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; this is TunerStudio project for www.rusefi.com DIY engine management system
;
; rusefi.ini is generated by invoking gen_config.bat (look inside for the exact command to run it outside of Windows)
; inputs are rusefi.input template and rusefi_config.txt file
;
; this should stop TS from looking for the CAN ID in the 2nd byte location and allow the page reads to work correctly.
enable2ndByteCanID = false
#unset tuneByMAF
;[SettingGroups]
; the referenceName will over-ride previous, so if you are creating a
; settingGroup with a reference name of lambdaSensor, it will replace the
; setting group defined in the settingGroups.xml of the TunerStudio config
; folder. If is is an undefined referenceName, it will be added.
; keyword = referenceName, DisplayName
; settingGroup = fAlgorithmSetting, "Fuel Logic / Tables"
; settingOption = FA_PLAIN_MAF, "Plain MAF"
; settingOption = FA_TPS, "AlphaN/TPS"
; settingOption = DEFAULT, "Speed Density" ; DEFAULT will be over looked and this will fall into the #else block of the statement.
[TunerStudio]
queryCommand = "S"
versionInfo = "V" ; firmwave version for title bar.
signature = "rusEFI v1.04" ; signature is expected to be 7 or more characters.
[Constants]
; new packet serial format with CRC
messageEnvelopeFormat = msEnvelope_1.0
endianness = little
nPages = 1
pageIdentifier = "\x00\x00"
pageReadCommand = "R\x00\x00%2o%2c"
burnCommand = "B\x00\x00"
pageActivate = "P\x00\x00"
pageValueWrite = "W\x00\x00%2o%v"
pageChunkWrite = "C\x00\x00%2o%2c%v"
; crc32CheckCommand = "k%2i%2o\xB8\x36"
crc32CheckCommand = "k\x00\x00\x00\x00\x36\xB8"
;communication settings
pageActivationDelay = 500 ; Milliseconds delay after burn command. See https://sourceforge.net/p/rusefi/tickets/77/
;e.g. put writeblocks off and add an interwrite delay
writeBlocks = on
interWriteDelay = 10
blockReadTimeout = 3000; Milliseconds general timeout
; delayAfterPortOpen = 500
blockingFactor = 400 ; max chunk size
;end communication settings
; name = bits, type, offset, bits
; name = array, type, offset, shape, units, scale, translate, lo, hi, digits
; name = scalar, type, offset, units, scale, translate, lo, hi, digits
; see PAGE_0_SIZE in C source code
; CONFIG_DEFINITION_START
; this section will be generated automatically by ConfigDefinition.jar based on rusefi_config.txt
; CONFIG_DEFINITION_END
idleRpmPid_offset = "Constant base value"
idleRpmPid_period = "PID recalculation period"
[Tuning]
spotDepth = 2 ; 0 = no indicators, 1 = Z only, 2 = XYZ indicators.
cursorDepth = 2 ; Same as spot depth.
gaugeColumns = 1 ; Only 1 or 2 are valid.
pageButtons = "&EGO"
gauge1 = RPMGauge
gauge2 = afr1Gauge
gauge3 = MAPGauge
gauge4 = veValueGauge
[LoggerDefinition]
; valid logger types: composite, tooth, trigger, csv
loggerDef = tooth, "Tooth Logger", tooth
dataReadCommand = "L"
dataReadTimeout = 15000 ; time in ms
dataReadyCondition = { toothLogReady }
dataLength = 256 ; in bytes, including headers, footers and data
; recordDef = headerLen, footerLen, recordLen
recordDef = 0, 0, 4; in bytes, the recordLen is for each record, currently limited to 4 bytes
recordField = PA3, "Inj D", 3, 1, 1, ""
recordField = PA2, "Inj C", 2, 1, 1, ""
recordField = PA1, "Inj B", 1, 1, 1, ""
recordField = PA0, "Inj A", 0, 1, 1, ""
[VeAnalyze]
; tableName, lambdaTargetTableName, lambdaChannel, egoCorrectionChannel, activeCondition
#if tuneByMAF
veAnalyzeMap = fuelTableTbl, afrTableTbl, AFRValue, egoCorrection, { 1 }
#else
veAnalyzeMap = veTableTbl, afrTableTbl, AFRValue, egoCorrection, { 1 }
#endif
lambdaTargetTables = afrTableTbl, afrTSCustom
; filter = Name, "DisplayName", outputChannel, operator, defaultVal, userAdjustable
filter = minRPMFilter, "Minimum RPM", RPMValue, < , 500, , true
#if CELSIUS
filter = minCltFilter, "Minimum CLT", coolant, < , 60, , true
#else
filter = minCltFilter, "Minimum CLT", coolant, < , 160, , true
#endif
filter = deltaTps, "dTPS", deltaTps > , 50, , true
filter = VBatt, "VBatt", VBatt < , 12, , true
filter = minTps, "Minimum TPS", TPSValue, < , 1, , true
;[VeAnalyze]
; fuelAnalyzeMap = fuelTableTbl, afrTableTbl, AFRValue, egoCorrection , { 1 }
; filter = minRPMFilter, "Minimum RPM", RPMValue, < , 500, , true
[OutputChannels]
; see TS_FILE_VERSION in firmware code
fileVersion = { 20171101 }
ochGetCommand = "O%2o%2c"
; see TS_OUTPUT_SIZE in console source code
ochBlockSize = 356
;
; see TunerStudioOutputChannels struct
;
RPMValue = scalar, U32, 0, "RPM", 1, 0.00000
#if CELSIUS
coolant = scalar, F32, 4, "°C", 1, 0.0
#else
coolant = scalar, F32, 4, "°F", {9/5}, 17.77777
#endif
#if CELSIUS
intake = scalar, F32, 8, "°C", 1, 0.0
#else
intake = scalar, F32, 8, "°F", {9/5}, 17.77777
#endif
TPSValue = scalar, F32, 12, "%", 1, 0
MAFValue = scalar, F32, 16, "V", 1, 0
AFRValue = scalar, F32, 20, "AFR", 1, 0.0
engineLoad = scalar, F32, 24, "%", 1, 0.0 ; Blend of MAP and TPS, depends on algorithm
VBatt = scalar, F32, 28, "V", 1, 0.0
; 10 bit TPS ADC value (from 0 to 1023 in 5v scale)
tpsADC = scalar, U16, 32, "ADC", 1, 0.0;
alignmet = scalar, U16, 34, "al", 1, 0.0;
baroPressure = scalar, F32, 36, "pres", 1, 0.0;
MAPValue = scalar, F32, 40, "MAP", 1, 0.0;
; total fuel squirt duration (in MS) per engine cycle according to current CLT
crankingFuel = scalar, F32, 44, "ms", 1, 0.0;
baseFuel = scalar, F32, 48, "ms", 1, 0
tCharge = scalar, F32, 52, "T", 1, 0.0;
ignitionAdvance = scalar, F32, 56, "deg", 1, 0.0;
sparkDwellValue = scalar, F32, 60, "ms", 1, 0.0;
; actual total Ms time per engine cycle with all corrections
actualLastInjection = scalar, F32, 64, "ms", 1, 0.0;
debugFloatField1 = scalar, F32, 68, "val", 1, 0.0;
hasSdCard = bits, U32, 72, [0:0], "true", "false";
isIgnitionEnabledIndicator=bits, U32, 72, [1:1], "true", "false";
ind_injection_enabled=bits,U32, 72, [2:2], "true", "false";
isCylinderCleanupEnabled=bits, U32, 72, [3:3], "true", "false";
isCylinderCleanupActivated=bits,U32,72, [4:4], "true", "false";
ind_fuel_pump = bits, U32, 72, [5:5], "true", "false";
ind_fan = bits, U32, 72, [6:6], "true", "false";
ind_o2_heater = bits, U32, 72, [7:7], "true", "false";
ind_check_engine= bits, U32, 72, [8:8], "true", "false";
needBurn = bits, U32, 72, [9:9], "true", "false";
ind_2nd_trigger_en=bits, U32, 72, [10:10], "true", "false";
clutchUpState =bits, U32, 72, [11:11], "true", "false";
clutchDownState =bits, U32, 72, [12:12], "true", "false";
knockEverIndicator=bits, U32, 72, [13:13], "true", "false";
knockNowIndicator=bits, U32, 72, [14:14], "true", "false";
brakePedalIndicator=bits, U32, 72, [15:15], "true", "false";
toothLogReady =bits, U32, 72, [16:16], "true", "false";
vehicleSpeedKph = scalar, F32, 76, "kph", 1, 0.0;
ind_tps_error = bits, U32, 80, [0:0], "true", "false";
ind_clt_error = bits, U32, 80, [1:1], "true", "false";
ind_map_error = bits, U32, 80, [2:2], "true", "false";
ind_iat_error = bits, U32, 80, [3:3], "true", "false";
ind_isTriggerError = bits, U32, 80, [5:5], "true", "false";
ind_hasFatalError=bits, U32, 80, [6:6], "true", "false";
ind_isWarnNow =bits, U32, 80, [7:7], "true", "false";
firmwareTsVersion = scalar,U32, 84, "version_p", 1, 0
egt1 = scalar, S16, 88, "°C", 1, 0
egt2 = scalar, S16, 90, "°C", 1, 0
egt3 = scalar, S16, 92, "°C", 1, 0
egt4 = scalar, S16, 94, "°C", 1, 0
egt5 = scalar, S16, 96, "°C", 1, 0
egt6 = scalar, S16, 98, "°C", 1, 0
egt7 = scalar, S16, 100, "°C", 1, 0
egt8 = scalar, S16, 102, "°C", 1, 0
rpmAcceleration = scalar, F32, 104, "dRpm", 1, 0
massAirFlowValue= scalar, F32, 108, "Kg/h", 1, 0
veValue = scalar, F32, 112, "ratio", 1, 0
deltaTps = scalar, F32, 116, "ratio", 1, 0
triggerErrorsCounter = scalar, U32,120, "counter", 1, 0
engineLoadAccelExtra = scalar,F32, 124, "value", 1, 0
tpsAccelFuel = scalar, F32, 128, "ms", 1, 0
baroCorrection = scalar, F32, 132, "%", 1, 0
pedalPosition = scalar, F32, 136, "%", 1, 0
injectorDutyCycle= scalar, F32, 140, "%", 1, 0
knockCount = scalar, U32, 144, "counter", 1, 0
; fuelLevel 148
knockLevel = scalar, F32, 152, "Volts", 1, 0
; totalTriggerErrorCounter 156
wallFuelAmount = scalar, F32, 160, "ms", 1, 0
iatCorrection = scalar, F32, 164, "%", 1, 0
wallFuelCorrection = scalar, F32, 168, "ms", 1, 0
idleAirValvePosition = scalar, F32, 172, "percent", 1, 0
currentTargetAfr = scalar, F32, 176, "ratio", 1, 0
chargeAirMass = scalar, F32, 180, "g", 1, 0
cltCorrection = scalar, F32, 184, "%", 1, 0
fuelRunning = scalar, F32, 188, "g", 1, 0
debugIntField1 = scalar, U32, 192, "val", 1, 0.0;
injectorLagMs = scalar, F32, 196, "ms", 1, 0.0;
debugFloatField2 = scalar, F32, 200, "val", 1, 0.0;
debugFloatField3 = scalar, F32, 204, "val", 1, 0.0;
debugFloatField4 = scalar, F32, 208, "val", 1, 0.0;
debugFloatField5 = scalar, F32, 212, "val", 1, 0.0;
debugIntField2 = scalar, U32, 216, "val", 1, 0.0;
debugIntField3 = scalar, U32, 220, "val", 1, 0.0;
engineLoadDelta = scalar,F32, 228, "value", 1, 0
speedToRpmRatio = scalar,F32, 232, "value", 1, 0
warningCounter = scalar,U32, 236, "count", 1, 0
lastErrorCode = scalar,U32, 240, "error", 1, 0
internalMcuTemperature = scalar,F32, 244, "C", 1, 0
vvtPosition = scalar,F32, 248, "deg", 1, 0
engineMode = scalar, U32, 252, "em", 1, 0.0;
debugFloatField6 = scalar, F32, 256, "val", 1, 0.0;
debugFloatField7 = scalar, F32, 260, "val", 1, 0.0;
firmwareVersion = scalar,U32, 264, "version_f", 1, 0
fuelPidCorrection = scalar, F32, 268, "ms", 1, 0
coilDutyCycle = scalar, F32, 272, "perc", 1, 0
accelerationX = scalar, S16, 276, "G", 0.01, 0
accelerationY = scalar, S16, 276, "G", 0.01, 0
oilPressure = scalar, F32, 280, "kPa", 1, 0.0
fuelConsumptionPerHour=scalar, F32, 284, "kPa", 1, 0.0
injectionOffset = scalar, F32, 288, "deg", 1, 0;
debugIntField4 = scalar, S16, 292, "val", 1, 0.0;
debugIntField5 = scalar, S16, 294, "val", 1, 0.0;
;
; see TunerStudioOutputChannels struct
;
; todo: generate this section programatically
LM_PLAIN_MAF = {0},
LM_ALPHA_N = {1},
LM_MAP = {2},
LM_SPEED_DENSITY = {3},
LM_REAL_MAF = {4}
egoCorrection = { 100 }
time = { timeNow }
; engineLoad = { fuleAlgorithm == 0 ? MAF : TPS }
[PcVariables]
wueAfrTargetOffset = array, S16, [ 16], ":1", 0.1, 0.0, -3.0, 3.0, 1;
wueAnalRecommend = array, U08, [ 16], "%", 1.00, 0.0, 100, 255.00, 0
[ConstantsExtensions]
defaultValue = wueAfrTargetOffset, -1.5 -1.4 -1.15 -0.95 -0.775 -0.65 -0.5625 -0.5 -0.4375 -0.375 -0.3125 -0.25 -0.1875 -0.125 -0.0625 0
[CurveEditor]
; xAxis = leftValue, rightValue, step
; yAxis = bottomValue, topValue, step
curve = knockThresholdCurve, "Engine knock threshold RPM based"
columnLabel = "RPM", "Threshold"
xAxis = 0, 8000, 10
yAxis = 0, 8, 10
xBins = knockNoiseRpmBins, RPMValue
yBins = knockNoise
gauge = RPMGauge
curve = narrowToWideOxygenCurve, "Narrow to Wideband approximation"
columnLabel = "Voltage", "AFR"
xAxis = 0, 6, 10
yAxis = 0, 28, 10
xBins = narrowToWideOxygenBins
yBins = narrowToWideOxygen
gauge = afr1Gauge
curve = fsioCurve1, "FSIO Curve #1"
columnLabel = "X", "Y"
xAxis = 0, 128, 10
yAxis = -155, 150, 10
xBins = fsioCurve1Bins
yBins = fsioCurve1
curve = fsioCurve2, "FSIO Curve #2"
columnLabel = "X", "Y"
xAxis = 0, 128, 10
yAxis = -150, 150, 10
xBins = fsioCurve2Bins
yBins = fsioCurve2
curve = fsioCurve3, "FSIO Curve #3"
columnLabel = "X", "Y"
xAxis = 0, 128, 10
yAxis = -5, 5, 10
xBins = fsioCurve3Bins
yBins = fsioCurve3
curve = fsioCurve4, "FSIO Curve #4"
columnLabel = "X", "Y"
xAxis = 0, 128, 10
yAxis = -5, 5, 10
xBins = fsioCurve4Bins
yBins = fsioCurve4
curve = mapAccelTaper, "Engine Load Acceleration Enrichment Taper"
columnLabel = "Distance", "Multiplier"
xAxis = 0, 128, 10
yAxis = -5, 5, 10
xBins = mapAccelTaperBins
yBins = mapAccelTaperMult
curve = dwellCorrection, "Dwell time RPM based"
columnLabel = "RPM", "Dwell"
xAxis = 0, 8000, 10
yAxis = 0, 30, 10
xBins = sparkDwellRpmBins, RPMValue
yBins = sparkDwellValues
gauge = RPMGauge
curve = map_samplingAngleCurve, "MAP Sampling Start Angle"
columnLabel = "RPM", "Angle"
xAxis = 0, 8000, 10
yAxis = 0, 180, 10
xBins = map_samplingAngleBins, RPMValue
yBins = map_samplingAngle
gauge = MAPGauge
curve = map_samplingWindowCurve, "MAP Sampling Duration"
columnLabel = "RPM", "Window"
xAxis = 0, 8000, 10
yAxis = 0, 180, 10
xBins = map_samplingWindowBins, RPMValue
yBins = map_samplingWindow
gauge = MAPGauge
curve = injectorsDeadTime, "Injector Dead Time by VBatt"
columnLabel = "Voltage", "Dead Time"
xAxis = 8, 21, 10
yAxis = -3, 3, 10
xBins = injector_battLagCorrBins, VBatt
yBins = injector_battLagCorr
gauge = VBattGauge
curve = mafDecodingCurve, "MAF Sensor Settings"
columnLabel = "Voltage", "kg/hour"
xAxis = -1, 6, 10
yAxis = -30, 1300, 10
xBins = mafDecodingBins, MAFValue
yBins = mafDecoding
gauge = MAFGauge
curve = iatFuelCorrCurve, "Intake air temperature fuel Multiplier"
columnLabel = "Coolant", "Multiplier"
#if CELSIUS
xAxis = -40, 120, 10
#else
xAxis = -40, 250, 10
#endif
yAxis = 0, 5, 10
xBins = iatFuelCorrBins, intake
yBins = iatFuelCorr
gauge = IATGauge
curve = cltTimingCorrCurve, "Warmup timing correction"
columnLabel = "Coolant", "Extra"
#if CELSIUS
xAxis = -40, 120, 10
#else
xAxis = -40, 250, 10
#endif
yAxis = 0, 50, 10
xBins = cltTimingBins, coolant
yBins = cltTimingExtra
gauge = CLTGauge
curve = cltFuelCorrCurve, "Warmup fuel manual Multiplier"
columnLabel = "Coolant", "Multiplier"
#if CELSIUS
xAxis = -40, 120, 10
#else
xAxis = -40, 250, 10
#endif
yAxis = 0, 50, 10
xBins = cltFuelCorrBins, coolant
yBins = cltFuelCorr
gauge = CLTGauge
curve = crankingCltCurve, "Cranking Coolant Temperature multiplier"
columnLabel = "Coolant", "Multiplier"
#if CELSIUS
xAxis = -40, 120, 10
#else
xAxis = -40, 250, 10
#endif
yAxis = 0, 5, 10
xBins = crankingFuelBins, coolant
yBins = crankingFuelCoef
gauge = CLTGauge
curve = etbTpsBiasCurve, "Electronic TB Bias Curve"
columnLabel = "TPS", "duty bias"
xAxis = 0, 100, 10
yAxis = 0, 100, 10
xBins = etbBiasBins, TPSValue
yBins = etbBiasValues
gauge = TPSGauge
curve = crankingTpsCurve, "Cranking TPS Multiplier"
columnLabel = "TPS", "Multiplier"
xAxis = 0, 100, 10
yAxis = 0, 5, 10
xBins = crankingTpsBins, TPSValue
yBins = crankingTpsCoef
gauge = TPSGauge
curve = crankingDurationCurve, "Cranking Duration Multiplier"
columnLabel = "Engine Cycle", "Multiplier"
xAxis = 0, 1000, 10
yAxis = 0, 5, 10
xBins = crankingCycleBins
yBins = crankingCycleCoef
curve = cltIdleCurve, "Warmup Idle multiplier"
columnLabel = "Coolant", "Multiplier"
#if CELSIUS
xAxis = -40, 120, 10
#else
xAxis = -40, 250, 10
#endif
yAxis = 0, 50, 10
xBins = cltIdleCorrBins, coolant
yBins = cltIdleCorr
gauge = CLTGauge
curve = iacCoastingCurve, "Coasting IAC Position for Auto-Idle"
columnLabel = "Coolant", "Multiplier"
#if CELSIUS
xAxis = -40, 120, 10
#else
xAxis = -40, 250, 10
#endif
yAxis = 0, 100, 10
xBins = iacCoastingBins, coolant
yBins = iacCoasting
gauge = idleAirValvePositionGauge
curve = cltCrankingCurve, "Cranking IAC multiplier"
columnLabel = "Coolant", "Multiplier"
#if CELSIUS
xAxis = -40, 120, 10
#else
xAxis = -40, 250, 10
#endif
yAxis = 0, 50, 10
xBins = cltCrankingCorrBins, coolant
yBins = cltCrankingCorr
gauge = CLTGauge
curve = cltIdleRPMCurve, "Idle Target RPM"
columnLabel = "Coolant", "RPM"
#if CELSIUS
xAxis = -40, 120, 10
#else
xAxis = -40, 250, 10
#endif
yAxis = 0, 8000, 10
xBins = cltIdleRpmBins, coolant
yBins = cltIdleRpm, RPMValue
gauge = CLTGauge
curve = idleAdvanceCurve, "Idle Advance Angle"
columnLabel = "RPM", "degrees"
xAxis = 0, 8000, 10
yAxis = -100, 100, 10
xBins = idleAdvanceBins, RPMValue
yBins = idleAdvance
gauge = RPMGauge
curve = idleVeCurve, "Idle VE"
columnLabel = "RPM", "%"
xAxis = 0, 8000, 10
yAxis = 0, 250, 10
xBins = idleVeBins, RPMValue
yBins = idleVe
gauge = afr1Gauge
curve = crankingAdvanceCurve, "Cranking Advance Angle"
columnLabel = "RPM", "degrees"
xAxis = 0, 8000, 10
yAxis = -100, 100, 10
xBins = crankingAdvanceBins, RPMValue
yBins = crankingAdvance
gauge = RPMGauge
curve = warmupTargetAfrCurve, "CLT-based target AFR"
columnLabel = "Coolant", "Correction"
#if CELSIUS
xAxis = -40, 120, 10
#else
xAxis = -40, 250, 10
#endif
yAxis = 0, 50, 10
xBins = warmupTargetAfrBins, coolant
yBins = warmupTargetAfr
gauge = CLTGauge
curve = wueAfrTargetOffsetCurve, "AFR Target Temperature Adjustment"
columnLabel = "Coolant", "AFR Offset"
#if CELSIUS
xAxis = -40, 200, 9
#else
xAxis = -40, 400, 9
#endif
yAxis = -3, 1, 5
xBins = cltFuelCorrBins, coolant
yBins = wueAfrTargetOffset
gauge = cltGauge
curve = wueAnalyzer_warmup_curve, "Warmup Enrichment"
columnLabel = "Coolant", "Current WUE", "Coolant", "Corrected"
#if CELSIUS
xAxis = -40, 200, 9
#else
xAxis = -40, 400, 9
#endif
yAxis = 90, 500, 6
xBins = cltFuelCorrBins, coolant
yBins = cltFuelCorr
yBins = wueAnalRecommend
;gauge = cltGauge
lineLabel = "Warmup Correction"
lineLabel = "Recommended WUE"
[TableEditor]
; table_id, map3d_id, "title", page
table = fuelTableMAFTbl, fuelTableMAFMap, "Fuel Table", 1
; constant, variable
xBins = fuelRpmBins, RPMValue
yBins = fuelLoadBins, MAFValue
zBins = fuelTable
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTableTPSTbl, fuelTableTPSMap, "Fuel Table", 1
; constant, variable
xBins = fuelRpmBins, RPMValue
yBins = fuelLoadBins, TPSValue
zBins = fuelTable
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTableELTbl, fuelTableELMap, "Fuel Table", 1
; constant, variable
xBins = fuelRpmBins, RPMValue
yBins = fuelLoadBins, engineLoad
zBins = fuelTable
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(RICHER)", "(LEANER)"
; move table into a panel? or find a way to add a link to https://rusefi.com//wiki/index.php?title=Manual:Software:TPSTPS
table = tpsTpsAccelTbl, tpsTpsAccelMap, "TPS/TPS Acceleration Extra Fuel(ms)", 1
xBins = tpsTpsAccelFromRpmBins, TPSValue
yBins = tpsTpsAccelToRpmBins, TPSValue
zBins = tpsTpsAccelTable
table = fsioTable1Tbl, fsioTable1Map, "FSIO Table #1", 1
xBins = fsioTable1RpmBins, RPMValue
yBins = fsioTable1LoadBins, engineLoad
zBins = fsioTable1
table = fsioTable2Tbl, fsioTable2Map, "FSIO Table #2", 1
xBins = fsioTable2RpmBins, RPMValue
yBins = fsioTable2LoadBins, engineLoad
zBins = fsioTable2
table = fsioTable3Tbl, fsioTable3Map, "FSIO Table #3", 1
xBins = fsioTable3RpmBins, RPMValue
yBins = fsioTable3LoadBins, engineLoad
zBins = fsioTable3
table = fsioTable4Tbl, fsioTable4Map, "FSIO Table #4", 1
xBins = fsioTable4RpmBins, RPMValue
yBins = fsioTable4LoadBins, engineLoad
zBins = fsioTable4
table = baroCorrTbl, baroCorrMap, "Baro Correction", 1
; constant, variable
xBins = baroCorrRpmBins, RPMValue
yBins = baroCorrPressureBins, baroPressure
zBins = baroCorrTable
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(RICHER)", "(LEANER)"
table = ignitionTableTbl, ignitionTableMap, "Ignition Table", 1
; constant, variable
xBins = ignitionRpmBins, RPMValue
#if FA_PLAIN_MAF
yBins = ignitionLoadBins, MAFValue
#elif FA_TPS
yBins = ignitionLoadBins, TPSValue
#else
yBins = ignitionLoadBins, engineLoad
#endif
zBins = ignitionTable
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(RICHER)", "(LEANER)"
table = ignitionTpsTableTbl, ignitionTableMap, "Ignition TPS Table", 1
; constant, variable
; Currently we share ignitionRpmBins between two advance tables... Is it ok?
xBins = ignitionRpmBins, RPMValue
yBins = ignitionTpsBins, TPSValue
zBins = ignitionTpsTable
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(RICHER)", "(LEANER)"
table = ignitionIatCorrTableTbl, ignitionIatCorrTableMap, "Ignition Intake Air Temp correction", 1
; constant, variable
xBins = ignitionIatCorrRpmBins, RPMValue
yBins = ignitionIatCorrLoadBins, intake
zBins = ignitionIatCorrTable
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(RICHER)", "(LEANER)"
table = veTableTbl, veTableMap, "VE Table", 1
; constant, variable
xBins = veRpmBins, RPMValue
yBins = veLoadBins, MAPValue
zBins = veTable
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(RICHER)", "(LEANER)"
table = injPhaseTableTbl, injPhaseTableMap, "Injection Phase", 1
; constant, variable
xBins = injPhaseRpmBins, RPMValue
yBins = injPhaseLoadBins, engineLoad
zBins = injectionPhase
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(Later)", "(Sooner)"
table = afrTableTbl, afrTableMap, "Target AFR Table", 1
; constant, variable
xBins = afrRpmBins, RPMValue
yBins = afrLoadBins, MAPValue
zBins = afrTable
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(RICHER)", "(LEANER)"
[GaugeConfigurations]
;Name Var Title Units Lo Hi LoD LoW HiW HiD vd ld
#if CELSIUS
tChargeGauge = tCharge, "Charge Temp", "°C", -40, 140, -15, 1, 95, 110, 1, 1
#else
tChargeGauge = tCharge, "Charge Temp", "°F", -40, 285, 5, 35, 205, 230, 1, 1
#endif
; warmupEnrichGauge = warmupEnrich, "Warmup Enrichment", "%", 100, 150, -1, -1, 101, 105, 0, 0
; accelEnrichGauge = accDecEnrich, "Accel Enrich", "%", 50, 150, -1, -1, 999, 999, 0, 0
egt1Gauge = egt1, "EGT#1", "C", 0, 2000
egt2Gauge = egt2, "EGT#2", "C", 0, 2000
egt3Gauge = egt3, "EGT#3", "C", 0, 2000
egt4Gauge = egt4, "EGT#4", "C", 0, 2000
egt5Gauge = egt5, "EGT#5", "C", 0, 2000
egt6Gauge = egt6, "EGT#6", "C", 0, 2000
egt7Gauge = egt7, "EGT#7", "C", 0, 2000
egt8Gauge = egt8, "EGT#8", "C", 0, 2000
rpmAccelerationGa = rpmAcceleration, "rpm delta", "dRpm", 0, 3, 0, 1, 3, 4, 1, 1
massAirFlowValueGa = massAirFlowValue,"Air Flow", "kg/hr", 0, 50, -999, -999, 999, 999, 1, 1
veValueGauge = veValue, "fuel: VE", "", 0, 120, 10, 10, 100, 100, 1, 1
baroCorrectionGauge = baroCorrection,"BaroCorr", "%", 0, 120, 10, 10, 100, 100, 1, 1
knockCountGauge = knockCount,"Knock count", "count", 0, 120, 10, 10, 100, 100, 1, 1
knockLevelGauge = knockLevel,"Knock level", "volts", 0, 7, 10, 10, 100, 100, 1, 2
triggerErrorsCounterGauge = triggerErrorsCounter, "trg err", "count", 0, 15000, 0, 0, 6000, 6000, 0, 0
idleAirValvePositionGauge = idleAirValvePosition, "idle position", "%", 0, 100, 0, 0, 100, 100, 1, 1
speedToRpmRatioGauge = speedToRpmRatio, "speed2rpm", "", 0, 100, 0, 0, 100, 100, 4, 4
warningCounterGauge = warningCounter, "warn", "", 0, 100, 0, 0, 100, 100, 0, 0
lastErrorCodeGauge = lastErrorCode, "error", "", 0, 8000, 0, 0, 8000, 8000, 0, 0
gaugeCategory = Debug
debugFloatField1Gauge = debugFloatField1, @@GAUGE_NAME_DEBUG_F1@@, "%", 0, 100, 0, 0, 100, 100, 4, 4
debugFloatField2Gauge = debugFloatField2, @@GAUGE_NAME_DEBUG_F2@@, "%", -100, 100, 0, 0, 100, 100, 4, 4
debugFloatField3Gauge = debugFloatField3, @@GAUGE_NAME_DEBUG_F3@@, "%", -100, 100, 0, 0, 100, 100, 4, 4
debugFloatField4Gauge = debugFloatField4, @@GAUGE_NAME_DEBUG_F4@@, "%", 0, 100, 0, 0, 100, 100, 4, 4
debugFloatField5Gauge = debugFloatField5, @@GAUGE_NAME_DEBUG_F5@@, "%", 0, 100, 0, 0, 100, 100, 4, 4
debugFloatField6Gauge = debugFloatField6, @@GAUGE_NAME_DEBUG_F6@@, "%", -100, 100, 0, 0, 100, 100, 4, 4
debugFloatField7Gauge = debugFloatField7, @@GAUGE_NAME_DEBUG_F7@@, "%", 0, 100, 0, 0, 100, 100, 4, 4
debugIntField1Gauge = debugIntField1, "debug i1: pParam", "%", 0, 100, 0, 0, 100, 100, 0, 0
debugIntField2Gauge = debugIntField2, "debug i2: offset", "%", 0, 100, 0, 0, 100, 100, 0, 0
debugIntField3Gauge = debugIntField3, "debug i3", "%", 0, 100, 0, 0, 100, 100, 0, 0
gaugeCategory = Sensors
RPMGauge = RPMValue, "Engine Speed", "RPM", 0, 15000, 200, 500, 6000, 6000, 0, 0
#if CELSIUS
CLTGauge = coolant, "Coolant Temp", "°C", -40, 140, -15, 1, 95, 110, 1, 1
#else
CLTGauge = coolant, "Coolant Temp", "°F", -40, 285, 5, 35, 205, 230, 1, 1
#endif
#if CELSIUS
IATGauge = intake, "Intake Air Temp", "°C", -40, 140, -15, 1, 95, 110, 1, 1
#else
IATGauge = intake, "Intake Air Temp", "°F", -40, 285, 5, 35, 205, 230, 1, 1
#endif
TPSGauge = TPSValue, "Throttle Position", "%", 0, 100, 0, 0, 100, 100, 2, 2
afr1Gauge = AFRValue, "Air:Fuel Ratio 1", "", 10, 19.4, 12, 13, 15, 16, 2, 2
MAFGauge = MAFValue, "Mass Air Flow", "v", 0, 5, 0, 1, 3, 4, 1, 1
VBattGauge = VBatt, "Battery Voltage", "V", 8, 21, 9, 10, 17, 19, 1, 1
MAPGauge = MAPValue, "MAP", "kPa", 0, 300, 10, 10, 200, 200, 0, 0
OilPressGauge = oilPressure, "Oil Pressure", "kPa", 0, 750, 35, 75, 550, 700, 0, 0
fuelConsumptionPerHourGauge=fuelConsumptionPerHour, "f","kPa", 0, 750, 35, 75, 550, 700, 0, 0
tpsADCGauge = tpsADC, "tps ADC", "ADC", 0, 1024, 0, 0, 0, 0, 0, 0
atmPresCGauge = baroPressure, "Baro", "kPa", 0, 1024, 0, 0, 0, 0, 0, 0
vvtPositionGauge = vvtPosition, "VVT position", "deg", 0, 100, 0, 0, 720, 720, 0, 0
internalMcuTemperatureGauge = internalMcuTemperature, "internal temperature", "C", 0, 100, 0, 0, 100, 100, 0, 0
VSSGauge = vehicleSpeedKph, "Speed", "kmh", 0, 200, 0, 1, 3, 4, 1, 1
pedalPositionGauge = pedalPosition,"Throttle Pedal Position", "%", 0, 120, 10, 10, 100, 100, 1, 1
accelerationXGauge = accelerationX, @@GAUGE_NAME_ACCEL_X@@, "acc", -11, 11, 1.0, 1.2, 100, 100, 3, 1
accelerationYGauge = accelerationY, @@GAUGE_NAME_ACCEL_Y@@, "acc", -11, 11, 1.0, 1.2, 100, 100, 3, 1
gaugeCategory = Spark Data
ignadvGauge = ignitionAdvance, "Ignition Advance 1", "degrees", -100, 100, -999, -999, 999, 999, 1, 1
dwellGauge = sparkDwellValue, "Dwell", "mSec", 0, 10, 0.5, 1.0, 6.0, 8.0, 1, 1
coilDutyCycleGauge = coilDutyCycle, @@GAUGE_NAME_DWELL_DUTY@@, "perc", -11, 11, 1.0, 1.2, 100, 100, 3, 1
gaugeCategory = Accel Data
engineLoadDeltaGauge = engineLoadDelta,"fuel: load change","value", 0, 120, 10, 10, 100, 100, 1, 1
engineLoadAccelExtraGauge = engineLoadAccelExtra,"fuel: load extra","value", 0, 120, 10, 10, 100, 100, 1, 1
deltaTpsGauge = deltaTps, "fuel: TPS change", "", 0, 120, 10, 10, 100, 100, 1, 1
tpsAccelFuelGauge = tpsAccelFuel,"fuel: TPS enrich", "ms", 0, 120, 10, 10, 100, 100, 1, 1
wallFuelAmountGauge = wallFuelAmount, "fuel: wall amount", "ms", 0, 100, 0, 0, 100, 100, 0, 0
wallFuelCorrectionGauge = wallFuelCorrection, "fuel: wall correction extra", "ms", 0, 100, 0, 0, 100, 100, 0, 0
gaugeCategory = Fuel Data
crankingFuelGauge = crankingFuel, "fuel: crank Width", "mSec", 0, 25.5, 1.0, 1.2, 20, 25, 3, 1
iatCorrectionGauge = iatCorrection, @@GAUGE_NAME_FUEL_IAT_CORR@@, "mult", 0, 3, 0, 0, 3, 3, 2, 2
cltCorrectionGauge = cltCorrection, @@GAUGE_NAME_FUEL_CLT_CORR@@, "mult", 0, 3, 0, 0, 3, 3, 2, 2
injectorDutyCycleGauge=injectorDutyCycle, @@GAUGE_NAME_FUEL_INJ_DUTY@@,"%", 0, 120, 10, 10, 100, 100, 1, 1
actualLastInjectionGauge = actualLastInjection, @@GAUGE_NAME_FUEL_LAST_INJECTION@@, "mSec", 0, 25.5, 1.0, 1.2, 20, 25, 3, 1
injectorLagMsGauge = injectorLagMs, @@GAUGE_NAME_INJECTOR_LAG@@, "mSec", 0, 25.5, 1.0, 1.2, 20, 25, 3, 1
fuelRunningGauge = fuelRunning, @@GAUGE_NAME_FUEL_RUNNING@@, "mSec", 0, 25.5, 1.0, 1.2, 20, 25, 3, 1
baseFuelGauge = baseFuel, @@GAUGE_NAME_FUEL_BASE@@, "mSec", 0, 25.5, 1.0, 1.2, 20, 25, 3, 1
fuelPidCorrectionGauge = fuelPidCorrection, @@GAUGE_NAME_FUEL_PID_CORR@@, "mSec", -11, 11, 1.0, 1.2, 20, 25, 3, 1
[WueAnalyze]
; wueCurveName, afrTempCompensationCurve, lambdaTargetTableName, lambdaChannel, coolantTempChannel, egoCorrectionChannel, wueChannel, activeCondition
wueAnalyzeMap = wueAnalyzer_warmup_curve, wueAfrTargetOffsetCurve, afrTableTbl, AFRValue, coolant, cltCorrection, egoCorrection
lambdaTargetTables = afrTableTbl, afrTSCustom
wuePercentOffset = 0 ; for working with 0 based enrichment set to 100
option = disableLiveUpdates
option = burnOnSend
; filter = std_DeadLambda ; Auto build
filter = decelFilterMap,"After Start Enrich", engine, & , 4 , , false
filter = accelFilterTp, "TP Accel Enrich" , engine, & , 16, , false
filter = decelFilterTp, "TP Decel Enrich" , engine, & , 32, , false
filter = accelFilterMap,"MAP Accel Enrich" , engine, & , 64, , false
filter = decelFilterMap,"MAP Decel Enrich" , engine, & , 128, , false
; this works, just another way to skin a cat
;filter = decelFilter, "Decel Flag" , tpsaccden, > , 0, , false
filter = overrunFilter, "Overrun" , pulseWidth1, = , 0, , false
filter = highThrottle, "High Throttle" , throttle, > , 15, , true
filter = lowRpm, "Low RPM" , rpm, < , 300, , false
filter = std_Custom ; Standard Custom Expression Filter.
[FrontPage]
; Gauges are numbered left to right, top to bottom.
;
; 1 2 3 4
; 5 6 7 8
; currently a minimum of 6 gauges must be on the dash, this appears to be an old not needed limitation. next release 1 will work.
gauge1 = RPMGauge
gauge2 = CLTGauge
gauge3 = TPSGauge
gauge4 = MAFGauge
gauge5 = afr1Gauge
gauge6 = VBattGauge
gauge7 = dwellGauge
gauge8 = ignadvGauge
; = expression, off-label, on-label, off-bg, off-fg, on-bg, on-fg
; important status
indicator = { ind_hasFatalError }, "", "FATAL ERROR", green, black, red, black
indicator = { firmwareTsVersion == fileVersion }, "WRONG VERSION", "version", red, black, green, black
indicator = { ind_isWarnNow }, "", "warn", green, black, red, black
indicator = { ind_check_engine }, "ok", "Check engine", green, black, red, black
indicator = { isIgnitionEnabledIndicator}, "no ignition", "ignition", red, black, green, black
indicator = { ind_injection_enabled}, "no injection", "injection", red, black, green, black
indicator = { ind_isTriggerError}, "ok", "trg err", green, black, red, black
; minor info
indicator = { ind_fan}, "no fan", "fan", white, black, green, black
indicator = { isCylinderCleanupActivated}, "no cyl cleanup", "cyl cleanup", white, black, green, black
indicator = { needBurn }, "config ok", "unsaved changes", white, black, yellow, black
indicator = { hasSdCard}, "no SD", "with SD", white, black, green, black
indicator = { ind_fuel_pump}, "no pump", "pump", white, black, green, black
indicator = { clutchUpState }, "clutch", "cltch Up", white, black, red, black
indicator = { clutchDownState }, "clutch", "cltch Down", white, black, red, black
indicator = { brakePedalIndicator }, "brake", "brake down", white, black, red, black
; error codes
indicator = { ind_tps_error}, "tps", "tps error", white, black, red, black
indicator = { ind_clt_error}, "clt", "clt error", white, black, red, black
indicator = { ind_iat_error}, "iat", "iat error", white, black, red, black
indicator = { ind_map_error}, "map", "map error", white, black, red, black
indicator = { knockEverIndicator }, "", "Knock recently", white, black, red, black
indicator = { knockNowIndicator }, "no knock", "Knock NOW", white, black, red, black
[Datalog]
; Channel Label Type Format
entry = time, "Time", float, "%.3f"
entry = RPMValue, "RPM", int, "%d"
entry = firmwareVersion, @@GAUGE_NAME_VERSION@@, int, "%d"
entry = coolant, "CLT", float, "%.2f"
entry = intake, "IAT", float, "%.2f"
entry = oilPressure, "Oil Press", float, "%.1f"
entry = TPSValue, "TPS", float, "%.2f"
entry = MAFValue, "MAF", float, "%.2f"
entry = MAPValue, "MAP", float, "%.1f"
entry = AFRValue, @@GAUGE_NAME_AFR@@, float, "%.2f"
entry = VBatt, @@GAUGE_NAME_VBAT@@, float, "%.2f"
entry = engineLoad, @@GAUGE_NAME_ENGINE_LOAD@@, float, "%.1f"
entry = ignitionAdvance, @@GAUGE_NAME_TIMING_ADVANCE@@, float, "%.2f"
entry = knockLevel, @@GAUGE_NAME_KNOCK_LEVEL@@, float, "%.2f"
entry = knockCount, @@GAUGE_NAME_KNOCK_COUNTER@@, int, "%d"
entry = vehicleSpeedKph, @@GAUGE_NAME_VVS@@, float, "%.2f"
entry = speedToRpmRatio, "s2rpm", float, "%.3f"
entry = rpmAcceleration, "dRPM", float, "%.3f"
entry = massAirFlowValue,"air flow", float, "%.3f"
entry = chargeAirMass, "air mass", float, "%.3f"
entry = pedalPosition, "pedal", float, "%.3f"
entry = triggerErrorsCounter, "trg err",int, "%d"
entry = idleAirValvePosition, @@GAUGE_NAME_IAC@@, float, "%.3f"
entry = injectorLagMs, @@GAUGE_NAME_INJECTOR_LAG@@, float, "%.3f"
entry = fuelRunning, @@GAUGE_NAME_FUEL_RUNNING@@, float, "%.3f"
entry = actualLastInjection, @@GAUGE_NAME_FUEL_LAST_INJECTION@@, float, "%.3f"
entry = baseFuel, "fuel: base", float, "%.2f"
entry = fuelPidCorrection,"fuel: pid", float, "%.2f"
entry = veValue, @@GAUGE_NAME_FUEL_VR@@, float, "%.3f"
entry = injectorDutyCycle,@@GAUGE_NAME_FUEL_INJ_DUTY@@,float,"%.3f"
entry = coilDutyCycle, @@GAUGE_NAME_DWELL_DUTY@@, float,"%.3f"
entry = currentTargetAfr,@@GAUGE_NAME_TARGET_AFR@@, float,"%.3f"
entry = accelerationX, @@GAUGE_NAME_ACCEL_X@@, float,"%.2f"
entry = accelerationY, @@GAUGE_NAME_ACCEL_Y@@, float,"%.2f"
entry = egt1, "EGT1", float,"%.1f"
entry = egt2, "EGT2", float,"%.1f"
entry = egt3, "EGT3", float,"%.1f"
entry = egt4, "EGT4", float,"%.1f"
entry = egt5, "EGT5", float,"%.1f"
entry = egt6, "EGT6", float,"%.1f"
entry = egt7, "EGT7", float,"%.1f"
entry = egt8, "EGT8", float,"%.1f"
entry = engineLoadAccelExtra, @@GAUGE_NAME_FUEL_EL_EXTRA@@,float, "%.3f"
entry = engineLoadDelta, "fuel: load change",float, "%.3f"
entry = deltaTps, "fuel: TPS change",float, "%.3f"
entry = tpsAccelFuel, @@GAUGE_NAME_FUEL_TPS_EXTRA@@, float, "%.3f"
entry = wallFuelCorrection,"fuel: wall corr ms", float, "%.3f"
entry = wallFuelAmount, "fuel: wall amount", float, "%.3f"
entry = baroCorrection, "baroCorrection",float,"%.3f"
entry = iatCorrection, @@GAUGE_NAME_FUEL_IAT_CORR@@, float, "%.3f"
entry = cltCorrection, @@GAUGE_NAME_FUEL_CLT_CORR@@, float,"%.3f"
entry = sparkDwellValue, @@GAUGE_COIL_DWELL_TIME@@, float,"%.3f"
entry = vvtPosition, @@GAUGE_NAME_VVT@@, float,"%.2f"
entry = injectionOffset, "injOffset" , float, "%.2F"
; is there a way to log parameter? entry = debugMode, "debugMode",int,"%d"
; Alternator_PID: alternator duty cycle
; DBG_TPS_ACCEL: from TPS
entry = debugFloatField1, @@GAUGE_NAME_DEBUG_F1@@,float,"%.4f"
; Alternator_PID: current integration term
; DBG_TPS_ACCEL: to TPS
entry = debugFloatField2, @@GAUGE_NAME_DEBUG_F2@@,float,"%.4f"
; Alternator_PID: previous error
; DBG_TPS_ACCEL: tps<>tps table value
entry = debugFloatField3, @@GAUGE_NAME_DEBUG_F3@@,float,"%.4f"
; Alternator_PID: I setting
; DBG_TPS_ACCEL: extra fuel
entry = debugFloatField4, @@GAUGE_NAME_DEBUG_F4@@,float,"%.4f"
; Alternator_PID: D setting
entry = debugFloatField5, @@GAUGE_NAME_DEBUG_F5@@,float,"%.4f"
; Alternator_PID: dTerm
entry = debugFloatField6, @@GAUGE_NAME_DEBUG_F6@@,float,"%.4f"
entry = debugFloatField7, @@GAUGE_NAME_DEBUG_F7@@,float,"%.4f"
; Alternator_PID: P setting
entry = debugIntField1, @@GAUGE_NAME_DEBUG_I1@@,int,"%d"
; Alternator_PID: offset setting
entry = debugIntField2, @@GAUGE_NAME_DEBUG_I2@@,int,"%d"
; Alternator_PID: PID reset counter
entry = debugIntField3, @@GAUGE_NAME_DEBUG_I3@@,int,"%d"
entry = debugIntField4, @@GAUGE_NAME_DEBUG_I4@@,int,"%d"
entry = debugIntField5, @@GAUGE_NAME_DEBUG_I5@@,int,"%d"
entry = engineMode, "Engine Mode",int,"%d"
entry = warningCounter, @@GAUGE_NAME_WARNING_COUNTER@@,int,"%d"
entry = lastErrorCode, @@GAUGE_NAME_WARNING_LAST@@,int,"%d"
entry = internalMcuTemperature, @@GAUGE_NAME_CPU_TEMP@@,float,"%.2f"
entry = tCharge, "tCharge",float,"%.3f"
entry = clutchUpState, @@INDICATOR_NAME_CLUTCH_UP@@,int,"%d"
entry = clutchDownState, @@INDICATOR_NAME_CLUTCH_DOWN@@,int,"%d"
entry = brakePedalIndicator, @@INDICATOR_NAME_BRAKE_DOWN@@,int,"%d"
entry = ind_fan, "radiator fan",int,"%d"
; tpsADC = U16, "ADC",
; alignmet = U16, "al",
; atmPres = F32, "pres",
; crankingFuel = F32, "ms",
; tCharge = F32, "T",
; sparkDwell = F32, "MAP",
; warmUpEnrich = F32, "%",
[Menu]
menuDialog = main
menu = "&Base &Engine"
subMenu = engineChars, "Base Engine Settings"
subMenu = triggerConfiguration, "Trigger Configuration"
subMenu = std_separator
subMenu = energySystems, "Battery and Alternator Settings"
subMenu = std_separator
subMenu = fanSetting, "Fan Settings"
subMenu = malfunction, "MIL Settings"
subMenu = etbDialog, "Electronic Thtottle Body (beta version)"
subMenu = etbTpsBiasCurve, "Electronic Thtottle Body Bias Curve"
subMenu = std_separator
subMenu = std_realtime, "&Realtime Display", 0
menu = "Injection"
subMenu = injectionSettings, "Injection Settings"
subMenu = injectionDeadTime, "Injector Dead Time"
subMenu = std_separator
subMenu = fuelTableDialog, "Fuel Table", 0, {fuelAlgorithm != LM_SPEED_DENSITY}
subMenu = veTableDialog, "VE Table", 0, {fuelAlgorithm == LM_SPEED_DENSITY}
subMenu = afrTableTbl, "Target AFR Table", 0, {fuelAlgorithm == LM_SPEED_DENSITY}
subMenu = injPhaseTableTbl, "Injection Phase Table"
subMenu = std_separator
subMenu = warmupFuelDialog, "Warmup fuel closed-loop"
subMenu = cltFuelCorrCurve, "Warmup fuel manual Multiplier", 0, {useWarmupPidAfr == 0}
subMenu = warmupTargetAfrCurve, "Warmup fuel auto correction AFR target", 0, {useWarmupPidAfr == 1}
subMenu = iatFuelCorrCurve, "Intake air temperature fuel Multiplier"
subMenu = std_separator
subMenu = fuelClosedLoopDialog, "Fuel short-term closed-loop correction"
menu = "Ignition"
subMenu = ignitionSettings, "Ignition Settings"
subMenu = dwellSettings, "Dwell time"
subMenu = ignitionCylExtra, "Ignition Cylinder Extra"
subMenu = std_separator
subMenu = ignitionTableTbl, "Ignition Advance Table", 0, {useTPSAdvanceTable == 0}
subMenu = ignitionTpsTableTbl, "Ignition Advance TPS-based Table", 0, {useTPSAdvanceTable == 1}
subMenu = std_separator
subMenu = cltTimingCorrCurve, "Warmup timing correction"
subMenu = ignitionIatCorrTableTbl, "Ignition IAT correction Table"
menu = "&Cranking"
subMenu = crankingDialog, "Cranking Settings"
subMenu = std_separator
subMenu = crankingCltCurve, "Cranking Coolant Temp Fuel Multiplier"
subMenu = crankingDurationCurve, "Cranking Fuel Duration Multiplier"
subMenu = crankingAdvanceCurve, "Cranking Ignition Advance", 0, {useSeparateAdvanceForCranking == 1}
subMenu = crankingTpsCurve, "Cranking TPS Multiplier"
subMenu = std_separator
subMenu = cltCrankingCurve, "Cranking IAC multiplier", 0, {overrideCrankingIacSetting == 1}
menu = "&Idle"
subMenu = idleSettings, "Idle Settings"
subMenu = std_separator
subMenu = cltIdleRPMCurve, "Idle Target RPM", 0, {idleMode == 0}
subMenu = idleVeCurve, "Idle VE", 0, {useSeparateVeForIdle == 1}
subMenu = idleAdvanceCurve, "Idle Ignition Advance", 0, {useSeparateAdvanceForIdle == 1}
subMenu = std_separator
subMenu = cltIdleCurve, "Warmup Idle multiplier"
subMenu = iacCoastingCurve, "Coasting IAC Position for Auto-Idle", 0, {useIacTableForCoasting == 1}
menu = "&Tuning"
subMenu = AccelEnrich, "Accel/Decel Enrichment/Enleanment"
subMenu = tpsTpsAccelTbl, "TPS/TPS Acceleration Extra Fuel Table"
subMenu = mapAccelTaper, "Engine Load Acceleration Enrichment Taper"
subMenu = std_separator
subMenu = baroCorrTbl, "Baro Correction Table", 0, {fuelAlgorithm == LM_SPEED_DENSITY}
subMenu = std_separator
subMenu = tChargeSettings, "tCharge Settings"
subMenu = std_separator
subMenu = smLaunchControl, "Launch Control"
subMenu = std_separator
subMenu = coastingFuelCutControl, "Coasting Fuel Cutoff Settings"
menuDialog = main
menu = "&FSIO"
subMenu = fsioInputsDialog, "FSIO inputs"
subMenu = auxPidDialog, "Aux PID"
subMenu = fsioOutputsDialog, "FSIO outputs"
subMenu = fsioTable1Tbl, "FSIO Table #1"
subMenu = fsioTable2Tbl, "FSIO Table #2"
subMenu = fsioTable3Tbl, "FSIO Table #3"
subMenu = fsioTable4Tbl, "FSIO Table #4"
subMenu = fsioFormulas, "FSIO Formulas"
subMenu = fsioCurve1, "FSIO Curve #1"
subMenu = fsioCurve2, "FSIO Curve #2"
subMenu = fsioCurve3, "FSIO Curve #3"
subMenu = fsioCurve4, "FSIO Curve #4"
menuDialog = main
menu = "&Sensors"
subMenu = cltSensor, "CLT Sensor Settings"
subMenu = iatSensor, "IAT Sensor Settings"
subMenu = auxTempSensor1Sensor, "AuxTemp1 Sensor Settings"
subMenu = auxTempSensor2Sensor, "AuxTemp2 Sensor Settings"
subMenu = std_separator
subMenu = mapSettings, "MAP Sensor Settings"
subMenu = mafDecodingCurve, "MAF Sensor Settings"
subMenu = std_separator
subMenu = egoSettings, "EGO Sensor Settings"
subMenu = narrowToWideOxygenCurve, "Narrow to Wideband approximation"
subMenu = cj125Function, "CJ125 Settings (wbo decoder)"
subMenu = std_separator
subMenu = hipFunction, "HIP9011 Settings (knock sensor) (alpha version)"
subMenu = speedSensor, "Vehicle Speed Sensor Settings"
subMenu = oilPressureSensor, "Oil Pressure Sensor Settings"
menuDialog = main
menu = "&Controller"
subMenu = sensorInputs, "Sensor Inputs"
subMenu = analogInputSettings, "Analog Input Settings"
subMenu = egtInputs, "EGT Inputs"
subMenu = tachSettings, "Tachometer output"
subMenu = idlehw, "Idle Valve Hardware"
subMenu = std_separator
subMenu = injectorOutputSettings, "Injector Outputs"
subMenu = ignitionOutputSettings, "Ignition Outputs"
subMenu = deviceOutputSettings, "Actuator Outputs"
subMenu = std_separator
subMenu = joystickPanel, "Joystick"
subMenu = ecuStimulator, "ECU stimulator"
subMenu = spiFunction, "SPI Settings"
subMenu = monitoringSettings, "rusEfi Console Settings"
subMenu = std_separator
subMenu = connection, "Connection"
subMenu = ioTest, "I-O Test"
subMenu = allPins, "Full pinout"
[ControllerCommands]
; commandName = command1, command2, commandn...
; command in standard ini format, a command name can be assigned to 1 to n commands that will be executed in order.
; This does not include any resultant protocol envelope data, only the response data itself.
; WARNING!! These commands bypass TunerStudio's normal memory synchronization. If these commands
; alter mapped settings (Constant) memory in the controller, TunerStudio will have an out of sync condition
; and may create error messages.
; It is expected that these commands would not typically alter any ram mapped to a Constant.
;
; see TS_IO_TEST_COMMAND in firmware code
;
cmd_test_spk1 = "w\x00\x12\x00\x01"
cmd_test_spk2 = "w\x00\x12\x00\x02"
cmd_test_spk3 = "w\x00\x12\x00\x03"
cmd_test_spk4 = "w\x00\x12\x00\x04"
cmd_test_spk5 = "w\x00\x12\x00\x05"
cmd_test_spk6 = "w\x00\x12\x00\x06"
cmd_test_spk7 = "w\x00\x12\x00\x07"
cmd_test_spk8 = "w\x00\x12\x00\x08"
cmd_test_spk9 = "w\x00\x12\x00\x09"
cmd_test_spk10 = "w\x00\x12\x00\x0a"
cmd_test_spk11 = "w\x00\x12\x00\x0b"
cmd_test_spk12 = "w\x00\x12\x00\x0c"
cmd_test_spk13 = "w\x00\x12\x00\x0d"
cmd_test_spk14 = "w\x00\x12\x00\x0e"
cmd_test_spk15 = "w\x00\x12\x00\x0f"
cmd_test_spk16 = "w\x00\x12\x00\x10"
cmd_test_inj1 = "w\x00\x13\x00\x01"
cmd_test_inj2 = "w\x00\x13\x00\x02"
cmd_test_inj3 = "w\x00\x13\x00\x03"
cmd_test_inj4 = "w\x00\x13\x00\x04"
cmd_test_inj5 = "w\x00\x13\x00\x05"
cmd_test_inj6 = "w\x00\x13\x00\x06"
cmd_test_inj7 = "w\x00\x13\x00\x07"
cmd_test_inj8 = "w\x00\x13\x00\x08"
cmd_test_inj9 = "w\x00\x13\x00\x09"
cmd_test_inj10 = "w\x00\x13\x00\x0a"
cmd_test_inj11 = "w\x00\x13\x00\x0b"
cmd_test_inj12 = "w\x00\x13\x00\x0c"
cmd_test_inj13 = "w\x00\x13\x00\x0d"
cmd_test_inj14 = "w\x00\x13\x00\x0e"
cmd_test_inj15 = "w\x00\x13\x00\x0f"
cmd_test_inj16 = "w\x00\x13\x00\x10"
cmd_test_fuel_pump = "w\x00\x14\x00\x01"
cmd_test_radiator_fan = "w\x00\x15\x00\x01"
cmd_test_check_engine_light = "w\x00\x16\x00\x01"
cmd_test_idle_valve = "w\x00\x17\x00\x01"
cmd_call_from_pit = "w\x00\x20\x34\x56"
cmd_stop_engine = "w\x00\x99\x00\x00"
[UserDefined]
dialog = fuelTableBottomDialog, "", card
panel = fuelTableMAFTbl, Center, {fuelAlgorithm==LM_PLAIN_MAF}
panel = fuelTableTPSTbl, Center, {fuelAlgorithm==LM_ALPHA_N}
panel = fuelTableELTbl, Center
dialog = fuelTableRight, "", yAxis
topicHelp = "http://rusefi.com/fuel"
displayOnlyField = "Fuel Algorithm", fuelAlgorithm
panel = fuelTableBottomDialog, Center
liveGraph = fuelLive, "Fuel", South
graphLine = AFRValue
graphLine = RPMValue
dialog = fuelTableGaugesPanel, yAxis
gauge = TPSGauge
gauge = MAFGauge
gauge = MAPGauge
dialog = fuelTableDialog, "Fuel Table", xAxis
panel = fuelTableGaugesPanel
panel = fuelTableRight
dialog = tChargeRpmTpsSettings, "RPM+TPS Mode Settings"
field = "We use these coefficients to approximate air/fuel charge temperate"
field = "based on CLT and IAT, depending on RPM and TPM"
field = "minRPM minTPS", tChargeMinRpmMinTps
field = "minRPM maxTPS", tChargeMinRpmMaxTps
field = "maxRPM minTPS", tChargeMaxRpmMinTps
field = "maxRPM maxTPS", tChargeMaxRpmMaxTps
dialog = tChargeGeneralSettings, ""
field = "tCharge Mode", tChargeMode
field = "tChange Increment Limit, deg/sec", tChargeAirIncrLimit
field = "tChange Decrement Limit, deg/sec", tChargeAirDecrLimit
field = ""
dialog = tChargeAirInterpSettings, "Air Interpolation Mode Settings"
field = "Min tCharge Coeff.", tChargeAirCoefMin
field = "Max tCharge Coeff.", tChargeAirCoefMax
field = "Max Air Flow, kg/h", tChargeAirFlowMax
dialog = tChargeSettings, "tCharge Settings"
panel = tChargeGeneralSettings
panel = tChargeRpmTpsSettings, { tChargeMode == 0}
panel = tChargeAirInterpSettings, { tChargeMode == 1}
dialog = baseInjection, "General"
field = "Enabled", isInjectionEnabled
field = "Mode", injectionMode, {isInjectionEnabled == 1}
field = "#Batch injection with individual wiring"
field = "Two wire batch emulation", twoWireBatchInjection, {isInjectionEnabled == 1 && injectionMode == 2}
dialog = ignitionSettings, "Ignition Settings"
field = "Enabled", isIgnitionEnabled
field = "Mode", ignitionMode, {isIgnitionEnabled == 1}
field = "#Wasted spark with individual coils"
field = "Two wire wasted", twoWireBatchIgnition, {isIgnitionEnabled == 1 && ignitionMode == 2}
field = "Timing Mode", timingMode, {isIgnitionEnabled == 1}
field = "Use TPS-based Advance Table", useTPSAdvanceTable, {isIgnitionEnabled == 1 && fuelAlgorithm == LM_SPEED_DENSITY}
field = "#Use fixed timing while validating with a timing gun"
field = "Fixed Timinig", fixedTiming, {isIgnitionEnabled == 1 && timingMode == 1}
dialog = baseEngineConfig, "Engine Configuration"
; field = "Engine Preset", engineType
field = "Number of Cylinders", cylindersCount
field = "Engine Displacement", displacement
field = "debug fields", debugMode
field = ""
field = "Firing Order", firingOrder
; Engine->Trigger configuration
dialog = triggerConfiguration_settings, "Settings Trigger"
field = "Trigger type", trigger_type
field = "Operation mode / speed", operationMode
field = "With VR sensors only rising edge has reliable position"
field = "use only rising edge", useOnlyRisingEdgeForTrigger
field = "!Reminder that 4-stroke cycle is 720 degrees"
field = "Trigger Angle Offset", globalTriggerAngleOffset
field = "#Custom Trigger"
field = "total Tooth Count", trigger_customTotalToothCount, {trigger_type == 0}
field = "skipped Tooth Count", trigger_customSkippedToothCount, {trigger_type == 0}
dialog = triggerConfiguration_IO, "Settings I/O"
field = "!https://rusefi.com/wiki/index.php?title=Manual:Software:VVT"
field = "VVT mode", vvtMode, {trigger_type != 80}
field = "VVT use rise front", vvtCamSensorUseRise, {trigger_type != 80}
field = "VVT position display offset", vvtOffset
field = "VVT display inverted", vvtDisplayInverted
field = "NB2 from temp", nb2ratioFrom
field = "NB2 to temp", nb2ratioTo
field = "nbVvtIndex", nbVvtIndex
field = "Trigger error LED", triggerErrorPin
field = "Trigger error LED mode", triggerErrorPinMode
field = "print sync details to console", isPrintTriggerSynchDetails
field = "Enable noise filtering", useNoiselessTriggerDecoder, {trigger_type == 8}
dialog = triggerConfiguration
panel = triggerConfiguration_settings, North
panel = triggerConfiguration_IO, South
; Engine->Injection Settings
dialog = injChars, "Injector Settings", yAxis
field = "Injector Flow", injector_flow
field = "!phase offset is usually not needed"
field = "phase offset", extraInjectionOffset
dialog = injectorOutputSettings, "Injector Outputs", yAxis
field = "!ECU reboot needed to apply these settings"
field = "injection Pin Mode", injectionPinMode
field = "Injection Pin 1", injectionPins1
field = "Injection Pin 2", injectionPins2, {cylindersCount > 1}
field = "Injection Pin 3", injectionPins3, {cylindersCount > 2}
field = "Injection Pin 4", injectionPins4, {cylindersCount > 3}
field = "Injection Pin 5 ", injectionPins5, {cylindersCount > 4}
field = "Injection Pin 6 ", injectionPins6, {cylindersCount > 5}
field = "Injection Pin 7 ", injectionPins7, {cylindersCount > 6}
field = "Injection Pin 8 ", injectionPins8, {cylindersCount > 7}
field = "Injection Pin 9 ", injectionPins9, {cylindersCount > 8}
field = "Injection Pin 10 ", injectionPins10, {cylindersCount > 9}
field = "Injection Pin 11 ", injectionPins11, {cylindersCount > 10}
field = "Injection Pin 12 ", injectionPins12, {cylindersCount > 11}
dialog = injectionSettings, ""
panel = baseInjection
panel = injChars
dialog = injectionDeadTime, "", yAxis
panel = injectorsDeadTime, East
dialog = ignitionCylExtra, "Ignition Cylinder Extra Timing"
field = "Extra cyl #1", timing_offset_cylinder1
field = "Extra cyl #2", timing_offset_cylinder2, {cylindersCount > 1}
field = "Extra cyl #3", timing_offset_cylinder3, {cylindersCount > 2}
field = "Extra cyl #4", timing_offset_cylinder4, {cylindersCount > 3}
field = "Extra cyl #5", timing_offset_cylinder5, {cylindersCount > 4}
field = "Extra cyl #6", timing_offset_cylinder6, {cylindersCount > 5}
field = "Extra cyl #7", timing_offset_cylinder7, {cylindersCount > 6}
field = "Extra cyl #8", timing_offset_cylinder8, {cylindersCount > 7}
field = "Extra cyl #9", timing_offset_cylinder9, {cylindersCount > 8}
field = "Extra cyl #10", timing_offset_cylinder10, {cylindersCount > 9}
field = "Extra cyl #11", timing_offset_cylinder11, {cylindersCount > 10}
field = "Extra cyl #12", timing_offset_cylinder12, {cylindersCount > 11}
; Engine->Ignition Settings
dialog = ignitionOutputs, "Ignition Outputs"
field = "Ignition Pin Mode", ignitionPinMode
field = "Ignition Pin 1", ignitionPins1
field = "Ignition Pin 2", ignitionPins2, {(ignitionMode != 0 && cylindersCount > 1) && (ignitionMode !=2 || twoWireBatchIgnition == 1 @@ignitionPin2logic@@)}
field = "Ignition Pin 3", ignitionPins3, {(ignitionMode != 0 && cylindersCount > 2) && (ignitionMode !=2 || twoWireBatchIgnition == 1 @@ignitionPin3logic@@)}
field = "Ignition Pin 4", ignitionPins4, {(ignitionMode != 0 && cylindersCount > 3) && (ignitionMode !=2 || twoWireBatchIgnition == 1 @@ignitionPin4logic@@)}
field = "Ignition Pin 5", ignitionPins5, {(ignitionMode != 0 && cylindersCount > 4) && (ignitionMode !=2 || twoWireBatchIgnition == 1 @@ignitionPin5logic@@)}
field = "Ignition Pin 6", ignitionPins6, {(ignitionMode != 0 && cylindersCount > 5) && (ignitionMode !=2 || twoWireBatchIgnition == 1 @@ignitionPin6logic@@)}
field = "Ignition Pin 7", ignitionPins7, {(ignitionMode != 0 && cylindersCount > 6) && (ignitionMode !=2 || twoWireBatchIgnition == 1 @@ignitionPin7logic@@)}
field = "Ignition Pin 8", ignitionPins8, {(ignitionMode != 0 && cylindersCount > 7) && (ignitionMode !=2 || twoWireBatchIgnition == 1 @@ignitionPin8logic@@)}
field = "Ignition Pin 9", ignitionPins9, {(ignitionMode != 0 && cylindersCount > 8) && (ignitionMode !=2 || twoWireBatchIgnition == 1 @@ignitionPin8logic@@)}
field = "Ignition Pin 10", ignitionPins10, {(ignitionMode != 0 && cylindersCount > 9) && (ignitionMode !=2 || twoWireBatchIgnition == 1 @@ignitionPin8logic@@)}
field = "Ignition Pin 11", ignitionPins11, {(ignitionMode != 0 && cylindersCount > 10) && (ignitionMode !=2 || twoWireBatchIgnition == 1 @@ignitionPin8logic@@)}
field = "Ignition Pin 12", ignitionPins12, {(ignitionMode != 0 && cylindersCount > 11) && (ignitionMode !=2 || twoWireBatchIgnition == 1 @@ignitionPin8logic@@)}
field = "This is useful to have tachometer working while converting from distributor"
field = "Dizzy out Pin", dizzySparkOutputPin
field = "Dizzy out Pin Mode", dizzySparkOutputPinMode
dialog = ignitionOutputSettings, "", xAxis
panel = ignitionOutputs
dialog = dwellSettings, "", yAxis
panel = dwellCorrection, Center
; Sensors->AUX1 Thermistor Sensor Setting
dialog = auxTempSensor1Sensor, "aux1 Thermistor Settings"
field = "#Here is three pairs of thermistor temperature and his resistance."
field = "#Typical temperatures is -40°C, 0°C and 100°C"
field = ""
field = "Lowest temperature", auxTempSensor1_tempC_1
field = "Resistance @ LT", auxTempSensor1_resistance_1
field = ""
field = "Middle temperature", auxTempSensor1_tempC_2
field = "Resistance @ MT", auxTempSensor1_resistance_2
field = ""
field = "Highest temperature", auxTempSensor1_tempC_3
field = "Resistance @ HT", auxTempSensor1_resistance_3
; Sensors->AUX2 Thermistor Sensor Setting
dialog = auxTempSensor2Sensor, "aux2 Thermistor Settings"
field = "#Here is three pairs of thermistor temperature and his resistance."
field = "#Typical temperatures is -40°C, 0°C and 100°C"
field = ""
field = "Lowest temperature", auxTempSensor2_tempC_1
field = "Resistance @ LT", auxTempSensor2_resistance_1
field = ""
field = "Middle temperature", auxTempSensor2_tempC_2
field = "Resistance @ MT", auxTempSensor2_resistance_2
field = ""
field = "Highest temperature", auxTempSensor2_tempC_3
field = "Resistance @ HT", auxTempSensor2_resistance_3
; Sensor Inputs
dialog = otherSensorInputs, "Other Sensor Inputs"
field = "aux1 TempSensor ADC input", auxTempSensor1_adcChannel
field = "aux1 Bias Resistor Value", auxTempSensor1_bias_resistor
field = "aux2 TempSensor ADC input", auxTempSensor2_adcChannel
field = "aux2 Bias Resistor Value", auxTempSensor2_bias_resistor
field = "Accelerator position sensor", pedalPositionAdcChannel
field = "Oil Pressure ADC input", oilPressure_hwChannel
field = "fuelLevelSensor", fuelLevelSensor
field = "Baro ADC input", baroSensor_hwChannel
field = "Flex Fuel", flexFuelSensor
field = "Vehicle speed sensor", vehicleSpeedSensorInputPin
field = "clutchDownPin", clutchDownPin
field = "clutchUpPin", clutchUpPin
field = "brakePedalPin", brakePedalPin
dialog = mainSensorInputs, "Main Sensor Inputs"
field = "MAP ADC input", map_sensor_hwChannel, {hasFrequencyReportingMapSensor == 0}
field = "MAP Freq", frequencyReportingMapInputPin, {hasFrequencyReportingMapSensor == 1}
field = "MAF ADC input", mafAdcChannel
field = "CLT ADC input", clt_adcChannel
field = "CLT Bias Resistor Value", clt_bias_resistor
field = "IAT ADC input", iat_adcChannel
field = "IAT Bias Resistor Value", iat_bias_resistor
field = "AFR ADC input", afr_hwChannel
field = "vBatt ADC input", vbattAdcChannel
field = "Throttle position sensor", tpsAdcChannel
dialog = triggerInputs, "Trigger Inputs"
field = "!ECU reboot needed to apply these settings"
field = "#Cam is primary if you have cam sensor"
field = "Primary channel", triggerInputPins1
field = "Invert Primary", invertPrimaryTriggerSignal
field = "Secondary channel", triggerInputPins2, { trigger_type != 0 && trigger_type != 8 && trigger_type != 9 && trigger_type != 18 && trigger_type != 20}
field = "Invert Secondary", invertSecondaryTriggerSignal, { trigger_type != 0 && trigger_type != 8 && trigger_type != 9 && trigger_type != 18 && trigger_type != 20}
field = "Cam Sync/VVT input", camInput
dialog = sensorInputs, "", xAxis
panel = triggerInputs, West
panel = mainSensorInputs, Center
panel = otherSensorInputs, East
dialog = allPins1
field = "MAP ADC input", map_sensor_hwChannel
field = "frequencyReportingMapInputPin", frequencyReportingMapInputPin
field = "CLT ADC input", clt_adcChannel
field = "IAT ADC input", iat_adcChannel
field = "vBatt ADC input", vbattAdcChannel
field = "TPS ADC input", tpsAdcChannel
field = "MAF ADC input", mafAdcChannel
field = "AFR ADC input", afr_hwChannel
field = "fuelLevelSensor", fuelLevelSensor
field = "Baro ADC input", baroSensor_hwChannel
field = "Throttle pedal Position Channel", pedalPositionAdcChannel
field = "Primary input channel", triggerInputPins1
field = "Secondary channel", triggerInputPins2
field = "Cam Sync/VVT input", camInput
field = "Vehicle Speed Input pin", vehicleSpeedSensorInputPin
field = "clutchDownPin", clutchDownPin
field = "clutchUpPin", clutchUpPin
field = "brakePedalPin", brakePedalPin
field = "servo#1", servoOutputPins1
field = "servo#2", servoOutputPins2
field = "servo#3", servoOutputPins3
field = "servo#4", servoOutputPins4
field = "servo#5", servoOutputPins5
dialog = allPins2
field = "Tachometer output Pin", tachOutputPin
field = "Dizzy out Pin", dizzySparkOutputPin
field = "O2 heater pin", o2heaterPin
field = "Idle Solenoid Pin", idle_solenoidPin
field = "Idle Stepper Dir", idle_stepperDirectionPin
field = "Idle Stepper Dir Mode", stepperDirectionPinMode
field = "Idle Stepper Step", idle_stepperStepPin
field = "Idle Stepper Enable", stepperEnablePin
field = "Fuel Pump Pin", fuelPumpPin
field = "Fuel Pump Pin Mode", fuelPumpPinMode
field = "ETB Dir #1", etbDirectionPin1
field = "ETB Dir #2", etbDirectionPin2
field = "ETB Control #1", etbControlPin1
field = "ETB Control #2", etbControlPin2
field = "SD CS Pin", sdCardCsPin
field = "Check Engine Pin", malfunctionIndicatorPin
field = "Check Engine Pin Mode", malfunctionIndicatorPinMode
field = "Aux Pin #1", auxPidPins1
field = "Aux Pin #2", auxPidPins2
field = "Aux Pin #3", auxPidPins3
field = "Aux Pin #4", auxPidPins4
field = "test557pin", test557pin
field = "Fan Pin", fanPin
field = "Fan Pin Mode", fanPinMode
field = "Main Relay Pin", mainRelayPin
field = "Main Relay Mode", mainRelayPinMode
dialog = allPins3
field = "Injection Pin 1", injectionPins1
field = "Injection Pin 2", injectionPins2
field = "Injection Pin 3", injectionPins3
field = "Injection Pin 4", injectionPins4
field = "Injection Pin 5 ", injectionPins5
field = "Injection Pin 6 ", injectionPins6
field = "Injection Pin 7 ", injectionPins7
field = "Injection Pin 8 ", injectionPins8
field = "Injection Pin 9 ", injectionPins9
field = "Injection Pin 10 ", injectionPins10
field = "Injection Pin 11 ", injectionPins11
field = "Injection Pin 12 ", injectionPins12
field = "Ignition Pin 1", ignitionPins1
field = "Ignition Pin 2", ignitionPins2
field = "Ignition Pin 3", ignitionPins3
field = "Ignition Pin 4", ignitionPins4
field = "Ignition Pin 5", ignitionPins5
field = "Ignition Pin 6", ignitionPins6
field = "Ignition Pin 7", ignitionPins7
field = "Ignition Pin 8", ignitionPins8
field = "Ignition Pin 9", ignitionPins9
field = "Ignition Pin 10", ignitionPins10
field = "Ignition Pin 11", ignitionPins11
field = "Ignition Pin 12", ignitionPins12
dialog = allPins4
field = "FSIO dig inp #1", fsioDigitalInputs1
field = "FSIO dig inp #2", fsioDigitalInputs2
field = "FSIO dig inp #3", fsioDigitalInputs3
field = "FSIO dig inp #4", fsioDigitalInputs4
field = "FSIO dig inp #5", fsioDigitalInputs5
field = "FSIO dig inp #6", fsioDigitalInputs6
field = "FSIO dig inp #7", fsioDigitalInputs7
field = "FSIO dig inp #8", fsioDigitalInputs8
field = "FSIO dig inp #9", fsioDigitalInputs9
field = "output #1", fsioOutputPins1
field = "output #2", fsioOutputPins2
field = "output #3", fsioOutputPins3
field = "output #4", fsioOutputPins4
field = "output #5", fsioOutputPins5
field = "output #6", fsioOutputPins6
field = "output #7", fsioOutputPins7
field = "output #8", fsioOutputPins8
field = "output #9", fsioOutputPins9
field = "output #10", fsioOutputPins10
field = "output #11", fsioOutputPins11
field = "output #12", fsioOutputPins12
field = "output #13", fsioOutputPins13
field = "output #14", fsioOutputPins14
field = "output #15", fsioOutputPins15
field = "output #16", fsioOutputPins16
field = "aux valve #1", auxValves1
field = "aux valve #2", auxValves2
dialog = allPins5
field = "SPI1 MOSI", spi1mosiPin, {is_enabled_spi_1 == 1}
field = "SPI1 MISO", spi1misoPin, {is_enabled_spi_1 == 1}
field = "SPI1 SCK", spi1sckPin, {is_enabled_spi_1 == 1}
field = "SPI2 MOSI", spi2mosiPin, {is_enabled_spi_2 == 1}
field = "SPI2 MISO", spi2misoPin, {is_enabled_spi_2 == 1}
field = "SPI2 SCK", spi2sckPin, {is_enabled_spi_2 == 1}
field = "SPI3 MOSI", spi3mosiPin, {is_enabled_spi_3 == 1}
field = "SPI3 MISO", spi3misoPin, {is_enabled_spi_3 == 1}
field = "SPI3 SCK", spi3sckPin, {is_enabled_spi_3 == 1}
field = "hip9011CsPin", hip9011CsPin
field = "LIS302DLCsPin", LIS302DLCsPin
field = "Malfunction Indicator", malfunctionIndicatorPin
field = "Saab CDM knock", cdmInputPin
dialog = allPins1_2, "", xAxis
panel = allPins1
panel = allPins2
dialog = allPins3_4, "", xAxis
panel = allPins3
panel = allPins4
dialog = allPins, "All Pins", xAxis
panel = allPins1_2
panel = allPins3_4
panel = allPins5
; Sensors->CLT Sensor Settings
dialog = clt_thermistor, "CLT Sensor Settings"
field = "#Here is three pairs of thermistor temperature and his resistance."
field = "#Typical temperatures is -40°C, 0°C and 100°C"
field = ""
field = "Lowest temperature", clt_tempC_1
field = "Resistance @ LT", clt_resistance_1
field = ""
field = "Middle temperature", clt_tempC_2
field = "Resistance @ MT", clt_resistance_2
field = ""
field = "Highest temperature", clt_tempC_3
field = "Resistance @ HT", clt_resistance_3
field = ""
field = "Linear characteristic", useLinearCltSensor
dialog = cltSensor, "", xAxis
panel = clt_thermistor
gauge = CLTGauge
; Sensors->IAT Sensor Settings
dialog = iat_thermistor, "IAT Sensor Settings"
field = "#Here is three pairs of thermistor temperature and his resistance."
field = "#Typical temperatures is -40°C, 0°C and 100°C"
field = ""
field = "Lowest temperature", iat_tempC_1
field = "Resistance @ LT", iat_resistance_1
field = ""
field = "Middle temperature", iat_tempC_2
field = "Resistance @ MT", iat_resistance_2
field = ""
field = "Highest temperature", iat_tempC_3
field = "Resistance @ HT", iat_resistance_3
field = ""
field = "Linear characteristic", useLinearIatSensor
dialog = iatSensor, "", xAxis
panel = iat_thermistor
gauge = IATGauge
; Sensors->Oil Pressure Sensor Settings
dialog = oilp_settings, "Oil Pressure Sensor Settings"
field = "low voltage", oilPressure_v1
field = "low pressure", oilPressure_value1
field = "high voltage", oilPressure_v2
field = "high pressure", oilPressure_value2
dialog = oilPressureSensor, "", xAxis
panel = oilp_settings
gauge = OilPressGauge
; Sensors->MAP Sensor Settings
dialog = mapSensorVDlg, "Voltage Sensor Settings", yAxis
field = "MAP type", map_sensor_type, {hasFrequencyReportingMapSensor == 0}
field = "MAP value low point", map_sensor_lowValue, { map_sensor_type == 0 && hasFrequencyReportingMapSensor == 0}
field = "MAP voltage low point", mapLowValueVoltage, { map_sensor_type == 0 && hasFrequencyReportingMapSensor == 0}
field = "MAP value high point", map_sensor_highValue, { map_sensor_type == 0 && hasFrequencyReportingMapSensor == 0}
field = "MAP voltage high value", mapHighValueVoltage, { map_sensor_type == 0 && hasFrequencyReportingMapSensor == 0}
field = "Use minimal value of", mapMinBufferLength
field = "Measure Map Only In One Cylinder", measureMapOnlyInOneCylinder
dialog = mapSensorFDlg, "Frequency Sensor Settings", yAxis
field = "0 kPa freq", mapFrequency0Kpa, {hasFrequencyReportingMapSensor == 1}
field = "100 kpa freq", mapFrequency100Kpa, {hasFrequencyReportingMapSensor == 1}
dialog = mapSwitch, "MAP input type"
field = "frequency-based MAP", hasFrequencyReportingMapSensor
dialog = mapSwitchAndSettings, "", yAxis
field = "Low value threshold", mapErrorDetectionTooLow
field = "High value threshold", mapErrorDetectionTooHigh
panel = mapSwitch
panel = mapSensorVDlg
panel = mapSensorFDlg
dialog = mapCurves, "", yAxis
panel = map_samplingAngleCurve
panel = map_samplingWindowCurve
dialog = mapSettings, "", xAxis
panel = mapCurves
panel = mapSwitchAndSettings
; Sensors->EGO Sensor Settings
dialog = egoSettings_sensor, "EGO Sensor Settings"
field = "Type", afr_type
; todo: only use these values for custom!
field = "low voltage", afr_v1
field = "low value", afr_value1
field = "high voltage", afr_v2
field = "high value", afr_value2
field = "Correction", egoValueShift
dialog = egoSettings_IO, "EGO Sensor I/O"
field = "AFR ADC input", afr_hwChannel
field = "O2 heater pin", o2heaterPin
dialog = egoSettings, "", yAxis
panel = egoSettings_sensor, North
panel = egoSettings_IO, South
; Engine->EGT inputs
dialog = egtInputs, "EGT inputs"
field = "SPI", max31855spiDevice
field = "CS #1", max31855_cs1
field = "CS #2", max31855_cs2
field = "CS #3", max31855_cs3
field = "CS #4", max31855_cs4
field = "CS #5", max31855_cs5
field = "CS #6", max31855_cs6
field = "CS #7", max31855_cs7
field = "CS #8", max31855_cs8
; Engine->idle Settings
dialog = idleSolenoid, "Solenoid"
field = "Idle Solenoid Pin Mode", idle_solenoidPinMode, !useStepperIdle
field = "Idle Solenoid Pin", idle_solenoidPin, !useStepperIdle
field = "Idle Solenoid Frequency", idle_solenoidFrequency, !useStepperIdle
dialog = idleStepper, "Stepper"
field = "Idle Stepper Step Pin", idle_stepperStepPin, useStepperIdle
field = "Idle Stepper Dir Pin", idle_stepperDirectionPin, useStepperIdle
field = "Idle Stepper Enable Pin", stepperEnablePin, useStepperIdle
field = "Idle Stepper Enable Pin Mode", stepperEnablePinMode, useStepperIdle
field = "Stepper reaction time", idleStepperReactionTime, useStepperIdle
field = "Stepper total steps", idleStepperTotalSteps, useStepperIdle
field = "Stepper parking extra steps, %", stepperParkingExtraSteps, useStepperIdle
field = "Force parking every restart", stepperForceParkingEveryRestart, useStepperIdle
dialog = idleHwType, "Idle Valve Hardware", border
panel = idleSolenoid, West
panel = idleStepper, East
dialog = idlehw, "", yAxis
field = "!ECU reboot needed to apply these settings"
field = "Use Stepper", useStepperIdle
panel = idleHwType
dialog = idlePidSettings, "PID IAC Control"
field = "#See Idle Target RPM Curve"
field = "P-factor", idleRpmPid_pFactor
field = "I-factor", idleRpmPid_iFactor
field = "D-factor", idleRpmPid_dFactor
field = "Offset", idleRpmPid_offset
field = "Min", idleRpmPid_minValue
field = "Max", idleRpmPid_maxValue
field = "period", idleRpmPid_period
field = "RPM dead zone to deactivate IAC pid", idlePidRpmDeadZone
field = "RPM upper limit to deactivate IAC pid",idlePidRpmUpperLimit
field = "PID Extra for low RPM", pidExtraForLowRpm
dialog = idleSettings, "", yAxis
field = "!Automatic Mode is now Beta Version"
field = "Idle IAC control mode", idleMode
field = "Use separate Ignition Table for idle", useSeparateAdvanceForIdle
field = "Use separate VE Table for idle", useSeparateVeForIdle
field = "Use separate IAC Table For Coasting", useIacTableForCoasting, {idleMode == 0}
field = "TPS deactivation threshold", idlePidDeactivationTpsThreshold
panel = idlePidSettings, { idleMode == 0}
field = "Extra IAC if Throttle Pressed", iacByTpsTaper;
field = "verbose status", isVerboseIAC
field = "#See Warmup idle multiplier"
slider = "Manual IAC Position", manIdlePosition, horizontal
; Engine->Fan Settings
dialog = fanSetting, "Fan Settings"
field = "Fan On Temperature", fanOnTemperature
field = "Fan Off Temperature", fanOffTemperature
; Controller->Actuator Outputs
dialog = deviceOutputSettings, "Actuator Outputs"
field = "!ECU reboot needed to apply these settings"
field = "Fan Pin Mode", fanPinMode
field = "Fan Pin", fanPin
field = "Main Relay Mode", mainRelayPinMode
field = "Main Relay Pin", mainRelayPin
field = "Fuel Pump Pin Mode", fuelPumpPinMode
field = "Fuel Pump Pin", fuelPumpPin
field = "Check Engine Pin Mode", malfunctionIndicatorPinMode
field = "Check Engine Pin", malfunctionIndicatorPin
; Engine->MIL Settings
dialog = malfunction, "Check Engine Settings"
field = "Warning Period", warningPeriod
; Engine->hip9011 Settings
dialog = hipFunction, "HIP9011 Settings (knock decoder)"
field = "Enabled", isHip9011Enabled
field = "Threshold", knockVThreshold, {isHip9011Enabled == 1}
field = "!ECU reboot needed to apply these settings"
field = "IntHold pin (hip9011 input)", hip9011IntHoldPin, {isHip9011Enabled == 1}
field = "IntHold pin (hip9011 input) mode", hip9011IntHoldPinMode, {isHip9011Enabled == 1}
field = "ChipSelect pin", hip9011CsPin, {isHip9011Enabled == 1}
field = "ChipSelect mode", hip9011CsPinMode, {isHip9011Enabled == 1}
field = "hip Output/stm input", hipOutputChannel, {isHip9011Enabled == 1}
field = "prescaler & SDO", hip9011PrescalerAndSDO, {isHip9011Enabled == 1}
field = "cylinder bore (mm)", cylinderBore, {isHip9011Enabled == 1}
field = "Band Freq override", knockBandCustom, {isHip9011Enabled == 1}
field = "SPI device", hip9011SpiDevice, {isHip9011Enabled == 1}
field = "SPI1sck mode", spi1SckMode, {isHip9011Enabled == 1}
field = "SPI1mosi mode", spi1MosiMode, {isHip9011Enabled == 1}
field = "SPI1miso mode", spi1MisoMode, {isHip9011Enabled == 1}
field = "SPI2sck mode", spi2SckMode, {isHip9011Enabled == 1}
field = "SPI2mosi mode", spi2MosiMode, {isHip9011Enabled == 1}
field = "SPI2miso mode", spi2MisoMode, {isHip9011Enabled == 1}
field = "SPI3sck mode", spi3SckMode, {isHip9011Enabled == 1}
field = "SPI3mosi mode", spi3MosiMode, {isHip9011Enabled == 1}
field = "SPI3miso mode", spi3MisoMode, {isHip9011Enabled == 1}
panel = knockThresholdCurve
; Engine->cj125 Settings
dialog = cj125Function, "CJ125 Settings (wbo decoder)"
field = "Enabled", isCJ125Enabled
field = "!ECU reboot needed to apply these settings"
field = "ChipSelect pin", cj125CsPin, {isCJ125Enabled == 1}
field = "ChipSelect mode", cj125CsPinMode, {isCJ125Enabled == 1}
field = "!See also 'Controller-SPI setting'"
field = "SPI device", cj125SpiDevice
field = "Heater pin", wboHeaterPin, {isCJ125Enabled == 1}
field = "UA input", cj125ua, {isCJ125Enabled == 1}
field = "UR input", cj125ur, {isCJ125Enabled == 1}
field = "Is UA input divided?" cj125isUaDivided, {isCJ125Enabled == 1}
dialog = spiFunction, "SPI settings"
field = "!ECU reboot needed to apply these settings"
field = "SPI1 enable", is_enabled_spi_1
field = "SPI1 MOSI", spi1mosiPin, {is_enabled_spi_1 == 1}
field = "SPI1 MISO", spi1misoPin, {is_enabled_spi_1 == 1}
field = "SPI1 SCK", spi1sckPin, {is_enabled_spi_1 == 1}
field = "SPI2 enable", is_enabled_spi_2
field = "SPI2 MOSI", spi2mosiPin, {is_enabled_spi_2 == 1}
field = "SPI2 MISO", spi2misoPin, {is_enabled_spi_2 == 1}
field = "SPI2 SCK", spi2sckPin, {is_enabled_spi_2 == 1}
field = "SPI3 enable", is_enabled_spi_3
field = "SPI3 MOSI", spi3mosiPin, {is_enabled_spi_3 == 1}
field = "SPI3 MISO", spi3misoPin, {is_enabled_spi_3 == 1}
field = "SPI3 SCK", spi3sckPin, {is_enabled_spi_3 == 1}
field = "LIS302DLCsPin", LIS302DLCsPin
dialog = fuelClosedLoopDialog, "Fuel short-term closed-loop correction"
field = "#This is just the cherry on the cake once you have good VE table"
field = "Enabled", fuelClosedLoopCorrectionEnabled
field = "!No correction below these value"
field = "CLT - low threshod", fuelClosedLoopCltThreshold, {fuelClosedLoopCorrectionEnabled == 1}
field = "RPM - low threshod", fuelClosedLoopRpmThreshold, {fuelClosedLoopCorrectionEnabled == 1}
field = "EGO - low threshod", fuelClosedLoopAfrLowThreshold, {fuelClosedLoopCorrectionEnabled == 1}
field = "!No correction above these value"
field = "TPS - high threshod", fuelClosedLoopTpsThreshold, {fuelClosedLoopCorrectionEnabled == 1}
field = "EGO - high threshod", fuelClosedLoopAfrHighThreshold, {fuelClosedLoopCorrectionEnabled == 1}
field = "!PID settings"
field = "P factor", fuelClosedLoopPid_pFactor, {fuelClosedLoopCorrectionEnabled == 1}
field = "I factor", fuelClosedLoopPid_iFactor, {fuelClosedLoopCorrectionEnabled == 1}
field = "D factor", fuelClosedLoopPid_dFactor, {fuelClosedLoopCorrectionEnabled == 1}
field = "min", fuelClosedLoopPid_minValue, {fuelClosedLoopCorrectionEnabled == 1}
field = "max", fuelClosedLoopPid_maxValue, {fuelClosedLoopCorrectionEnabled == 1}
dialog = auxPidDialog, "Aux PID"
field = "Enabled", activateAuxPid1
field = "FSIO pin #1", auxPidPins1
field = "PWM Frequency", auxPidFrequency1
field = "verbose", isVerboseAuxPid1
field = "#target based on FSIO map#1"
field = "control period", auxPid1_period, {activateAuxPid1 == 1}
field = "#PID control"
field = "offset", auxPid1_offset, {activateAuxPid1 == 1}
field = "P factor", auxPid1_pFactor, {activateAuxPid1 == 1}
field = "I factor", auxPid1_iFactor, {activateAuxPid1 == 1}
field = "D factor", auxPid1_dFactor, {activateAuxPid1 == 1}
field = "Min", auxPid1_minValue, {activateAuxPid1 == 1}
field = "Max", auxPid1_maxValue, {activateAuxPid1 == 1}
field = "FSIO pin #2", auxPidPins2
field = "FSIO pin #3", auxPidPins3
field = "FSIO pin #4", auxPidPins4
; Engine->Battery & Alternator
dialog = batteryDialog, "Battery Settings", yAxis
field = "vBatt ADC input", vbattAdcChannel
field = "Battery Input Divider Coefficient", vbattDividerCoeff
dialog = alternator, "Alternator Settings", yAxis
field = "Enabled", isAlternatorControlEnabled
field = "simple on/off mode", onOffAlternatorLogic, {isAlternatorControlEnabled == 1}
field = "Target", targetVBatt, {isAlternatorControlEnabled == 1}
field = "Pin", alternatorControlPin, {isAlternatorControlEnabled == 1}
field = "Pin Mode", alternatorControlPinMode, {isAlternatorControlEnabled == 1}
field = "PWM frequency", alternatorPwmFrequency, {isAlternatorControlEnabled == 1 && onOffAlternatorLogic == 0}
field = "Off Above TPS", alternatorOffAboveTps, {isAlternatorControlEnabled == 1}
field = "Verbose", isVerboseAlternator, {isAlternatorControlEnabled == 1}
field = "control period", alternatorControl_period, {isAlternatorControlEnabled == 1}
field = "#PID control"
field = "offset", alternatorControl_offset, {isAlternatorControlEnabled == 1 && onOffAlternatorLogic == 0}
field = "P factor", alternatorControl_pFactor, {isAlternatorControlEnabled == 1 && onOffAlternatorLogic == 0}
field = "I factor", alternatorControl_iFactor, {isAlternatorControlEnabled == 1 && onOffAlternatorLogic == 0}
field = "D factor", alternatorControl_dFactor, {isAlternatorControlEnabled == 1 && onOffAlternatorLogic == 0}
field = "Min", alternatorControl_minValue, {isAlternatorControlEnabled == 1 && onOffAlternatorLogic == 0}
field = "Max", alternatorControl_maxValue, {isAlternatorControlEnabled == 1 && onOffAlternatorLogic == 0}
field = "#% duty = Pterm + Iterm + Dterm + offset%"
dialog = warmupFuelDialog, "Warmup fuel closed-loop", yAxis
field = "use automatic Pid Afr control", useWarmupPidAfr
field = "warmup temperature Threshold", warmupAfrThreshold
field = "wa offset", warmupAfrPid_offset
field = "wa P factor", warmupAfrPid_pFactor
field = "wa I factor", warmupAfrPid_iFactor
field = "wa D factor", warmupAfrPid_dFactor
field = "#correction = Pterm + Iterm + Dterm + offset"
dialog = energySystems, "Battery and Alternator Settings", yAxis
panel = batteryDialog
panel = alternator
; Sensors->Vehicle Speed Sensor Setting
dialog = speedSensor, "Speed Sensor Settings", xAxis
field = "revolution to speed mult", vehicleSpeedCoef
gauge = VSSGauge
; Engine->Other inputs
dialog = analogInputSettings, "Analog Input Settings"
field = "!ECU reboot needed to apply these settings"
field = "TPS low value detection threshold", tpsErrorDetectionTooLow
field = "TPS high value detection threshold", tpsErrorDetectionTooHigh
field = "!todo: move MAF channel to maf curve dialog"
field = "Use fixed baro corr from MAP", useFixedBaroCorrFromMap
field = "Analog divider", analogInputDividerCoefficient
field = "Use BiQuad averaging", useBiQuadAnalogFiltering
field = "Smoothing factor", slowAdcAlpha, {useBiQuadAnalogFiltering == 0}
field = "Bi_Q a0", biQuad_a0, {useBiQuadAnalogFiltering == 1}
field = "Bi_Q a1", biQuad_a1, {useBiQuadAnalogFiltering == 1}
field = "Bi_Q a2", biQuad_a2, {useBiQuadAnalogFiltering == 1}
field = "Bi_Q b1", biQuad_b1, {useBiQuadAnalogFiltering == 1}
field = "Bi_Q b2", biQuad_b2, {useBiQuadAnalogFiltering == 1}
dialog = tachSettings, "Tachometer output"
field = "!See also dizzySparkOutputPin"
field = "pin", tachOutputPin
field = "pin mode", tachOutputPinMode
field = "rise at trigger index", tachPulseTriggerIndex
field = "pulse duration is duty cycle", tachPulseDurationAsDutyCycle
field = "pulse duration", tachPulseDuractionMs
; Board->Connection
dialog = tsPort, "TunerStudio Port"
field = "tunerStudioSerialSpeed", tunerStudioSerialSpeed
field = "Use PC10/PC11 serial?", useSerialPort
field = "startConsoleInBinaryMode", startConsoleInBinaryMode
field = "uartConsoleSerialSpeed", uartConsoleSerialSpeed
dialog = canBus, "CAN Bus"
field = "Can Read Enabled", canReadEnabled
field = "Can Write Enabled", canWriteEnabled
; field = "Can Nbc Type", canNbcType
field = "Can Sleep Period", canSleepPeriod
field = "TX pin", canTxPin
field = "RX pin", canRxPin
dialog = sdCard, "SD Card Logger"
field = "SdCard", isSdCardEnabled
field = "CS Pin", sdCardCsPin
field = "SPI", sdCardSpiDevice
field = "log format", logFormat
field = "Mass Storage", storageMode
dialog = gpsReceiver, "GPS Receiver"
field = "gps RX", gps_rx_pin
field = "gps TX", gps_tx_pin
dialog = lcdScreen, "LCD screen"
field = "display Mode", displayMode
field = "height", HD44780height
field = "width", HD44780width
field = "RS pin", HD44780_rs
field = "E pin", HD44780_e
field = "D4 pin", HD44780_db4
field = "D5 pin", HD44780_db5
field = "D6 pin", HD44780_db6
field = "D7 pin", HD44780_db7
dialog = connectRight, "", yAxis
panel = tsPort
panel = canBus
panel = sdCard
panel = gpsReceiver
field = "stm32 voltage", adcVcc
dialog = connection, "", border
panel = lcdScreen, East
panel = connectRight, West
dialog = joystickPanel, "Joystick"
field = "joustick center button", joystickCenterPin
field = "joustick button A", joystickAPin
field = "joustick button B", joystickBPin
field = "joustick button C", joystickCPin
field = "joustick button D", joystickDPin
dialog = monitoringSettings, "rusEfi Console Settings"
field = "Sensor Sniffer", sensorChartMode
field = " Threshold", sensorSnifferRpmThreshold
field = " Each X cycle", sensorChartFrequency
field = "Engine Sniffer", isEngineChartEnabled
field = " Threshold", engineSnifferRpmThreshold
dialog = generalSettings, "General"
field = "http://rusefi.com/support"
field = "RPM Hard Limit", rpmHardLimit
field = "Boost Cut Pressure", boostCutPressure
field = ""
field = "http://rusefi.com/fuel"
field = "Fuel Algorithm", fuelAlgorithm
field = ""
field = "#System hack's"
field = "Global fuel correction", globalFuelCorrection
field = "Ignition Math Logic @", ignMathCalculateAtIndex
field = "MAP Averaging Logic @", mapAveragingSchedulingAtIndex
field = "comm status light", communicationLedPin
field = "running status light", runningLedPin
; Engine->Base Engine Settings
dialog = engineChars, "Base Engine Settings"
panel = baseEngineConfig
panel = generalSettings
dialog = crankingFuel, "Fuel"
field = "Injection Mode", crankingInjectionMode
field = "Base Fuel Pulse Width", cranking_baseFuel
dialog = crankingIAC, "IAC"
field = "Cranking IAC position", crankingIACposition
field = "After cranking IAC taper duration", afterCrankingIACtaperDuration
field = "Override IAC Multiplier for Cranking", overrideCrankingIacSetting
dialog = crankingIgnition, "Ignition"
field = "Advance", crankingTimingAngle, {useSeparateAdvanceForCranking == 0}
field = "Use separate Advance Table for cranking", useSeparateAdvanceForCranking
field = "Use Advance Corrections for cranking", useAdvanceCorrectionsForCranking
field = "Use fixed Dwell?", useConstantDwellDuringCranking
field = "Fixed Dwell", ignitionDwellForCrankingMs, {useConstantDwellDuringCranking == 1}
field = "Charge Angle", crankingChargeAngle, {useConstantDwellDuringCranking == 0}
dialog = postCrankingEnrichment, "Post-cranking short-time fuel enrichment"
field = "Target temperature", postCrankingTargetClt
field = "Post-Cranking factor", postCrankingFactor
field = "Duraction", postCrankingDurationSec
dialog = primingFuelPulsePanel, "Priming fuel pulse"
field = "Duration at -40C degrees", startOfCrankingPrimingPulse
field = "Falloff temperature", primeInjFalloffTemperature
; Cranking->Cranking Settings
dialog = crankingDialog, "Cranking Settings"
field = "Cranking RPM limit", cranking_rpm
panel = crankingIgnition
panel = crankingIAC
panel = crankingFuel
panel = primingFuelPulsePanel
panel = postCrankingEnrichment
field = "enable Cylinder Cleanup", isCylinderCleanupEnabled
field = "Startup fuel pump prime", startUpFuelPumpDuration
field = ""
field = "Enable faster engine spin-up", isFasterEngineSpinUpEnabled
dialog = EngineLoadAccelPanel, "Engine Load (alpha version)"
field = "Length", engineLoadAccelLength
field = "Accel Threshold", engineLoadAccelEnrichmentThreshold
field = "Accel Multiplier", engineLoadAccelEnrichmentMultiplier
field = "Decel Threshold", engineLoadDecelEnleanmentThreshold
field = "Decel Multiplier", engineLoadDecelEnleanmentMultiplier
dialog = TpsAccelPanel, "TPS"
field = "Length", tpsAccelLength
field = "Accel Threshold", tpsAccelEnrichmentThreshold
field = "Decel Threshold", tpsDecelEnleanmentThreshold
; field = "Decel Multiplier", tpsDecelEnleanmentMultiplier
dialog = WallWettingAccelPanel, "Wall Wetting (alpha version)"
field = "sucked off wall coefficient", suckedOffCoef
field = "added to wall coef", addedToWallCoef
; Tuning->AccelEnrichment
dialog = AccelEnrich, "Accel/Decel Enrichment"
panel = TpsAccelPanel
panel = WallWettingAccelPanel
panel = EngineLoadAccelPanel
field = "No accel after RPM hard limit", noAccelAfterHardLimitPeriodSecs
; Flex Logic
dialog = fsioIO, "Outputs"
field = "output #1", fsioOutputPins1
field = "output #2", fsioOutputPins2
field = "output #3", fsioOutputPins3
field = "output #4", fsioOutputPins4
field = "output #5", fsioOutputPins5
field = "output #6", fsioOutputPins6
field = "output #7", fsioOutputPins7
field = "output #8", fsioOutputPins8
field = "output #9", fsioOutputPins9
field = "output #10", fsioOutputPins10
field = "output #11", fsioOutputPins11
field = "output #12", fsioOutputPins12
field = "output #13", fsioOutputPins13
field = "output #14", fsioOutputPins14
field = "output #15", fsioOutputPins15
field = "output #16", fsioOutputPins16
field = "aux valve #1", auxValves1
field = "aux valve #2", auxValves2
field = ""
field = ""
dialog = fsioFrequency, "Frequency"
field = "freq #1", fsioFrequency1
field = "freq #2", fsioFrequency2
field = "freq #3", fsioFrequency3
field = "freq #4", fsioFrequency4
field = "freq #5", fsioFrequency5
field = "freq #6", fsioFrequency6
field = "freq #7", fsioFrequency7
field = "freq #8", fsioFrequency8
field = "freq #9", fsioFrequency9
field = "freq #10", fsioFrequency10
field = "freq #11", fsioFrequency11
field = "freq #12", fsioFrequency12
field = "freq #13", fsioFrequency13
field = "freq #14", fsioFrequency14
field = "freq #15", fsioFrequency15
field = "freq #16", fsioFrequency16
field = ""
field = ""
dialog = fsioSetting, "Setting"
field = "Set number is not associated with the output number."
field = "Set number, only the cell number with some numbers."
field = "set #1", fsio_setting1
field = "set #2", fsio_setting2
field = "set #3", fsio_setting3
field = "set #4", fsio_setting4
field = "set #5", fsio_setting5
field = "set #6", fsio_setting6
field = "set #7", fsio_setting7
field = "set #8", fsio_setting8
field = "set #9", fsio_setting9
field = "set #10", fsio_setting10
field = "set #11", fsio_setting11
field = "set #12", fsio_setting12
field = "set #13", fsio_setting13
field = "set #14", fsio_setting14
field = "set #15", fsio_setting15
field = "set #16", fsio_setting16
dialog = fsioOutputsDialog, "FSIO outputs", border
panel = fsioIO, West
panel = fsioFrequency, Center
panel = fsioSetting, East
dialog = fsioFormulas, "FSIO Formulas"
field = "#1", fsioFormulas1
field = "#2", fsioFormulas2
field = "#3", fsioFormulas3
field = "#4", fsioFormulas4
field = "#5", fsioFormulas5
field = "#6", fsioFormulas6
field = "#7", fsioFormulas7
field = "use FSIO #8 for servo #1", useFSIO8ForServo1
field = "#8", fsioFormulas8
field = "use FSIO #9 for servo #2", useFSIO8ForServo1
field = "#9", fsioFormulas9
field = "use FSIO #10 for servo #3", useFSIO8ForServo1
field = "#10", fsioFormulas10
field = "use FSIO #11 for servo #4", useFSIO8ForServo1
field = "#11", fsioFormulas11
field = "use FSIO #12 for servo #5", useFSIO8ForServo1
field = "#12", fsioFormulas12
field = "#13", fsioFormulas13
field = "#14", fsioFormulas14
field = "use FSIO #15 for idle RPM adjustment", useFSIO15ForIdleRpmAdjustment
field = "#15", fsioFormulas15
field = "use FSIO #16 for timing adjustment", useFSIO16ForTimingAdjustment
field = "#16", fsioFormulas16
dialog = fsioInputsDialog, "FSIO inputs"
field = "ADC #1", fsioAdc1
field = "ADC #2", fsioAdc2
field = "ADC #3", fsioAdc3
field = "ADC #4", fsioAdc4
help = veTableDialogHelp, "Volumetric Efficiency"
text = "Volumetric Efficiency is used to calculate fuel in Speed Density mode"
webHelp = "http://rusefi.com/fuel"
dialog = veTableDialog
topicHelp = "veTableDialogHelp"
panel = veTableTbl, South
dialog = veTableDialog3D, "VE Table"
topicHelp = "veTableDialogHelp"
panel = veTableMap, South
dialog = etbDialog, "Electronic Thtottle Body (beta)"
field = "verbose", isVerboseETB
field = "Throttle Pedal Up", throttlePedalUpVoltage
field = "Throttle Pedal Wide Open", throttlePedalWOTVoltage
field = "PWM Frequency", etbFreq, {pedalPositionAdcChannel != 16}
field = "Dir #1", etbDirectionPin1, {pedalPositionAdcChannel != 16}
field = "Dir #2", etbDirectionPin2, {pedalPositionAdcChannel != 16}
field = "Control #1", etbControlPin1, {pedalPositionAdcChannel != 16}
field = "Control #2", etbControlPin2, {pedalPositionAdcChannel != 16}
field = "pFactor", etb_pFactor, {pedalPositionAdcChannel != 16}
field = "iFactor", etb_iFactor, {pedalPositionAdcChannel != 16}
field = "dFactor", etb_dFactor, {pedalPositionAdcChannel != 16}
field = "offset", etb_offset, {pedalPositionAdcChannel != 16}
field = "control period", etb_period, {pedalPositionAdcChannel != 16}
field = "pid min", etb_minValue, {pedalPositionAdcChannel != 16}
field = "pid max", etb_maxValue, {pedalPositionAdcChannel != 16}
dialog = testSpark, "Spark"
commandButton = "Spark #1", cmd_test_spk1
commandButton = "Spark #2", cmd_test_spk2
commandButton = "Spark #3", cmd_test_spk3
commandButton = "Spark #4", cmd_test_spk4
commandButton = "Spark #5", cmd_test_spk5
commandButton = "Spark #6", cmd_test_spk6
commandButton = "Spark #7", cmd_test_spk7
commandButton = "Spark #8", cmd_test_spk8
dialog = testInjectors, "Fuel"
commandButton = "Injector #1", cmd_test_inj1
commandButton = "Injector #2", cmd_test_inj2
commandButton = "Injector #3", cmd_test_inj3
commandButton = "Injector #4", cmd_test_inj4
commandButton = "Injector #5", cmd_test_inj5
commandButton = "Injector #6", cmd_test_inj6
commandButton = "Injector #7", cmd_test_inj7
commandButton = "Injector #8", cmd_test_inj8
dialog = testMisc, "Misc"
commandButton = "Come To Pit", cmd_call_from_pit
commandButton = "Fuel Pump", cmd_test_fuel_pump
commandButton = "Radiator Fan", cmd_test_radiator_fan
commandButton = "Check Engine", cmd_test_check_engine_light
commandButton = "Idle Air Valve", cmd_test_idle_valve
commandButton = "Stop Engine", cmd_stop_engine
; bench test
dialog = ioTest, "I-O Test", border
panel = testSpark, West
panel = testInjectors, Center
panel = testMisc, East
; Board->ECU stimulator
dialog = ecuStimulator, "ECU stimulator"
field = "Trigger Simulator", triggerSimulatorFrequency
field = "self-stimulation", directSelfStimulation
field = ""
field = "digipot spi", digitalPotentiometerSpiDevice
field = "digipot CS #0", digitalPotentiometerChipSelect1
field = "digipot CS #1", digitalPotentiometerChipSelect2
field = "digipot CS #2", digitalPotentiometerChipSelect3
field = "digipot CS #3", digitalPotentiometerChipSelect4
field = ""
field = "trigger stimulator pin #1", triggerSimulatorPins1
field = "trigger stimulator pin #2", triggerSimulatorPins2
field = "trigger stimulator pin #3", triggerSimulatorPins3
field = ""
field = "Logic input channel 1", logicAnalyzerPins1
field = "Logic input channel 2", logicAnalyzerPins2
field = "Logic input channel 3", logicAnalyzerPins3
field = "Logic input channel 4", logicAnalyzerPins4
field = ""
field = "Engine chart size", engineChartSize
; Racing Features->Launch Control
dialog = smLaunchControl, "Launch Control Settings NOT WORKING"
field = "RPM Step1 Limit", step1rpm
field = "Launch RPM Window" step1RpmWindow
field = "Step1 Ignition Advance", step1timing
field = "Use Spark Cut", step1SparkCutEnable
field = "Use Fuel Cut", step1fuelCutEnable
field = "clutchDownPin", clutchDownPin
field = "clutchUpPin", clutchUpPin
field = "brakePedalPin", brakePedalPin
dialog = coastingFuelCutControl, "Coasting Fuel Cutoff Settings"
field = "Enable Coasting Fuel Cutoff", coastingFuelCutEnabled
field = "Cutoff Activation RPM High Limit", coastingFuelCutRpmHigh, {coastingFuelCutEnabled == 1}
field = "Cutoff Deactivation RPM Low Limit", coastingFuelCutRpmLow, {coastingFuelCutEnabled == 1}
field = "TPS Deactivation Threshold", coastingFuelCutTps, {coastingFuelCutEnabled == 1}
field = "CLT Activation Threshold", coastingFuelCutClt, {coastingFuelCutEnabled == 1}
field = "MAP Deactivation Threshold", coastingFuelCutMap, {coastingFuelCutEnabled == 1}
[Tools]
;addTool = toolName, PanelName
addTool = veTableGenerator, "VE Table Generator", veTableTbl
addTool = afrTableGenerator, "AFR Table Generator", afrTableTbl
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