/
rusefi.input
4022 lines (3400 loc) · 215 KB
/
rusefi.input
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; This is a TunerStudio project for the rusEFI.com engine management system
;
; This file has been generated by invoking gen_config.bat.
; The input files are
; rusefi.input the common template
; rusefi_config.txt the project specific file
;
; In TunerStudio some fields have little question mark on the left of the name for additional field tips.
; Those tips are defined in ../integration/rusefi_config.txt
;
; For example
;
; float bias_resistor;+Pull-up resistor value on your board;"Ohm"
; here 'bias_resistor' is internal field name and the text between semicolons is what produces the tooltip
; Note that '+' sign is required after first semicolon for tooltop to appear in TunerStudio
;
;
; field = "# blue text"
; field = "! red text"
; field = "normal text"
;
; 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
[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
[MegaTune]
; https://rusefi.com/forum/viewtopic.php?p=36201#p36201
signature = @@TS_SIGNATURE@@
[TunerStudio]
queryCommand = "S"
versionInfo = "V" ; firmware version for title bar.
signature = @@TS_SIGNATURE@@ ; signature is expected to be 7 or more characters.
; TS will try to use legacy temp units in some cases, showing "deg F" on a CLT gauge that's actually deg C
useLegacyFTempUnits = false
ignoreMissingBitOptions = true
; Optimize comms for fast rusEFI ECUs
noCommReadDelay = true;
defaultRuntimeRecordPerSec = 100;
maxUnusedRuntimeRange = 1000;
; Set default IP/port to our IP/port
defaultIpAddress = 192.168.10.1;
defaultIpPort = 29000;
[Constants]
; new packet serial format with CRC
messageEnvelopeFormat = msEnvelope_1.0
endianness = little
nPages = 1
pageIdentifier = "\x00\x00"
pageReadCommand = "@@TS_READ_COMMAND_char@@%2o%2c"
burnCommand = "@@TS_BURN_COMMAND_char@@"
pageActivate = "@@TS_PAGE_COMMAND_char@@"
pageValueWrite = "@@TS_SINGLE_WRITE_COMMAND_char@@%2o%v"
pageChunkWrite = "@@TS_CHUNK_WRITE_COMMAND_char@@%2o%2c%v"
crc32CheckCommand = "@@TS_CRC_CHECK_COMMAND_char@@%2o%2c"
retrieveConfigError = "e"
;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 = @@BLOCKING_FACTOR@@ ; 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
; 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"
[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
#if LAMBDA
gauge2 = lambda1Gauge
#else
gauge2 = afr1Gauge
#endif
gauge3 = MAPGauge
gauge4 = veValueGauge
[LoggerDefinition]
; valid logger types: composite, tooth, trigger, csv
; loggerDef = compositeLogger, "Primary Trigger Logger", tooth
loggerDef = compositeLogger, "Trigger Logger", composite
startCommand = "l\x01"
stopCommand = "l\x02"
dataReadCommand = "L"
dataReadTimeout = 10000 ; time in ms
dataReadyCondition = { toothLogReady }
continuousRead = true
; each packet is @@COMPOSITE_PACKET_SIZE@@ and we have @@COMPOSITE_PACKET_COUNT@@ of those
dataLength = @@COMPOSITE_DATA_LENGTH_HALF@@
;tooth
; recordDef = headerLen, footerLen, recordLen
; recordDef = 0, 0, @@COMPOSITE_PACKET_SIZE@@
; uint16 that stores 1/100 second
; recordField = toothTime, "tooth", 0, 16, 0.01, "ms"
; recordDef = headerLen, footerLen, recordLen
recordDef = 0, 0, @@COMPOSITE_PACKET_SIZE@@
; these names are hard-coded inside TS
recordField = priLevel, "PriLevel", 0, 1, 1.0, "Flag"
recordField = secLevel, "SecLevel", 1, 1, 1.0, "Flag"
recordField = trigger, "Trigger", 2, 1, 1.0, "Flag"
recordField = sync, "Sync", 3, 1, 1.0, "Flag"
recordField = coil, "Coil", 4, 1, 1.0, "Flag"
recordField = inj, "Injector", 5, 1, 1.0, "Flag"
recordField = time, "Time", 8, 32, 0.001, "ms"
; it seems that TS also needs to know the diff.size of a tooth
calcField = toothTime, "ToothTime", "ms", { time - pastValue(time, 1) }
[VeAnalyze]
; tableName, lambdaTargetTableName, lambdaChannel, egoCorrectionChannel, activeCondition
#if LAMBDA
veAnalyzeMap = veTableTbl, lambdaTableTbl, lambdaValue, egoCorrectionForVeAnalyze, { 1 }
lambdaTargetTables = lambdaTableTbl, afrTSCustom
#else
veAnalyzeMap = veTableTbl, afrTableTbl, AFRValue, egoCorrectionForVeAnalyze, { 1 }
lambdaTargetTables = afrTableTbl, afrTSCustom
#endif
; filter = Name, "DisplayName", outputChannel, operator, defaultVal, userAdjustable
filter = minRPMFilter, "Minimum RPM", RPMValue, < , 500, , true
filter = minCltFilter, "Minimum CLT", coolant, < , 60, , true
filter = deltaTps, "dTPS", deltaTps > , 50, , true
filter = VBatt, "VBatt", VBatt < , 12, , true
filter = minTps, "Minimum TPS", TPSValue, < , 1, , true
;
; in order to add new TunerStudio gauge you need to chagne two places
; 1) add a line here in '[OutputChannels]'
; 2) in rusEFI firmware make a change to output_channels.txt
;
[OutputChannels]
ochGetCommand = "O%2o%2c"
; see TS_OUTPUT_SIZE in console source code
ochBlockSize = @@TS_TOTAL_OUTPUT_SIZE@@
;
; see TunerStudioOutputChannels struct
;
@@OUTPUTS_SECTION_FROM_FILE@@
time = { timeNow }
egoCorrectionForVeAnalyze = { 100 + fuelPidCorrection1 }
; These "synthetic" channels provide the Y-axis (load) value for gen purp PWM table's Y axes
gppwm1_load = {(gppwm1_loadAxis == 0) ? TPSValue : ((gppwm1_loadAxis == 1) ? MAPValue : ((gppwm1_loadAxis == 2) ? coolant : ((gppwm1_loadAxis == 3) ? intake : ((gppwm1_loadAxis == 4) ? fuelingLoad : ignitionLoad))))}
gppwm2_load = {(gppwm2_loadAxis == 0) ? TPSValue : ((gppwm2_loadAxis == 1) ? MAPValue : ((gppwm2_loadAxis == 2) ? coolant : ((gppwm2_loadAxis == 3) ? intake : ((gppwm2_loadAxis == 4) ? fuelingLoad : ignitionLoad))))}
gppwm3_load = {(gppwm3_loadAxis == 0) ? TPSValue : ((gppwm3_loadAxis == 1) ? MAPValue : ((gppwm3_loadAxis == 2) ? coolant : ((gppwm3_loadAxis == 3) ? intake : ((gppwm3_loadAxis == 4) ? fuelingLoad : ignitionLoad))))}
gppwm4_load = {(gppwm4_loadAxis == 0) ? TPSValue : ((gppwm4_loadAxis == 1) ? MAPValue : ((gppwm4_loadAxis == 2) ? coolant : ((gppwm4_loadAxis == 3) ? intake : ((gppwm4_loadAxis == 4) ? fuelingLoad : ignitionLoad))))}
[PcVariables]
tuneCrcPcVariable = continuousChannelValue, tuneCrc16
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
gearCountArray = array, S08, [@@TCU_GEAR_COUNT@@], "Gear", 1, 0, -1, { @@TCU_GEAR_COUNT@@ - 2 }, 0, noMsqSave
solenoidCountArray = array, U08, [@@TCU_SOLENOID_COUNT@@], "Solenoid", 1, 0, 1, @@TCU_SOLENOID_COUNT@@, 0, noMsqSave
; These are inverted (false = "Yes") so that they default to enabled
enableLogDebugChannels = bits, U08, [0:0], "Yes", "No"
enableLogErrorList = bits, U08, [0:0], "Yes", "No"
; wall of debug mode :)
; https://rusefi.com/wiki/index.php?title=Manual:Debug_fields
; Alternator TPS Acceleration GPPWM Idle Engine Load Acc Trigger Counters VVT1 PID Cranking Ignition Timing Fu Corr VSS SD Card Knock Wall Wetting ETB PID Executor InstantRpm CJ125 CAN MAP TLE8888 Analog inputs 2 Start ETB Autotune DYNO_VIEW LOGIC_ANALYZER Wideband TCU Lua VVT2 PID VVT3 PID VVT4 PID
; 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51
; DBG_ALTERNATOR_PID DBG_TPS_ACCEL DBG_GPPWM DBG_IDLE_CONTROL
debugFieldF1List = bits, U08, [0:7], "Alt: Controller Output", "From TPS", "GPPWM 1", "Idle: Controller Output", "Idle output", " ", "", "VVT1: Controller Output"," ", "", "Ign IAT Corr", "", "", "Total SD", "last volts", "", "WW: Alpha", "ETB Controller Output", "", "", "df1", "df1", "InstantRpm", "", "24:df1", "CJ125: output", "", "MAP Average", "", "", "", "", "TPS1 Pri/Sec Diff", "", "", "", "","S unused" "", "Osc Amplitude", "", "", "", "" , "VSS", "", "WB: Pump DAC duty", "", "Lua Debug 1", "VVT2: Controller Output","VVT3: Controller Output","VVT4: Controller Output"
debugFieldF2List = bits, U08, [0:7], "Alt: I Term", "To TPS", "GPPWM 2", "Idle: I Term", "Idle df2", " ", "", "VVT1: I Term", " ", "", "Ign CLT Corr", "", "", "Write Cnt","last filtered","", "WW: Beta", "ETB I Term", "", "", "df2", "df2", "InstantRPM Ratio","", "24:df2", "CJ125: i term", "", "MAP Duration", "", "", "", "", "TPS2 Pri/Sec Diff", "", "", "", "","S unused" "", "Duty Amplitude", "", "", "", "" , "Speed", "", "WB: ESR", "", "Lua Debug 2", "VVT2: I Term", "VVT3: I Term", "VVT4: I Term"
debugFieldF3List = bits, U08, [0:7], "Alt: Previous Error", "Current TPS<>TPS", "GPPWM 3", "Idle: prev error", "Idle df3", "ICU sum", "", "VVT1: prev error", "", "", "", "", "", "Sync Cnt", "", "", "WW: film mass", "ETB err", "", "", "df3", "df3", "22df3", "", "24:df3", "CJ125: err", "", "MAP Fast", "", "", "", "", "TPS1/2 Diff", "", "", "", "","S unused" "", "Tu", "", "", "", "" , "DeltaSpeed", "", "WB: Nernst Voltage", "", "Lua Debug 3", "VVT2: prev error", "VVT3: prev error", "VVT4: prev error"
debugFieldF4List = bits, U08, [0:7], "Alt: I Gain", "Extra Fuel", "GPPWM 4", "Idle: I Gain", "Idle df4", " ", "", "VVT1: I Gain", "", "", "Ign PID Adj", "", "", "File Cnt", "", "", "WW: m_cmd", "ETB I setting", "", "", "df4", "df4", "22df4", "", "24:df4", "CJ125: UA", "", "MAP Estimate", "", "", "", "", "Acc Pedal Pri/Sec Diff","", "", "", "","S unused" "", "Ku", "", "", "", "", "accel", "", "WB: Lambda", "", "Lua Debug 4", "VVT2: I Gain", "VVT3: I Gain", "VVT4: I Gain"
debugFieldF5List = bits, U08, [0:7], "Alt: D Gain", "df5", "df5", "Idle: D Gain", "Idle df5", " ", "df5", "VVT1: D Gain", "", "", "", "", "", "", "", "", "WW: film mass next","ETB D setting", "df5", "df5", "df5", "df5", "22df5", "", "24:df5", "CJ125: UR", "", "MAP Instant", "", "", "", "", "TPS1 Pri/Sec Ratio", "", "", "", "","S unused" "", "Kp", "", "", "", "", "", "", "", "", "Lua Debug 5", "VVT2: D Gain", "VVT3: D Gain", "VVT4: D Gain"
debugFieldF6List = bits, U08, [0:7], "Alt: D Term", "", "", "Idle: D Term", "Idle df6", " ", "", "VVT1: D Term", "", "", "", "", "", "", "", "", "", "ETB df6", "", "", "df6", "df6", "22df6", "", "24:df6", "cj: f7", "", "", "", "", "", "", "", "", "", "", "","S unused" "", "Ki", "", "", "", "", "", "", "", "", "Lua Debug 6", "VVT2: D Term", "VVT3: D Term", "VVT4: D Term"
debugFieldF7List = bits, U08, [0:7], "Alt: Max-Value", "", "", "Idle: Max-Value", "Idle df7", "", "", "VVT1: Max-Value", "", "", "", "", "", "", "", "", "", "ETB df7", "", "", "df7", "df7", "22df7", "", "24:df7", "cj: f7", "", "", "", "", "", "", "", "", "", "", "","S unused" "", "Kd", "", "", "", "", "", "", "", "", "Lua Debug 7", "", "", ""
debugFieldI1List = bits, U08, [0:7], "Alt: P Gain", "", "", "Idle: P Gain", "Idle di1", " ", "", "VVT1: P Gain", " ", "Cycle Counter", "Multispark Count", "", "", "", "hip corr", "", "", "ETB P-Gain", "t counter", "", "di1", "di1", "Spark Event Gap","", "24:di1", "CJ125: state", "read count","MAP counter", "", "", "", "SPI Counter", "", "", "", "", "","Start Count", "", "", "", "", "", "", "deltatime", "", "", "Solenoid 1 State", "Lua memory used","VVT2: P Gain", "VVT3: P Gain", "VVT4: P Gain"
debugFieldI2List = bits, U08, [0:7], "Alt: Offset", "", "", "Idle: Offset", "Idle di2", " ", "", "VVT1: Offset", "", "", "", "", "", "", "hip incor", "", "", "ETB di2", "invocationcounter", "", "di2", "di2", "Inj Event Gap", "", "24:di2", "", "write count","MAP raw ADC", "", "", "", "Latest Transmit","", "", "", "", "","Starter Enable", "", "", "", "", "", "", "", "", "", "Solenoid 2 State", "", "VVT2: Offset", "VVT3: Offset", "VVT4: Offset"
debugFieldI3List = bits, U08, [0:7], "Alt: Reset Cnt", "", "", "Idle: Reset Cnt", "Idle di3", " ", "", "VVT1: 10xTarget", "", "", "", "", "", "", "", "", "", "ETB di3", "s counter", "", "di3", "di3", "22di3", "", "24:di3", "", "write err", "", "", "", "", "Latest Received","", "", "", "", "","Starter Disable","", "", "", "", "", "", "", "", "", "Solenoid 3 State", "", "VVT2: 10xTarger", "VVT3: 10xTarger", "VVT4: 10xTarger"
debugFieldI4List = bits, U08, [0:7], "Alt: Period", "", "", "Idle: State", "Idle di4", "Cycle Cnt 1", "", "", "", "", "", "", "", "", "", "", "", "ETB di4", "executor", "", "di4", "di4", "22di4", "", "24:di4", "", "", "", "", "", "", "Init Count", "", "", "", "", "","" "", "", "", "", "", "", "", "", "", "Solenoid 4 State", "", "", "", ""
debugFieldI5List = bits, U08, [0:7], "", "", "", "", "Idle di5", "Cycle Cnt 2", "", "", "", "", "", "", "", "", "", "di5", "di5", "ETB di5", "max executor", "di5", "di5", "di5", "22di5", "di5", "di5", "di5", "di5", "di5", "", "di5", "di5", "di5", "", "di5", "di5", "di5", "","" "", "", "", "", "", "", "", "", "", "Solenoid 5 State", "", "", "", ""
[ConstantsExtensions]
; defaultValue is used to provide TunerStudio with a value to use in the case of
; the constant not yet being initialized. This is primarily important if the
; constant is used as a variable in the ini.
; defaultValue = constantName, value;
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
; this magic is best described in output_channels.txt search for 'maintainConstantValue'
; TPS 1 Primary
maintainConstantValue = tpsMax, { (calibrationMode == @@TsCalMode_Tps1Max@@ ) ? calibrationValue : tpsMax }
maintainConstantValue = tpsMin, { (calibrationMode == @@TsCalMode_Tps1Min@@ ) ? calibrationValue : tpsMin }
; TPS 1 Secondary
maintainConstantValue = tps1SecondaryMax, { (calibrationMode == 6 ) ? calibrationValue : tps1SecondaryMax }
maintainConstantValue = tps1SecondaryMin, { (calibrationMode == 7 ) ? calibrationValue : tps1SecondaryMin }
; TPS 2 Primary
maintainConstantValue = tps2Max, { (calibrationMode == 8 ) ? calibrationValue : tps2Max }
maintainConstantValue = tps2Min, { (calibrationMode == 9 ) ? calibrationValue : tps2Min }
; TPS 2 Secondary
maintainConstantValue = tps2SecondaryMax, { (calibrationMode == @@TsCalMode_Tps2SecondaryMax@@ ) ? calibrationValue : tps2SecondaryMax }
maintainConstantValue = tps2SecondaryMin, { (calibrationMode == @@TsCalMode_Tps2SecondaryMin@@ ) ? calibrationValue : tps2SecondaryMin }
; ETB Auto Gain Calibration
maintainConstantValue = etb_pFactor, { (calibrationMode == 3 ) ? calibrationValue : etb_pFactor }
maintainConstantValue = etb_iFactor, { (calibrationMode == 4 ) ? calibrationValue : etb_iFactor }
maintainConstantValue = etb_dFactor, { (calibrationMode == 5 ) ? calibrationValue : etb_dFactor }
maintainConstantValue = throttlePedalUpVoltage, { (calibrationMode == @@TsCalMode_PedalMin@@ ) ? calibrationValue : throttlePedalUpVoltage }
maintainConstantValue = throttlePedalSecondaryUpVoltage, { (calibrationMode == @@TsCalMode_PedalMin@@ ) ? calibrationValue2 : throttlePedalSecondaryUpVoltage }
maintainConstantValue = throttlePedalWOTVoltage, { (calibrationMode == @@TsCalMode_PedalMax@@ ) ? calibrationValue : throttlePedalWOTVoltage }
maintainConstantValue = throttlePedalSecondaryWOTVoltage,{ (calibrationMode == @@TsCalMode_PedalMax@@ ) ? calibrationValue2 : throttlePedalSecondaryWOTVoltage }
requiresPowerCycle = useETBforIdleControl
requiresPowerCycle = warningLedPin
requiresPowerCycle = runningLedPin
requiresPowerCycle = binarySerialTxPin
requiresPowerCycle = binarySerialRxPin
requiresPowerCycle = useSerialPort
requiresPowerCycle = tunerStudioSerialSpeed
requiresPowerCycle = auxSerialRxPin
requiresPowerCycle = auxSerialTxPin
requiresPowerCycle = etb_use_two_wires
requiresPowerCycle = etbFreq
requiresPowerCycle = etbFunctions1
requiresPowerCycle = etbFunctions2
requiresPowerCycle = idle_solenoidFrequency
requiresPowerCycle = boostPwmFrequency
requiresPowerCycle = alternatorPwmFrequency
requiresPowerCycle = vvtOutputFrequency1
requiresPowerCycle = vvtOutputFrequency2
requiresPowerCycle = vvtPins1
requiresPowerCycle = vvtPins2
requiresPowerCycle = vvtPins3
requiresPowerCycle = vvtPins4
requiresPowerCycle = auxAnalogInputs1
requiresPowerCycle = auxAnalogInputs2
requiresPowerCycle = auxAnalogInputs3
requiresPowerCycle = auxAnalogInputs4
requiresPowerCycle = auxAnalogInputs5
requiresPowerCycle = auxAnalogInputs6
requiresPowerCycle = auxAnalogInputs7
requiresPowerCycle = auxAnalogInputs8
readOnly = warning_message
defaultValue = gearCountArray, -1 0 1 2 3 4 5 6 7 8
readOnly = gearCountArray
defaultValue = solenoidCountArray, 1 2 3 4 5 6 7 8
readOnly = solenoidCountArray
[CurveEditor]
; xAxis = leftValue, rightValue, step
; yAxis = bottomValue, topValue, step
curve = knockThresholdCurve, "Engine knock threshold RPM based"
columnLabel = "RPM", "Threshold"
xAxis = 0, 8000, 9
yAxis = 0, 8, 10
xBins = knockNoiseRpmBins, RPMValue
yBins = knockBaseNoise
gauge = RPMGauge
curve = narrowToWideOxygenCurve, "Narrow to Wideband approximation"
columnLabel = "Voltage", "AFR"
xAxis = 0, 6, 10
yAxis = 0, 28, 10
xBins = narrowToWideOxygenBins
yBins = narrowToWideOxygen
#if LAMBDA
gauge = lambda1Gauge
#else
gauge = afr1Gauge
#endif
curve = scriptCurve1, "Script Curve #1"
columnLabel = "X", "Y"
xAxis = 0, 128, 10
yAxis = -155, 150, 10
xBins = scriptCurve1Bins
yBins = scriptCurve1
showTextValues = true
curve = scriptCurve2, "Script Curve #2"
columnLabel = "X", "Y"
xAxis = 0, 128, 10
yAxis = -150, 150, 10
xBins = scriptCurve2Bins
yBins = scriptCurve2
showTextValues = true
curve = scriptCurve3, "Script Curve #3"
columnLabel = "X", "Y"
xAxis = 0, 128, 10
yAxis = -5, 5, 10
xBins = scriptCurve3Bins
yBins = scriptCurve3
showTextValues = true
curve = scriptCurve4, "Script Curve #4"
columnLabel = "X", "Y"
xAxis = 0, 128, 10
yAxis = -5, 5, 10
xBins = scriptCurve4Bins
yBins = scriptCurve4
showTextValues = true
curve = scriptCurve5, "Script Curve #5"
columnLabel = "X", "Y"
xAxis = 0, 128, 10
yAxis = -5, 5, 10
xBins = scriptCurve5Bins
yBins = scriptCurve5
showTextValues = true
curve = scriptCurve6, "Script Curve #6"
columnLabel = "X", "Y"
xAxis = 0, 128, 10
yAxis = -5, 5, 10
xBins = scriptCurve6Bins
yBins = scriptCurve6
showTextValues = true
curve = dwellCorrection, "Dwell time base"
columnLabel = "RPM", "Dwell"
xAxis = 0, 8000, 9
yAxis = 0, 8, 9
xBins = sparkDwellRpmBins, RPMValue
yBins = sparkDwellValues
gauge = RPMGauge
curve = dwellVoltageCorrection, "Dwell voltage correction"
columnLabel = "Battery Volts", "Multiplier"
xAxis = 6, 16, 11
yAxis = 0, 3, 7
xBins = dwellVoltageCorrVoltBins, VBatt
yBins = dwellVoltageCorrValues
gauge = VBattGauge
curve = primingPulse, "Priming pulse fuel mass"
columnLabel = "Coolant", "Prime Pulse"
xAxis = -40, 120, 9
yAxis = 0, 1000, 9
xBins = primeBins, coolant
yBins = primeValues
gauge = CLTGauge
curve = map_samplingAngleCurve, "MAP Sampling Start Angle"
columnLabel = "RPM", "Angle"
xAxis = 0, 8000, 9
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, 9
yAxis = 0, 180, 10
xBins = map_samplingWindowBins, RPMValue
yBins = map_samplingWindow
gauge = MAPGauge
curve = injectorsDeadTime, "Injector dead time"
columnLabel = "Battery", "Dead Time"
xAxis = 6, 16, 11
yAxis = 0, 8, 9
xBins = injector_battLagCorrBins, VBatt
yBins = injector_battLagCorr
gauge = VBattGauge
curve = vrThresholdCurve1, "VR 1 Threshold"
columnLabel = "RPM", "Voltage"
xAxis = 0, 8000, 9
yAxis = 0, 2.5, 6
xBins = vrThreshold1_rpmBins, RPMValue
yBins = vrThreshold1_values
curve = vrThresholdCurve2, "VR 2 Threshold"
columnLabel = "RPM", "Voltage"
xAxis = 0, 8000, 9
yAxis = 0, 2.5, 6
xBins = vrThreshold2_rpmBins, RPMValue
yBins = vrThreshold2_values
curve = mafDecodingCurve, "MAF sensor"
columnLabel = "Voltage", "kg/hour"
xAxis = -1, 6, 10
yAxis = -30, 1300, 10
xBins = mafDecodingBins, rawMaf
yBins = mafDecoding
gauge = rawMafGauge
curve = iatFuelCorrCurve, "Intake air temperature fuel Multiplier"
columnLabel = "Air Temp", "Multiplier"
xAxis = -40, 120, 9
yAxis = 0, 2, 11
xBins = iatFuelCorrBins, intake
yBins = iatFuelCorr
gauge = IATGauge
curve = cltTimingCorrCurve, "Warmup timing correction"
columnLabel = "Coolant", "Extra"
xAxis = -40, 120, 9
yAxis = 0, 20, 9
xBins = cltTimingBins, coolant
yBins = cltTimingExtra
gauge = CLTGauge
curve = cltFuelCorrCurve, "Warmup fuel manual Multiplier"
columnLabel = "Coolant", "Multiplier"
xAxis = -40, 120, 9
yAxis = 0, 3, 10
xBins = cltFuelCorrBins, coolant
yBins = cltFuelCorr
gauge = CLTGauge
curve = crankingCltCurve, "Cranking Coolant Temperature Multiplier"
columnLabel = "Coolant", "Multiplier"
xAxis = -40, 120, 9
yAxis = 0, 3, 10
xBins = crankingFuelBins, coolant
yBins = crankingFuelCoef
gauge = CLTGauge
curve = crankingCltCurveE100, "Cranking Coolant Temperature Multiplier (Flex Fuel E85)"
columnLabel = "Coolant", "Multiplier"
xAxis = -40, 120, 9
yAxis = 0, 3, 10
xBins = crankingFuelBins, coolant
yBins = crankingFuelCoefE100
gauge = CLTGauge
curve = etbTpsBiasCurve, "Electronic TB Bias Curve"
columnLabel = "TPS", "duty bias"
xAxis = 0, 50, 11
yAxis = -40, 40, 9
xBins = etbBiasBins, TPSValue
yBins = etbBiasValues
gauge = TPSGauge
curve = crankingTpsCurve, "Cranking TPS Multiplier"
columnLabel = "TPS", "Multiplier"
xAxis = 0, 100, 11
yAxis = 0, 3, 10
xBins = crankingTpsBins, TPSValue
yBins = crankingTpsCoef
gauge = TPSGauge
curve = crankingDurationCurve, "Cranking Duration Multiplier"
columnLabel = "Engine Cycle", "Multiplier"
xAxis = 0, 50, 11
yAxis = 0, 5, 6
xBins = crankingCycleBins
yBins = crankingCycleCoef
curve = cltIdleCurve, "Warmup Idle multiplier"
columnLabel = "Coolant", "Multiplier"
xAxis = -40, 120, 10
yAxis = 0, 3, 10
xBins = cltIdleCorrBins, coolant
yBins = cltIdleCorr
gauge = CLTGauge
curve = iacCoastingCurve, "Coasting IAC Position for Auto-Idle"
columnLabel = "Coolant", "Multiplier"
xAxis = -40, 120, 9
yAxis = 0, 100, 10
xBins = iacCoastingBins, coolant
yBins = iacCoasting
gauge = idleAirValvePositionGauge
curve = cltCrankingCurve, "Cranking Idle Air multiplier"
columnLabel = "Coolant", "Multiplier"
xAxis = -40, 120, 9
yAxis = 0, 3, 10
xBins = cltCrankingCorrBins, coolant
yBins = cltCrankingCorr
gauge = CLTGauge
curve = cltIdleRPMCurve, "Idle Target RPM"
columnLabel = "Coolant", "RPM"
xAxis = -40, 120, 9
yAxis = 0, 2400, 13
xBins = cltIdleRpmBins, coolant
yBins = cltIdleRpm, RPMValue
gauge = CLTGauge
curve = idleAdvanceCurve, "Idle Advance Angle"
columnLabel = "RPM", "degrees"
xAxis = 0, 2400, 13
yAxis = -100, 100, 11
xBins = idleAdvanceBins, RPMValue
yBins = idleAdvance
gauge = RPMGauge
curve = crankingAdvanceCurve, "Cranking Advance Angle"
columnLabel = "RPM", "degrees"
xAxis = 0, 1200, 13
yAxis = -30, 30, 11
xBins = crankingAdvanceBins, RPMValue
yBins = crankingAdvance
gauge = RPMGauge
curve = fuelLevelCurve, "Fuel Level"
columnLabel = "Voltage", "%"
xAxis = 0, 5, 6
yAxis = 0, 100, 11
xBins = fuelLevelBins
yBins = fuelLevelValues
gauge = fuelTankLevelGauge
curve = wueAfrTargetOffsetCurve, "AFR Target Temperature Adjustment"
columnLabel = "Coolant", "AFR Offset"
xAxis = -40, 200, 9
yAxis = -3, 1, 5
xBins = cltFuelCorrBins, coolant
yBins = wueAfrTargetOffset
gauge = cltGauge
curve = wueAnalyzer_warmup_curve, "Warmup Enrichment"
columnLabel = "Coolant", "Current WUE", "Coolant", "Corrected"
xAxis = -40, 200, 9
yAxis = 90, 500, 6
xBins = cltFuelCorrBins, coolant
yBins = cltFuelCorr
yBins = wueAnalRecommend
;gauge = cltGauge
lineLabel = "Warmup Correction"
lineLabel = "Recommended WUE"
curve = hpfpLobeProfileCurve, "HPFP Lobe Profile"
columnLabel = "% pump volume", "angle"
xAxis = 0, 100, 11
yAxis = 0, 240, 13
xBins = hpfpLobeProfileQuantityBins
yBins = hpfpLobeProfileAngle
curve = hpfpDeadtimeCurve, "HPFP Valve Deadtime"
columnLabel = "volts", "ms"
xAxis = 5, 15, 11
yAxis = 0, 5, 6
xBins = hpfpDeadtimeVoltsBins
yBins = hpfpDeadtimeMS
curve = wwTauCltCurve, "Evap time vs. CLT"
columnLabel = "coolant", "seconds"
xAxis = -40, 120, 9
yAxis = 0, 2, 9
xBins = wwCltBins, coolant
yBins = wwTauCltValues
gauge = CLTGauge
curve = wwTauMapCurve, "Evap time vs. MAP"
columnLabel = "MAP", "mult"
xAxis = 0, 100, 5
yAxis = 0, 2, 9
xBins = wwMapBins, MAPValue
yBins = wwTauMapValues
gauge = MAPGauge
curve = wwBetaCltCurve, "Impact fraction vs. CLT"
columnLabel = "coolant", "fraction"
xAxis = -40, 120, 9
yAxis = 0, 2, 9
xBins = wwCltBins, coolant
yBins = wwBetaCltValues
gauge = CLTGauge
curve = wwBetaMapCurve, "Impact fraction vs. MAP"
columnLabel = "MAP", "mult"
xAxis = 0, 100, 5
yAxis = 0, 2, 9
xBins = wwMapBins, MAPValue
yBins = wwBetaMapValues
gauge = MAPGauge
curve = tchargeCurve, "Charge temperature estimation coefficient"
columnLabel = "flow", "coefficient"
xAxis = 0, 500, 6
yAxis = 0, 100, 5
xBins = tchargeBins, mafEstimate
yBins = tchargeValues
gauge = tChargeGauge
curve = tccLockCurve, "TCC Lock Curve"
columnLabel = "TPS", "Lock Speed", "Unlock Speed"
xAxis = 0, 100, 10
yAxis = 0, 100, 10
xBins = tcu_tccTpsBins, TPSValue
yBins = tcu_tccLockSpeed
yBins = tcu_tccUnlockSpeed
gauge = TPSGauge
curve = pcPerGearCurve, "Transmission Line Pressure Control"
columnLabel = "Airmass", ""
xAxis = 0, 5, 10
yAxis = 0, 100, 10
xBins = tcu_pcAirmassBins, chargeAirMass
yBins = tcu_pcValsR
yBins = tcu_pcValsN
yBins = tcu_pcVals1
yBins = tcu_pcVals2
yBins = tcu_pcVals3
yBins = tcu_pcVals4
lineLabel = "R%"
lineLabel = "N%"
lineLabel = "1%"
lineLabel = "2%"
lineLabel = "3%"
lineLabel = "4%"
curve = pcPerShiftCurve, "Transmission Line Pressure Control - Shift"
columnLabel = "Airmass", ""
xAxis = 0, 5, 10
yAxis = 0, 100, 10
xBins = tcu_pcAirmassBins, chargeAirMass
yBins = tcu_pcVals12
yBins = tcu_pcVals23
yBins = tcu_pcVals34
yBins = tcu_pcVals21
yBins = tcu_pcVals32
yBins = tcu_pcVals43
lineLabel = "1->2%"
lineLabel = "2->3%"
lineLabel = "3->4%"
lineLabel = "2->1%"
lineLabel = "3->2%"
lineLabel = "4->3%"
curve = 32Curve, "3-2 Shift Solenoid Percent by Speed"
columnLabel = "Speed", "%"
xAxis = 0, 200, 20
yAxis = 0, 100, 10
xBins = tcu_32SpeedBins, vehicleSpeedKph
yBins = tcu_32Vals
[TableEditor]
; table_id, map3d_id, "title", page
; 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
topicHelp = "tpstpsHelp"
xBins = tpsTpsAccelFromRpmBins, TPSValue
yBins = tpsTpsAccelToRpmBins, TPSValue
zBins = tpsTpsAccelTable
table = boostTableTbl, boostMapOpen, "Boost control duty cycle (open loop)", 1
xBins = boostRpmBins, RPMValue
yBins = boostTpsBins, TPSValue
zBins = boostTableOpenLoop
table = boostTable2Tbl, boostMapClosed, "Boost control target", 1
xBins = boostRpmBins, RPMValue
yBins = boostTpsBins, TPSValue
zBins = boostTableClosedLoop
table = vvtTable1Tbl, vvtTable1Map, "Intake VVT closed loop Target", 1
xBins = vvtTable1RpmBins, RPMValue
yBins = vvtTable1LoadBins, fuelingLoad
zBins = vvtTable1
table = vvtTable2Tbl, vvtTable2Map, "Exhaust VVT closed loop Target", 1
xBins = vvtTable2RpmBins, RPMValue
yBins = vvtTable2LoadBins, fuelingLoad
zBins = vvtTable2
table = scriptTable1Tbl, scriptTable1Map, "Script Table #1", 1
xBins = scriptTable1RpmBins, RPMValue
yBins = scriptTable1LoadBins, fuelingLoad
zBins = scriptTable1
table = scriptTable2Tbl, scriptTable2Map, "Script Table #2", 1
xBins = scriptTable2RpmBins, RPMValue
yBins = scriptTable2LoadBins, fuelingLoad
zBins = scriptTable2
table = scriptTable3Tbl, scriptTable3Map, "Script Table #3", 1
xBins = scriptTable3RpmBins, RPMValue
yBins = scriptTable3LoadBins, fuelingLoad
zBins = scriptTable3
table = scriptTable4Tbl, scriptTable4Map, "Script Table #4", 1
xBins = scriptTable4RpmBins, RPMValue
yBins = scriptTable4LoadBins, fuelingLoad
zBins = scriptTable4
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
yBins = ignitionLoadBins, ignitionLoad
zBins = ignitionTable
; gridHeight = 2.0
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 = torqueTableTbl, torqueTableMap, "Engine Torque", 1
xBins = torqueRpmBins, RPMValue
yBins = torqueLoadBins, veTableYAxis
zBins = torqueTable
table = veTableTbl, veTableMap, "VE Table", 1
; constant, variable
xBins = veRpmBins, RPMValue
yBins = veLoadBins, veTableYAxis
zBins = veTable
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(RICHER)", "(LEANER)"
table = idleVeTableTbl, idleVeTable, "Idle VE"
xBins = idleVeRpmBins, RPMValue
yBins = idleVeLoadBins, veTableYAxis
zBins = idleVeTable
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTrimTbl1, fuelTrimMap1, "Fuel trim cyl 1", 1
xBins = fuelTrimRpmBins, RPMValue
yBins = fuelTrimLoadBins, veTableYAxis
zBins = fuelTrims1_table
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTrimTbl2, fuelTrimMap2, "Fuel trim cyl 2", 1
xBins = fuelTrimRpmBins, RPMValue
yBins = fuelTrimLoadBins, veTableYAxis
zBins = fuelTrims2_table
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTrimTbl3, fuelTrimMap3, "Fuel trim cyl 3", 1
xBins = fuelTrimRpmBins, RPMValue
yBins = fuelTrimLoadBins, veTableYAxis
zBins = fuelTrims3_table
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTrimTbl4, fuelTrimMap4, "Fuel trim cyl 4", 1
xBins = fuelTrimRpmBins, RPMValue
yBins = fuelTrimLoadBins, veTableYAxis
zBins = fuelTrims4_table
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTrimTbl5, fuelTrimMap5, "Fuel trim cyl 5", 1
xBins = fuelTrimRpmBins, RPMValue
yBins = fuelTrimLoadBins, veTableYAxis
zBins = fuelTrims5_table
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTrimTbl6, fuelTrimMap6, "Fuel trim cyl 6", 1
xBins = fuelTrimRpmBins, RPMValue
yBins = fuelTrimLoadBins, veTableYAxis
zBins = fuelTrims6_table
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTrimTbl7, fuelTrimMap7, "Fuel trim cyl 7", 1
xBins = fuelTrimRpmBins, RPMValue
yBins = fuelTrimLoadBins, veTableYAxis
zBins = fuelTrims7_table
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTrimTbl8, fuelTrimMap8, "Fuel trim cyl 8", 1
xBins = fuelTrimRpmBins, RPMValue
yBins = fuelTrimLoadBins, veTableYAxis
zBins = fuelTrims8_table
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTrimTbl9, fuelTrimMap9, "Fuel trim cyl 9", 1
xBins = fuelTrimRpmBins, RPMValue
yBins = fuelTrimLoadBins, veTableYAxis
zBins = fuelTrims9_table
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTrimTbl10, fuelTrimMap10, "Fuel trim cyl 10", 1
xBins = fuelTrimRpmBins, RPMValue
yBins = fuelTrimLoadBins, veTableYAxis
zBins = fuelTrims10_table
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTrimTbl11, fuelTrimMap11, "Fuel trim cyl 11", 1
xBins = fuelTrimRpmBins, RPMValue
yBins = fuelTrimLoadBins, veTableYAxis
zBins = fuelTrims11_table
upDownLabel = "(RICHER)", "(LEANER)"
table = fuelTrimTbl12, fuelTrimMap12, "Fuel trim cyl 12", 1
xBins = fuelTrimRpmBins, RPMValue
yBins = fuelTrimLoadBins, veTableYAxis
zBins = fuelTrims12_table
upDownLabel = "(RICHER)", "(LEANER)"
table = ignTrimTbl1, ignTrimMap1, "Ign trim cyl 1", 1
xBins =ignTrimRpmBins, RPMValue
yBins =ignTrimLoadBins, ignitionLoad
zBins =ignTrims1_table
table = ignTrimTbl2, ignTrimMap2, "Ign trim cyl 2", 1
xBins =ignTrimRpmBins, RPMValue
yBins =ignTrimLoadBins, ignitionLoad
zBins =ignTrims2_table
table = ignTrimTbl3, ignTrimMap3, "Ign trim cyl 3", 1
xBins =ignTrimRpmBins, RPMValue
yBins =ignTrimLoadBins, ignitionLoad
zBins =ignTrims3_table
table = ignTrimTbl4, ignTrimMap4, "Ign trim cyl 4", 1
xBins =ignTrimRpmBins, RPMValue
yBins =ignTrimLoadBins, ignitionLoad
zBins =ignTrims4_table
table = ignTrimTbl5, ignTrimMap5, "Ign trim cyl 5", 1
xBins =ignTrimRpmBins, RPMValue
yBins =ignTrimLoadBins, ignitionLoad
zBins =ignTrims5_table
table = ignTrimTbl6, ignTrimMap6, "Ign trim cyl 6", 1
xBins =ignTrimRpmBins, RPMValue
yBins =ignTrimLoadBins, ignitionLoad
zBins =ignTrims6_table
table = ignTrimTbl7, ignTrimMap7, "Ign trim cyl 7", 1
xBins =ignTrimRpmBins, RPMValue
yBins =ignTrimLoadBins, ignitionLoad
zBins =ignTrims7_table
table = ignTrimTbl8, ignTrimMap8, "Ign trim cyl 8", 1
xBins =ignTrimRpmBins, RPMValue
yBins =ignTrimLoadBins, ignitionLoad
zBins =ignTrims8_table
table = ignTrimTbl9, ignTrimMap9, "Ign trim cyl 9", 1
xBins =ignTrimRpmBins, RPMValue
yBins =ignTrimLoadBins, ignitionLoad
zBins =ignTrims9_table
table = ignTrimTbl10, ignTrimMap10, "Ign trim cyl 10", 1
xBins = ignTrimRpmBins, RPMValue
yBins = ignTrimLoadBins, ignitionLoad
zBins = ignTrims10_table
table = ignTrimTbl11, ignTrimMap11, "Ign trim cyl 11", 1
xBins = ignTrimRpmBins, RPMValue
yBins = ignTrimLoadBins, ignitionLoad
zBins = ignTrims11_table
table = ignTrimTbl12, ignTrimMap12, "Ign trim cyl 12", 1
xBins = ignTrimRpmBins, RPMValue
yBins = ignTrimLoadBins, ignitionLoad
zBins = ignTrims12_table
table = mapEstimateTableTbl, mapEstimateTableMap, "MAP Estimate", 1
xBins = mapEstimateRpmBins, RPMValue
yBins = mapEstimateTpsBins, TPSValue
zBins = mapEstimateTable
table = injPhaseTableTbl, injPhaseTableMap, "Injection Phase", 1
topicHelp = "fuelHelp"
; constant, variable
xBins = injPhaseRpmBins, RPMValue
yBins = injPhaseLoadBins, fuelingLoad
zBins = injectionPhase
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(Later)", "(Sooner)"
table = pedalToTpsTbl, pedalToTpsMap, "ETB Pedal to TPS", 1
; constant, variable
xBins = pedalToTpsRpmBins, RPMValue
yBins = pedalToTpsPedalBins, throttlePedalPosition
zBins = pedalToTpsTable
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(Later)", "(Sooner)"
#if LAMBDA
table = lambdaTableTbl, lambdaTableMap, "Target Lambda Table", 1
#else
table = afrTableTbl, afrTableMap, "Target AFR Table", 1
#endif
; constant, variable
xBins = lambdaRpmBins, RPMValue
yBins = lambdaLoadBins, afrTableYAxis
zBins = lambdaTable
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(RICHER)", "(LEANER)"
table = iacPidMultTbl, iacPidMultMap, "IAC PID Multiplier Table", 1
; constant, variable
xBins = iacPidMultRpmBins, RPMValue
yBins = iacPidMultLoadBins, fuelingLoad
zBins = iacPidMultTable
; gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(Later)", "(Sooner)"
table = gppwm1Tbl, gppwm1Map, "GP#1", 1
xyLabels = "RPM", ""
xBins = gppwm1_rpmBins, RPMValue
yBins = gppwm1_loadBins, gppwm1_load
zBins = gppwm1_table
table = gppwm2Tbl, gppwm2Map, "GP#2", 1
xyLabels = "RPM", ""
xBins = gppwm2_rpmBins, RPMValue
yBins = gppwm2_loadBins, gppwm2_load
zBins = gppwm2_table
table = gppwm3Tbl, gppwm3Map, "GP#3", 1
xyLabels = "RPM", ""
xBins = gppwm3_rpmBins, RPMValue
yBins = gppwm3_loadBins, gppwm3_load
zBins = gppwm3_table
table = gppwm4Tbl, gppwm4Map, "GP#4", 1
xyLabels = "RPM", ""
xBins = gppwm4_rpmBins, RPMValue
yBins = gppwm4_loadBins, gppwm4_load
zBins = gppwm4_table
table = tcuSolenoidTableTbl, tcuSolenoidTableMap, "Solenoids Active By Gear", 1
xBins = solenoidCountArray, tcuCurrentGear
yBins = gearCountArray, tcuCurrentGear
zBins = tcuSolenoidTable