0, 10000.0, ""),
vvtToothDurations0("vvtToothDurations0", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1420, 1.0, 0.0, 100000.0, "us"),
vvtCurrentPosition("vvtCurrentPosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1424, 1.0, -10000.0, 10000.0, "sync: Primary Cam Position"),
vvtToothPosition1("vvtToothPosition 1", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1428, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition2("vvtToothPosition 2", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1432, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition3("vvtToothPosition 3", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1436, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition4("vvtToothPosition 4", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1440, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
triggerSyncGapRatio("Trigger Sync Latest Ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1444, 1.0, -10000.0, 10000.0, ""),
triggerStateIndex("triggerStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1448, 1.0, -1.0, -1.0, ""),
vvtStateIndex("vvtStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1449, 1.0, -1.0, -1.0, ""),
alignmentFill_at_38("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1450, 1.0, -20.0, 100.0, "units"),
crankSynchronizationCounter("sync: Crank sync counter\nUsually matches crank revolutions", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1412, 1.0, -1.0, -1.0, ""),
vvtSyncGapRatio("vvtSyncGapRatio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1416, 1.0, -10000.0, 10000.0, ""),
vvtToothDurations0("vvtToothDurations0", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1420, 1.0, 0.0, 100000.0, "us"),
vvtCurrentPosition("vvtCurrentPosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1424, 1.0, -10000.0, 10000.0, "sync: Primary Cam Position"),
vvtToothPosition1("vvtToothPosition 1", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1428, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition2("vvtToothPosition 2", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1432, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition3("vvtToothPosition 3", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1436, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition4("vvtToothPosition 4", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1440, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
triggerSyncGapRatio("Trigger Sync Latest Ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1444, 1.0, -10000.0, 10000.0, ""),
triggerStateIndex("triggerStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1448, 1.0, -1.0, -1.0, ""),
vvtStateIndex("vvtStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1449, 1.0, -1.0, -1.0, ""),
alignmentFill_at_38("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1450, 1.0, -20.0, 100.0, "units"),
crankSynchronizationCounter("sync: Crank sync counter\nUsually matches crank revolutions", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1412, 1.0, -1.0, -1.0, ""),
vvtSyncGapRatio("vvtSyncGapRatio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1416, 1.0, -10000.0, 10000.0, ""),
vvtToothDurations0("vvtToothDurations0", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1420, 1.0, 0.0, 100000.0, "us"),
vvtCurrentPosition("vvtCurrentPosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1424, 1.0, -10000.0, 10000.0, "sync: Primary Cam Position"),
vvtToothPosition1("vvtToothPosition 1", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1428, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition2("vvtToothPosition 2", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1432, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition3("vvtToothPosition 3", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1436, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition4("vvtToothPosition 4", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1440, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
triggerSyncGapRatio("Trigger Sync Latest Ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1444, 1.0, -10000.0, 10000.0, ""),
triggerStateIndex("triggerStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1448, 1.0, -1.0, -1.0, ""),
vvtStateIndex("vvtStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1449, 1.0, -1.0, -1.0, ""),
alignmentFill_at_38("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1450, 1.0, -20.0, 100.0, "units"),
crankSynchronizationCounter("sync: Crank sync counter\nUsually matches crank revolutions", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1412, 1.0, -1.0, -1.0, ""),
vvtSyncGapRatio("vvtSyncGapRatio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1416, 1.0, -10000.0, 10000.0, ""),
vvtToothDurations0("vvtToothDurations0", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1420, 1.0, 0.0, 100000.0, "us"),
vvtCurrentPosition("vvtCurrentPosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1424, 1.0, -10000.0, 10000.0, "sync: Primary Cam Position"),
vvtToothPosition1("vvtToothPosition 1", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1428, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition2("vvtToothPosition 2", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1432, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition3("vvtToothPosition 3", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1436, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition4("vvtToothPosition 4", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1440, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
triggerSyncGapRatio("Trigger Sync Latest Ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1444, 1.0, -10000.0, 10000.0, ""),
triggerStateIndex("triggerStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1448, 1.0, -1.0, -1.0, ""),
vvtStateIndex("vvtStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1449, 1.0, -1.0, -1.0, ""),
alignmentFill_at_38("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1450, 1.0, -20.0, 100.0, "units"),
crankSynchronizationCounter("sync: Crank sync counter\nUsually matches crank revolutions", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1412, 1.0, -1.0, -1.0, ""),
vvtSyncGapRatio("vvtSyncGapRatio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1416, 1.0, -10000.0, 10000.0, ""),
vvtToothDurations0("vvtToothDurations0", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1420, 1.0, 0.0, 100000.0, "us"),
vvtCurrentPosition("vvtCurrentPosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1424, 1.0, -10000.0, 10000.0, "sync: Primary Cam Position"),
vvtToothPosition1("vvtToothPosition 1", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1428, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition2("vvtToothPosition 2", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1432, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition3("vvtToothPosition 3", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1436, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
vvtToothPosition4("vvtToothPosition 4", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1440, 1.0, -10000.0, 10000.0, "sync: Cam Tooth Position"),
triggerSyncGapRatio("Trigger Sync Latest Ratio", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1444, 1.0, -10000.0, 10000.0, ""),
triggerStateIndex("triggerStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1448, 1.0, -1.0, -1.0, ""),
vvtStateIndex("vvtStateIndex", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1449, 1.0, -1.0, -1.0, ""),
alignmentFill_at_38("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1450, 1.0, -20.0, 100.0, "units"),
camResyncCounter("sync: Phase Re-Sync Counter", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1612, 1.0, -1.0, -1.0, ""),
alignmentFill_at_1("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1613, 1.0, -20.0, 100.0, "units"),
wallFuelCorrection("fuel wallwetting injection time\n correction to account for wall wetting effect for current cycle", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1620, 1.0, -1.0, -1.0, ""),
wallFuel("Fuel on the wall\nin ms of injector open time for each injector.", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1624, 1.0, -1.0, -1.0, ""),
idleState("idleState", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1628, 1.0, -1.0, -1.0, ""),
currentIdlePosition("Idle: Position", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1632, 1.0, 0.0, 0.0, "%"),
baseIdlePosition("idle: base value\ncurrent position without adjustments (iacByTpsTaper, afterCrankingIACtaperDuration)", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1636, 1.0, -1.0, -1.0, ""),
idleClosedLoop("Idle: Closed loop", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1640, 1.0, -1.0, -1.0, ""),
iacByTpsTaper("idle: iacByTpsTaper portion", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1644, 1.0, -1.0, -1.0, ""),
throttlePedalUpState("idle: throttlePedalUpState\ntrue in IDLE throttle pedal state, false if driver is touching the pedal\ntodo: better name for this field?", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1648, 1.0, -1.0, -1.0, ""),
idleTarget("Idle: Target RPM", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1656, 1.0, -1.0, -1.0, ""),
targetRpmByClt("Idle: Target RPM base", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1660, 1.0, -1.0, -1.0, ""),
targetRpmAc("Idle: Target A/C RPM", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1664, 1.0, -1.0, -1.0, ""),
iacByRpmTaper("idle: iacByRpmTaper portion", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1668, 1.0, -1.0, -1.0, ""),
luaAdd("idle: Lua Adder", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1672, 1.0, -1.0, -1.0, ""),
targetWithIdlePosition("ETB: target with idle", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1676, 1.0, 0.0, 10.0, "per"),
trim("ETB: trim", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1680, 1.0, -1.0, -1.0, ""),
luaAdjustment("ETB: luaAdjustment", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1684, 1.0, 0.0, 3.0, "per"),
m_wastegatePosition("DC: wastegatePosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1688, 1.0, 0.0, 3.0, "per"),
etbFeedForward("etbFeedForward", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1692, 1.0, -1.0, -1.0, ""),
etbIntegralError("etbIntegralError", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1696, 1.0, -10000.0, 10000.0, ""),
etbCurrentTarget("ETB: target for current pedal", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1700, 1.0, -10000.0, 10000.0, "%"),
etbCurrentAdjustedTarget("etbCurrentAdjustedTarget", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1704, 1.0, -10000.0, 10000.0, "%"),
etbTpsErrorCounter("ETB TPS error counter", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1712, 1.0, 0.0, 3.0, "count"),
etbPpsErrorCounter("ETB pedal error counter", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1714, 1.0, 0.0, 3.0, "count"),
etbErrorCode("etbErrorCode", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1716, 1.0, -1.0, -1.0, ""),
tcEtbDrop("ETB traction control", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1717, 1.0, 0.0, 100.0, "%"),
jamTimer("ETB jam timer", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1718, 0.01, 0.0, 100.0, "sec"),
adjustedEtbTarget("ETB with adjustments", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1720, 1.0, 0.0, 100.0, "%"),
alignmentFill_at_45("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1721, 1.0, -20.0, 100.0, "units"),
targetWithIdlePosition("ETB: target with idle", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1676, 1.0, 0.0, 10.0, "per"),
trim("ETB: trim", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1680, 1.0, -1.0, -1.0, ""),
luaAdjustment("ETB: luaAdjustment", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1684, 1.0, 0.0, 3.0, "per"),
m_wastegatePosition("DC: wastegatePosition", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1688, 1.0, 0.0, 3.0, "per"),
etbFeedForward("etbFeedForward", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1692, 1.0, -1.0, -1.0, ""),
etbIntegralError("etbIntegralError", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1696, 1.0, -10000.0, 10000.0, ""),
etbCurrentTarget("ETB: target for current pedal", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1700, 1.0, -10000.0, 10000.0, "%"),
etbCurrentAdjustedTarget("etbCurrentAdjustedTarget", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1704, 1.0, -10000.0, 10000.0, "%"),
etbTpsErrorCounter("ETB TPS error counter", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1712, 1.0, 0.0, 3.0, "count"),
etbPpsErrorCounter("ETB pedal error counter", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1714, 1.0, 0.0, 3.0, "count"),
etbErrorCode("etbErrorCode", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1716, 1.0, -1.0, -1.0, ""),
tcEtbDrop("ETB traction control", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1717, 1.0, 0.0, 100.0, "%"),
jamTimer("ETB jam timer", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1718, 0.01, 0.0, 100.0, "sec"),
adjustedEtbTarget("ETB with adjustments", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1720, 1.0, 0.0, 100.0, "%"),
alignmentFill_at_45("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1721, 1.0, -20.0, 100.0, "units"),
faultCode("WBO: Fault code", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1772, 1.0, -1.0, -1.0, ""),
heaterDuty("WBO: Heater duty", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1773, 1.0, 0.0, 100.0, "%"),
pumpDuty("WBO: Pump duty", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1774, 1.0, 0.0, 100.0, "%"),
alignmentFill_at_3("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1775, 1.0, -20.0, 100.0, "units"),
tempC("WBO: Temperature", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1776, 1.0, 500.0, 1000.0, "C"),
nernstVoltage("WBO: Nernst Voltage", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1778, 0.001, 0.0, 1.0, "V"),
esr("WBO: ESR", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1780, 1.0, 0.0, 10000.0, "ohm"),
alignmentFill_at_10("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1782, 1.0, -20.0, 100.0, "units"),
faultCode("WBO: Fault code", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1772, 1.0, -1.0, -1.0, ""),
heaterDuty("WBO: Heater duty", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1773, 1.0, 0.0, 100.0, "%"),
pumpDuty("WBO: Pump duty", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1774, 1.0, 0.0, 100.0, "%"),
alignmentFill_at_3("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1775, 1.0, -20.0, 100.0, "units"),
tempC("WBO: Temperature", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1776, 1.0, 500.0, 1000.0, "C"),
nernstVoltage("WBO: Nernst Voltage", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1778, 0.001, 0.0, 1.0, "V"),
esr("WBO: ESR", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1780, 1.0, 0.0, 10000.0, "ohm"),
alignmentFill_at_10("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1782, 1.0, -20.0, 100.0, "units"),
dcOutput0("DC: output0", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1796, 1.0, 0.0, 10.0, "per"),
isEnabled0_int("DC: en0", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1800, 1.0, 0.0, 10.0, "per"),
alignmentFill_at_5("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1801, 1.0, -20.0, 100.0, "units"),
value0("ETB: SENT value0", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1808, 1.0, 0.0, 3.0, "value"),
value1("ETB: SENT value1", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1810, 1.0, 0.0, 3.0, "value"),
errorRate("ETB: SENT error rate", SensorCategory.SENSOR_INPUTS, FieldType.INT, 1812, 1.0, 0.0, 3.0, "ratio"),
vvtTarget("vvtTarget", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1816, 0.1, -90.0, 90.0, "deg"),
vvtOutput("vvtOutput", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1818, 0.5, 100.0, 1.0, "%"),
alignmentFill_at_3("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1819, 1.0, -20.0, 100.0, "units"),
lambdaTimeSinceGood("lambdaTimeSinceGood", SensorCategory.SENSOR_INPUTS, FieldType.INT16, 1824, 0.01, 0.0, 1.0, "sec"),
alignmentFill_at_6("need 4 byte alignment", SensorCategory.SENSOR_INPUTS, FieldType.INT8, 1826, 1.0, -20.0, 100.0, "units"),

2
firmware/console/binary/generated/total_live_data_generated.h
View File

@ -1,2 +1,2 @@
// generated by gen_live_documentation.sh / LiveDataProcessor.java
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828

20
firmware/console/binary_log/log_fields_generated.h
View File

@ -413,6 +413,26 @@ static const LogField fields[] = {
{___engine.module<KnockController>()->m_knockCount, "Knock: Count", "", 0},
{___engine.module<KnockController>()->m_maximumRetard, "Knock: Max retard", "", 0},
{___engine.module<KnockController>()->m_knockFrequency, "knock: frequency", "Hz", 2},
{___engine.module<KnockController>()->m_knockSpectrum[0], "Knock: SpectrumData 1", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[1], "Knock: SpectrumData 2", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[2], "Knock: SpectrumData 3", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[3], "Knock: SpectrumData 4", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[4], "Knock: SpectrumData 5", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[5], "Knock: SpectrumData 6", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[6], "Knock: SpectrumData 7", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[7], "Knock: SpectrumData 8", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[8], "Knock: SpectrumData 9", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[9], "Knock: SpectrumData 10", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[10], "Knock: SpectrumData 11", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[11], "Knock: SpectrumData 12", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[12], "Knock: SpectrumData 13", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[13], "Knock: SpectrumData 14", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[14], "Knock: SpectrumData 15", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrum[15], "Knock: SpectrumData 16", "compressed data", 0},
{___engine.module<KnockController>()->m_knockSpectrumChannelCyl, "Knock: ChannelAndCylNumber", "compressed N + N", 0},
{___engine.module<KnockController>()->m_knockFrequencyStart, "Knock: Start Freq", "Hz", 0},
{___engine.module<KnockController>()->m_knockFrequencyStep, "Knock: Step Freq", "Hz", 0},
{___engine.module<KnockController>()->m_knockFuelTrimMultiplier, "Knock: Fuel trim when knock", "multiplier", 0},
#if EFI_PROD_CODE && EFI_IDLE_CONTROL
{___engine.module<InjectorModelPrimary>()->m_deadtime, "Fuel: injector lag", "ms", 3},
#endif

39
firmware/controllers/generated/engine_configuration_generated_structures_alphax-2chan.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_alphax-4chan.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_alphax-4chan_f7.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_alphax-4k-gdi.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_alphax-8chan-revA.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_alphax-8chan.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1508 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3912
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3913
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3914
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3915
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3916
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3920
*/
float knockFrequency;
/**
* units: units
* offset 3924
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4040);

39
firmware/controllers/generated/engine_configuration_generated_structures_alphax-8chan_f7.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1508 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3912
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3913
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3914
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3915
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3916
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3920
*/
float knockFrequency;
/**
* units: units
* offset 3924
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4040);

39
firmware/controllers/generated/engine_configuration_generated_structures_alphax-silver.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4707,9 +4707,44 @@ struct engine_configuration_s {
offset 3896 bit 31 */
bool unusedBit_879_31 : 1 {};
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3900
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3901
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3902
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3903
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3904
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3908
*/
float knockFrequency;
/**
* units: units
* offset 3912
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4028);

39
firmware/controllers/generated/engine_configuration_generated_structures_at_start_f435.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_atlas.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3736
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3737
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3738
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3739
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3740
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3744
*/
float knockFrequency;
/**
* units: units
* offset 3748
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 3864);

39
firmware/controllers/generated/engine_configuration_generated_structures_f407-discovery.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_f429-discovery.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_f469-discovery.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_frankenso_na6.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_haba208.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellen-112-17.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellen-gm-e67.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellen-honda-k.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellen-nb1.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellen121nissan.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellen121vag.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellen128.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellen154hyundai.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellen154hyundai_f7.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellen72.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellen81.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellen88bmw.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellenNA6.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_hellenNA8_96.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_m74_9.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_mre-legacy_f4.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_mre_f4.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_mre_f7.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_nucleo_f413.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_proteus_f4.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_proteus_f7.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_proteus_h7.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_s105.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_small-can-board.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_stm32f429_nucleo.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_stm32f767_nucleo.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_stm32h743_nucleo.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_subaru_eg33_f7.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_t-b-g.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_tdg-pdm8.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_uaefi.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

39
firmware/controllers/generated/engine_configuration_generated_structures_uaefi121.h
View File

@ -2883,7 +2883,7 @@ struct engine_configuration_s {
bool enableKnockSpectrogram : 1 {};
/**
offset 1492 bit 31 */
bool unusedBit_517_31 : 1 {};
bool enableKnockSpectrogramFilter : 1 {};
/**
* This is the duration in cycles that the IAC will take to reach its normal idle position, it can be used to hold the idle higher for a few seconds after cranking to improve startup.\Should be 100 once tune is better
* units: cycles
@ -4611,9 +4611,44 @@ struct engine_configuration_s {
*/
linear_sensor_s auxLinear4;
/**
* units: units
* Below TPS value all knock suppression will be disabled.
* units: %
* offset 3896
*/
scaled_channel<uint8_t, 1, 1> knockSuppressMinTps;
/**
* Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),
* units: %
* offset 3897
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimAggression;
/**
* After a knock event, reapply fuel at this rate.
* units: deg/s
* offset 3898
*/
scaled_channel<uint8_t, 10, 1> knockFuelTrimReapplyRate;
/**
* Fuel trim when knock, max 30%
* units: %
* offset 3899
*/
scaled_channel<uint8_t, 1, 1> knockFuelTrim;
/**
* units: sense
* offset 3900
*/
float knockSpectrumSensitivity;
/**
* "Estimated knock frequency, ignore cylinderBore if this one > 0"
* units: Hz
* offset 3904
*/
float knockFrequency;
/**
* units: units
* offset 3908
*/
uint8_t unusedOftenChangesDuringFirmwareUpdate[END_OF_CALIBRATION_PADDING];
};
static_assert(sizeof(engine_configuration_s) == 4024);

8
firmware/controllers/generated/rusefi_generated_alphax-2chan.h
View File

@ -349,7 +349,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1295,7 +1295,7 @@
#define show_2chan_presets true
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 4146669886
#define SIGNATURE_HASH 721515457
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1759,14 +1759,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-2chan.4146669886"
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-2chan.721515457"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_alphax-4chan.h
View File

@ -349,7 +349,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1296,7 +1296,7 @@
#define show_4chan_presets true
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 669565915
#define SIGNATURE_HASH 4223703332
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1760,14 +1760,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-4chan.669565915"
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-4chan.4223703332"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "C2/C3 Crank VR"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "E5/E6 Cam VR"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_alphax-4chan_f7.h
View File

@ -349,7 +349,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1296,7 +1296,7 @@
#define show_4chan_presets true
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 669565915
#define SIGNATURE_HASH 4223703332
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1760,14 +1760,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-4chan_f7.669565915"
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-4chan_f7.4223703332"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "C2/C3 Crank VR"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "E5/E6 Cam VR"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_alphax-4k-gdi.h
View File

@ -350,7 +350,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1295,7 +1295,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 1412969003
#define SIGNATURE_HASH 2282776788
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1759,14 +1759,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-4k-gdi.1412969003"
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-4k-gdi.2282776788"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_alphax-8chan-revA.h
View File

@ -349,7 +349,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1295,7 +1295,7 @@
#define show_8chan_presets true
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 2078698918
#define SIGNATURE_HASH 2815309657
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1759,14 +1759,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-8chan-revA.2078698918"
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-8chan-revA.2815309657"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_alphax-8chan.h
View File

@ -349,7 +349,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4040
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1295,7 +1295,7 @@
#define show_8chan_presets true
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 1545637850
#define SIGNATURE_HASH 2148062501
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1759,14 +1759,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-8chan.1545637850"
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-8chan.2148062501"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_alphax-8chan_f7.h
View File

@ -349,7 +349,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4040
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1295,7 +1295,7 @@
#define show_8chan_presets true
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 1545637850
#define SIGNATURE_HASH 2148062501
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1759,14 +1759,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-8chan_f7.1545637850"
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-8chan_f7.2148062501"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_alphax-silver.h
View File

@ -349,7 +349,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4028
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1294,7 +1294,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3143619007
#define SIGNATURE_HASH 1735887680
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1758,14 +1758,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-silver.3143619007"
#define TS_SIGNATURE "rusEFI master.2024.10.21.alphax-silver.1735887680"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_at_start_f435.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 2262948377
#define SIGNATURE_HASH 1523155174
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.at_start_f435.2262948377"
#define TS_SIGNATURE "rusEFI master.2024.10.21.at_start_f435.1523155174"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_atlas.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 3864
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3269856855
#define SIGNATURE_HASH 516838568
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.atlas.3269856855"
#define TS_SIGNATURE "rusEFI master.2024.10.21.atlas.516838568"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_f407-discovery.h
View File

@ -351,7 +351,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1298,7 +1298,7 @@
#define show_tcu_gauges false
#define show_test_presets true
#define show_vvt_output_pin true
#define SIGNATURE_HASH 1717113764
#define SIGNATURE_HASH 3127986523
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1762,14 +1762,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.f407-discovery.1717113764"
#define TS_SIGNATURE "rusEFI master.2024.10.21.f407-discovery.3127986523"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_f429-discovery.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 2262948377
#define SIGNATURE_HASH 1523155174
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.f429-discovery.2262948377"
#define TS_SIGNATURE "rusEFI master.2024.10.21.f429-discovery.1523155174"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_f469-discovery.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3023494282
#define SIGNATURE_HASH 1746830965
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.f469-discovery.3023494282"
#define TS_SIGNATURE "rusEFI master.2024.10.21.f469-discovery.1746830965"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_frankenso_na6.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1299,7 +1299,7 @@
#define show_tcu_gauges false
#define show_test_presets true
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3496128002
#define SIGNATURE_HASH 206238973
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1763,14 +1763,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.frankenso_na6.3496128002"
#define TS_SIGNATURE "rusEFI master.2024.10.21.frankenso_na6.206238973"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_haba208.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 2262948377
#define SIGNATURE_HASH 1523155174
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.haba208.2262948377"
#define TS_SIGNATURE "rusEFI master.2024.10.21.haba208.1523155174"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellen-112-17.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1298,7 +1298,7 @@
#define show_8chan_presets false
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 266945181
#define SIGNATURE_HASH 3552647266
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1762,14 +1762,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen-112-17.266945181"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen-112-17.3552647266"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellen-gm-e67.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 1251524001
#define SIGNATURE_HASH 2528175966
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen-gm-e67.1251524001"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen-gm-e67.2528175966"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellen-honda-k.h
View File

@ -350,7 +350,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1295,7 +1295,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3537414255
#define SIGNATURE_HASH 250671760
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen-honda-k.3537414255"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen-honda-k.250671760"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellen-nb1.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1298,7 +1298,7 @@
#define show_HellenNB1_presets true
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 88542982
#define SIGNATURE_HASH 3647952377
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1762,14 +1762,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen-nb1.88542982"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen-nb1.3647952377"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellen121nissan.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1298,7 +1298,7 @@
#define show_Hellen121nissan_presets true
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 1450854553
#define SIGNATURE_HASH 2320634470
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1762,14 +1762,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen121nissan.1450854553"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen121nissan.2320634470"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellen121vag.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1298,7 +1298,7 @@
#define show_Hellen121vag_presets true
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 236149470
#define SIGNATURE_HASH 3527082017
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1762,14 +1762,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen121vag.236149470"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen121vag.3527082017"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellen128.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1298,7 +1298,7 @@
#define show_Hellen128merc_presets true
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 1802760430
#define SIGNATURE_HASH 3076237841
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1762,14 +1762,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen128.1802760430"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen128.3076237841"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellen154hyundai.h
View File

@ -350,7 +350,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1295,7 +1295,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 2696209283
#define SIGNATURE_HASH 2090645884
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1759,14 +1759,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen154hyundai.2696209283"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen154hyundai.2090645884"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellen154hyundai_f7.h
View File

@ -350,7 +350,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1295,7 +1295,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 4005727744
#define SIGNATURE_HASH 854250751
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1759,14 +1759,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen154hyundai_f7.4005727744"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen154hyundai_f7.854250751"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellen72.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1298,7 +1298,7 @@
#define show_HellenNB2_presets true
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 2076784591
#define SIGNATURE_HASH 2816568624
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1762,14 +1762,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen72.2076784591"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen72.2816568624"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellen81.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3815852799
#define SIGNATURE_HASH 1062801408
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen81.3815852799"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen81.1062801408"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellen88bmw.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1298,7 +1298,7 @@
#define show_Hellen88bmw_presets true
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 4099039164
#define SIGNATURE_HASH 679085379
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1762,14 +1762,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen88bmw.4099039164"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellen88bmw.679085379"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellenNA6.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1298,7 +1298,7 @@
#define show_HellenNA6_presets true
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 306461177
#define SIGNATURE_HASH 3463209734
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1762,14 +1762,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellenNA6.306461177"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellenNA6.3463209734"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_hellenNA8_96.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1299,7 +1299,7 @@
#define show_HellenNB1_presets false
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3986586423
#define SIGNATURE_HASH 834019784
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1763,14 +1763,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellenNA8_96.3986586423"
#define TS_SIGNATURE "rusEFI master.2024.10.21.hellenNA8_96.834019784"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_m74_9.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 844882630
#define SIGNATURE_HASH 4000561209
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1762,14 +1762,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.m74_9.844882630"
#define TS_SIGNATURE "rusEFI master.2024.10.21.m74_9.4000561209"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_mre-legacy_f4.h
View File

@ -350,7 +350,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1296,7 +1296,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3945640004
#define SIGNATURE_HASH 923134651
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1760,14 +1760,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.mre-legacy_f4.3945640004"
#define TS_SIGNATURE "rusEFI master.2024.10.21.mre-legacy_f4.923134651"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_mre_f4.h
View File

@ -350,7 +350,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1296,7 +1296,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3945640004
#define SIGNATURE_HASH 923134651
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1760,14 +1760,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.mre_f4.3945640004"
#define TS_SIGNATURE "rusEFI master.2024.10.21.mre_f4.923134651"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_mre_f7.h
View File

@ -350,7 +350,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1296,7 +1296,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3945640004
#define SIGNATURE_HASH 923134651
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1760,14 +1760,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.mre_f7.3945640004"
#define TS_SIGNATURE "rusEFI master.2024.10.21.mre_f7.923134651"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_nucleo_f413.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 2262948377
#define SIGNATURE_HASH 1523155174
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.nucleo_f413.2262948377"
#define TS_SIGNATURE "rusEFI master.2024.10.21.nucleo_f413.1523155174"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_proteus_f4.h
View File

@ -350,7 +350,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1295,7 +1295,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3780242052
#define SIGNATURE_HASH 1031385211
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1759,14 +1759,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.proteus_f4.3780242052"
#define TS_SIGNATURE "rusEFI master.2024.10.21.proteus_f4.1031385211"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_proteus_f7.h
View File

@ -350,7 +350,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1295,7 +1295,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3780242052
#define SIGNATURE_HASH 1031385211
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1759,14 +1759,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.proteus_f7.3780242052"
#define TS_SIGNATURE "rusEFI master.2024.10.21.proteus_f7.1031385211"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_proteus_h7.h
View File

@ -350,7 +350,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1295,7 +1295,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3780242052
#define SIGNATURE_HASH 1031385211
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1759,14 +1759,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.proteus_h7.3780242052"
#define TS_SIGNATURE "rusEFI master.2024.10.21.proteus_h7.1031385211"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_s105.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 963271387
#define SIGNATURE_HASH 3846307876
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1762,14 +1762,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.s105.963271387"
#define TS_SIGNATURE "rusEFI master.2024.10.21.s105.3846307876"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_small-can-board.h
View File

@ -350,7 +350,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1295,7 +1295,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3659200308
#define SIGNATURE_HASH 103984587
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1760,14 +1760,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.small-can-board.3659200308"
#define TS_SIGNATURE "rusEFI master.2024.10.21.small-can-board.103984587"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_stm32f429_nucleo.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 2262948377
#define SIGNATURE_HASH 1523155174
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.stm32f429_nucleo.2262948377"
#define TS_SIGNATURE "rusEFI master.2024.10.21.stm32f429_nucleo.1523155174"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_stm32f767_nucleo.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 2262948377
#define SIGNATURE_HASH 1523155174
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.stm32f767_nucleo.2262948377"
#define TS_SIGNATURE "rusEFI master.2024.10.21.stm32f767_nucleo.1523155174"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_stm32h743_nucleo.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 2262948377
#define SIGNATURE_HASH 1523155174
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.stm32h743_nucleo.2262948377"
#define TS_SIGNATURE "rusEFI master.2024.10.21.stm32h743_nucleo.1523155174"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_subaru_eg33_f7.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3653296711
#define SIGNATURE_HASH 99137720
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1762,14 +1762,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.subaru_eg33_f7.3653296711"
#define TS_SIGNATURE "rusEFI master.2024.10.21.subaru_eg33_f7.99137720"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_t-b-g.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 2262948377
#define SIGNATURE_HASH 1523155174
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.t-b-g.2262948377"
#define TS_SIGNATURE "rusEFI master.2024.10.21.t-b-g.1523155174"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

8
firmware/controllers/generated/rusefi_generated_tdg-pdm8.h
View File

@ -352,7 +352,7 @@
#define ego_sensor_e_ES_Innovate_MTX_L 1
#define ego_sensor_e_ES_PLX 4
#define EGT_CHANNEL_COUNT 8
#define END_OF_CALIBRATION_PADDING 128
#define END_OF_CALIBRATION_PADDING 116
#define engine_configuration_s_size 4024
#define engine_load_mode_e_auto_enum 0="LM_SPEED_DENSITY",2="LM_ALPHA_N",3="LM_LUA",100="LM_MOCK",1="LM_REAL_MAF"
#define engine_load_mode_e_enum "Speed Density", "MAF Air Charge", "Alpha-N", "Lua"
@ -1297,7 +1297,7 @@
#define SentEtbType_NONE 0
#define show_tcu_gauges false
#define show_vvt_output_pin true
#define SIGNATURE_HASH 3167512209
#define SIGNATURE_HASH 1625570414
#define SIMULATOR_TUNE_BIN_FILE_NAME "generated/simulator_tune_image.bin"
#define SIMULATOR_TUNE_BIN_FILE_NAME_PREFIX "generated/simulator_tune_image"
#define SIMULATOR_TUNE_BIN_FILE_NAME_SUFFIX ".bin"
@ -1761,14 +1761,14 @@
#define ts_show_wastegate_sensor true
#define ts_show_wbo_canbus_index true
#define ts_show_wbo_canbus_set_index true
#define TS_SIGNATURE "rusEFI master.2024.10.21.tdg-pdm8.3167512209"
#define TS_SIGNATURE "rusEFI master.2024.10.21.tdg-pdm8.1625570414"
#define TS_SIMULATE_CAN '>'
#define TS_SIMULATE_CAN_char >
#define TS_SINGLE_WRITE_COMMAND 'W'
#define TS_SINGLE_WRITE_COMMAND_char W
#define TS_TEST_COMMAND 't'
#define TS_TEST_COMMAND_char t
#define TS_TOTAL_OUTPUT_SIZE 1752
#define TS_TOTAL_OUTPUT_SIZE 1828
#define TS_TRIGGER_SCOPE_CHANNEL_1_NAME "Channel 1"
#define TS_TRIGGER_SCOPE_CHANNEL_2_NAME "Channel 2"
#define TS_TRIGGER_SCOPE_DISABLE 5

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