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speeduino/reference/speeduino.ini

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;-------------------------------------------------------------------------------
#unset CAN_COMMANDS
[MegaTune]
MTversion = 2.25 ; MegaTune itself; needs to match exec version.
queryCommand = "Q"
;signature = 20
signature = "speeduino 201609-dev"
versionInfo = "S" ; Put this in the title bar.
;[TunerStudio]
; iniSpecVersion = 3.24
;-------------------------------------------------------------------------------
[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 = boostUnits, "Boost table units"
settingOption = DEFAULT, "kPa"
settingOption = BOOSTPSI, "PSI"
[PcVariables]
; valid types: boolean, double, int, list
;
; no offset as they are local variables.
; entry format the same as Constants, except there is no offset.
; arrays are not yet supported.
; name = class, type, shape, units, scale, translate, lo, hi, digits
; name = type, min, max;
;
; type List: value will be index.
rpmhigh = scalar, U16, "rpm", 1, 0, 0, 30000, 0
rpmwarn = scalar, U16, "rpm", 1, 0, 0, 30000, 0
rpmdang = scalar, U16, "rpm", 1, 0, 0, 30000, 0
[Constants]
;----------------------------------------------------------------------------
; Constants Definition
; --------------------
;
; Scalar Values
; -------------
; The scaling and translation values are used as follows:
; msValue = userValue / scale - translate
; userValue = (msValue + translate) * scale
;
;
; Temperatures are fine, check out the Fielding IAC example (fastIdleT).
;
; Array Values
; ------------
; Arrays are specified just like scalars, except that they have a "shape"
; entry in the fourth parameter. The shape allows you to define lists or
; tables, for example [8] defines a list with eight values and [2x4] defines
; a table with eight values (two rows and four columns). Tables may be
; stored in either "X-" or "Y-order." X-order means that memory is layed
; out like.
;
; [x1,y1] [x2,y1]...[xn,y1] [x1,y2]...
;
; Y-order would be
;
; [x1,y1] [x1,y2]...[x1,yn] [x2,y1]...
;
; To use the TableEditor, you must define two lists and a table, and
; the lengths of the lists must correspond to the shape of the table.
;
; Bit Fields
; ----------
; Bits are numbered 0-7, the rightmost being bit zero. The basic
; data word that stores bit fields must be unsigned.
;
; You need NOT supply the correct number of labels matching the
; number of bits you've specified (one bit requires 2 values, two
; bits requires 4 values and so on). If you neglect to supply enough
; labels, they will be synthesized using the sequence "1", "2" and so
; on based upon their position in the sequence (the cltType and matType
; will end up with identical lists).
;
; If you specify a label as "INVALID" (all upper case), then it will
; not be displayed in the combo box, so you can leave out values that
; make no sense.
;
;----------------------------------------------------------------------------
endianness = little
nPages = 8
burnCommand = "B"
pageSize = 288, 64, 288, 64, 288, 64, 64, 160
pageActivationDelay = 10
pageActivate = "P\001", "P\002", "P\003", "P\004", "P\005", "P\006", "P\007", "P\010"
pageReadCommand = "V", "V", "V", "V", "V", "V", "V", "V"
pageValueWrite = "W%2o%v", "W%o%v", "W%2o%v", "W%o%v", "W%2o%v", "W%o%v", "W%o%v", "W%o%v"
; pageChunkWrite = "" ; No chunk write for standard MS
blockingFactor = 2048
tableBlockingFactor = 2048
delayAfterPortOpen=1000
;validateArrayBounds = true
blockReadTimeout = 2000
;tsWriteBlocks = on
; writeBlocks = on
interWriteDelay = 10
;Page 1 is the fuel map and axis bins only
page = 1
; 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
veTable = array, U08, 0, [16x16],"%", 1.0, 0.0, 0.0, 255.0, 0
rpmBins = array, U08, 256, [ 16], "RPM", 100.0, 0.0, 100.0, 25500.0, 0
#if SPEED_DENSITY
mapBins = array, U08, 272, [ 16], "kPa", 1.0, 0.0, 0.0, 255.0, 0
#elif ALPHA_N
tpsBins = array, U08, 272, [ 16], "TPS", 1.0, 0.0, 0.0, 255.0, 0
#elif AIR_FLOW_METER
#error "Speeduino does not support MAF"
;#exit
#endif
;--------------------------------------------------
;Start Page 2
;Page 2 is all general settings (Previously part of page 1)
;--------------------------------------------------
page = 2
unused2-1 = scalar, U08, 0, "ms", 0.1, 0.0, 0.0, 25.5, 1
unused2-2 = scalar, U08, 1, "ms", 0.1, 0.0, 0.0, 25.5, 1
asePct = scalar, U08, 2, "%", 1.0, 0.0, 0.0, 95.0, 0
aseCount = scalar, U08, 3, "s", 1.0, 0.0, 0.0, 255, 0
wueRates = array, U08, 4, [10], "%", 1.0, 0.0, 0.0, 255, 0
crankingPct= scalar, U08, 14, "%", 1.0, 0.0, 0.0, 255, 0
pinLayout = bits, U08, 15, [0:7], "Speeduino v0.1", "Speeduino v0.2", "Speeduino v0.3", "Speeduino v0.4", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "NA6 MX5 PNP", "Turtana PCB", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "Plazomat I/O 0.1", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "Daz V6 Shield 0.1", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID",
tachoPin = bits, U08, 16, [0:5], "Board Default", "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", "52", "53", "54", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
unused2-16f= bits, U08, 16, [6:7], "One", "Two", "INVALID", "INVALID"
tdePct = scalar, U08, 17, "ms", 0.1, 0.0, 0.0, 25.5, 1
taeColdA = scalar, U08, 18, "ms", 0.1, 0.0, 0.0, 25.5, 1
tpsThresh = scalar, U08, 19, "%/s", 1.0, 0.0, 0.0, 255, 0
taeTime = scalar, U08, 20, "ms", 10, 0.0, 0.0, 2550, 0
; Display (Options for what the display is showing)
display = bits, U08, 21, [0:2], "Unused", "Adafruit 128x32", "Generic 128x32", "Adafruit 128x64", "Generic 128x64", "INVALID", "INVALID", "INVALID"
display1 = bits U08, 21, [3:5], "RPM", "PW", "Advance", "VE", "GammaE", "TPS", "IAT", "CLT"
display2 = bits U08, 21, [6:7], "O2", "Voltage", "CPU", "Mem"
display3 = bits U08, 22, [0:2], "RPM", "PW", "Advance", "VE", "GammaE", "TPS", "IAT", "CLT"
display4 = bits U08, 22, [3:4], "O2", "Voltage", "CPU", "Mem"
display5 = bits U08, 22, [5:7], "RPM", "PW", "Advance", "VE", "GammaE", "TPS", "IAT", "CLT"
displayB1 = bits U08, 23, [0:3], "RPM", "PW", "Advance", "VE", "GammaE", "TPS", "IAT", "CLT"
displayB2 = bits U08, 23, [4:7], "RPM", "PW", "Advance", "VE", "GammaE", "TPS", "IAT", "CLT"
reqFuel = scalar, U08, 24, "ms", 0.1, 0.0, 0.0, 25.5, 1
divider = scalar, U08, 25, "", 1.0, 0.0
;injTiming = bits, U08, 26, [0:1], "Simultaneous", "Semi-Sequential", "Sequential"
alternate = bits, U08, 26, [0:0], "Simultaneous", "Alternating"
multiplyMAP= bits, U08, 26, [1:1], "No", "Yes"
includeAFR = bits, U08, 26, [2:2], "No", "Yes"
injOpen = scalar, U08, 27, "ms", 0.1, 0.0, 0.1, 25.5, 1
inj1Ang = scalar, U16, 28, "deg", 1.0, 0.0, 0.0, 360, 0
inj2Ang = scalar, U16, 30, "deg", 1.0, 0.0, 0.0, 360, 0
inj3Ang = scalar, U16, 32, "deg", 1.0, 0.0, 0.0, 360, 0
inj4Ang = scalar, U16, 34, "deg", 1.0, 0.0, 0.0, 360, 0
; Config1
mapSample = bits, U08, 36, [0:1], "Instantaneous", "Cycle Average", "Cycle Minimum", "INVALID"
twoStroke = bits, U08, 36, [2:2], "Four-stroke", "Two-stroke"
injType = bits, U08, 36, [3:3], "Port", "Throttle Body"
nCylinders = bits, U08, 36, [4:7], "INVALID","1","2","3","4","INVALID","6","INVALID","8","INVALID","INVALID","INVALID","INVALID","INVALID","INVALID","INVALID"
; Config2
cltType = bits, U08, 37, [0:1], "GM", "Unknown1", "Unknown2", "Unknown3"
matType = bits, U08, 37, [2:3], "GM", "Unknown1", "Unknown2", "Unknown3"
nInjectors = bits, U08, 37, [4:7+1]
; Config3
engineType = bits, U08, 38, [0:0], "Even fire", "Odd fire"
flexEnabled= bits, U08, 38, [1:1], "Off", "On"
algorithm = bits, U08, 38, [2:2], "Speed Density", "Alpha-N"
baroCorr = bits, U08, 38, [3:3], "Off", "On"
injLayout = bits, U08, 38, [4:5], "Bank", "Semi-Sequential", "INVALID", "INVALID"
primePulse = scalar, U08, 39, "ms", 0.1, 0.0, 0.0, 25.5, 1
dutyLim = scalar, U08, 40, "%", 1.0, 0.0, 0.0, 100.0, 0
unused41 = scalar, U08, 41, "RPM", 100.0, 0.0, 100, 25500, 0
egoSwitch = scalar, U08, 42, "v", 0.0196, 0.0, 0.0, 5.0, 3
taeColdM = scalar, U08, 43, "%", 1.0, 0.0, 0.0, 250.0, 0
tpsMin = scalar, U08, 44, "ADC", 1.0, 0.0, 0.0, 255.0, 0
tpsMax = scalar, U08, 45, "ADC", 1.0, 0.0, 0.0, 255.0, 0
mapMin = scalar, U08, 46, "kpa", 1.0, 0.0, 0.0, 255.0, 0
mapMax = scalar, U16, 47, "kpa", 1.0, 0.0, 0.0, 25500, 0
fpPrime = scalar, U08, 49, "s", 1.0, 0.0, 0.0, 255.0, 0
stoich = scalar, U08, 50, ":1", 0.1, 0.0, 0.0, 25.5, 1
oddfire2 = scalar, U16, 51, "", 1.0, 0.0, 0.0, 720, 0 ; * ( 2 byte)
oddfire3 = scalar, U16, 53, "", 1.0, 0.0, 0.0, 720, 0 ; * ( 2 byte)
oddfire4 = scalar, U16, 55, "", 1.0, 0.0, 0.0, 720, 0 ; * ( 2 byte)
unused2-57 = scalar, U08, 57, "RPM", 100.0, 0.0, 100, 25500, 0
unused2-58 = scalar, U08, 58, "RPM", 100.0, 0.0, 100, 25500, 0
unused2-59 = scalar, U08, 59, "RPM", 100.0, 0.0, 100, 25500, 0
unused2-60 = scalar, U08, 60, "RPM", 100.0, 0.0, 100, 25500, 0
unused2-61 = scalar, U08, 61, "RPM", 100.0, 0.0, 100, 25500, 0
unused2-62 = scalar, U08, 62, "RPM", 100.0, 0.0, 100, 25500, 0
unused2-63 = scalar, U08, 63, "RPM", 100.0, 0.0, 100, 25500, 0
;--------------------------------------------------
;Start Ignition table (Page 3)
;--------------------------------------------------
page = 3
advTable1 = array, U08, 0,[16x16], "deg", 1.0, 0.0, 0.0, 255.0, 0
rpmBins2 = array, U08, 256,[ 16], "RPM", 100.0, 0.0, 100, 25500, 0
#if SPEED_DENSITY
mapBins2 = array, U08, 272, [ 16], "kPa", 1.0, 0.0, 0.0, 255.0, 0
#elif ALPHA_N
tpsBins2 = array, U08, 272, [ 16], "TPS", 1.0, 0.0, 0.0, 255.0, 0
#elif AIR_FLOW_METER
#error "Speeduino does not support MAF"
#exit
#endif
;--------------------------------------------------
;Start Page 4
;These are primarily ignition related settings (Previously part of page 2)
;--------------------------------------------------
page = 4
TrigAng = scalar, S16, 0, "Deg", 1, 0, -360, 360, 0
FixAng = scalar, U08, 2, "Deg", 1, 0, 0, 80, 0
CrankAng = scalar, U08, 3, "Deg", 1, 0, -10, 80, 0
TrigAngMul = scalar, U08, 4, "", 1, 0, 0, 88, 0 ; Multiplier for tooth counts that don't evenly divide into 360
TrigEdge = bits, U08, 5[0:0], "Leading", "Trailing"
TrigSpeed = bits, U08, 5[1:1], "Crank Speed", "Cam Speed"
IgInv = bits, U08, 5[2:2], "Going Low", "Going High"
oddfire = bits, U08, 5[3:3], "No", "Yes"
TrigPattern= bits, U08, 5[4:7], "Missing Tooth", "Basic Distributor", "Dual Wheel", "GM 7X", "4G63 / Miata", "GM 24X", "Jeep 2000", "Audi 135", "Honda D17", "Miata 99-05", "Mazda AU", "Non-360 Dual", "INVALID", "INVALID", "INVALID", "INVALID"
unused4-6 = scalar, U08, 6, "Deg", 0.352,-28.4, -10, 80, 0
unused4-7 = scalar, U08, 7, "ADC", 1, 0, 0, 255, 0
IdleAdvRPM = scalar, U08, 8, "RPM", 100, 0, 0, 1200, 0
#if CELSIUS
IdleAdvCLT = scalar, U08, 9, "C", 1, -40, -40, 102, 1
#else
IdleAdvCLT = scalar, U08, 9, "F", 1.8, -22.23, -40, 215, 0
#endif
IdleDelayTime = scalar, U08, 10, "sec", 1, 0, 0, 5, 0
StgCycles = scalar, U08, 11, "cycles", 1, 0, 0, 255, 0
; name = array, type, offset, shape, units, scale, translate, lo, hi, digits
; name = scalar, type, offset, units, scale, translate, lo, hi, digits
;Dwell control
;running dwell variable railed to 8 - who needs more than 8ms?
dwellcont = bits, U08, 12, [0:0], "INVALID", "Dwell control"
useDwellLim= bits, U08, 12, [1:1], "Off", "On"
sparkMode = bits, U08, 12, [2:3], "Wasted Spark", "Single Channel", "Wasted COP", "Sequential"
dfcoEnabled= bits, U08, 12, [4:4], "Off", "On"
TrigFilter = bits, U08, 12, [5:6], "Off", "Weak", "Medium", "Aggressive"
ignCranklock=bits, U08, 12, [7:7], "Off", "On"
dwellcrank = scalar, U08, 13, "ms", 0.1, 0, 0, 25, 1
dwellrun = scalar, U08, 14, "ms", 0.1, 0, 0, 8, 1
numteeth = scalar, U08, 15, "teeth", 1.0, 0.0, 0.0, 255, 0
onetwo = scalar, U08, 16, "teeth", 1.0, 0.0, 0.0, 255, 0
crankRPM = scalar, U08, 17, "rpm", 100, 0.0, 100, 1000, 0
tpsflood = scalar, U08, 18, "%", 1.0, 0.0, 0.0, 255.0, 0
;Rev Limits
SoftRevLim = scalar, U08, 19, "rpm", 100, 0.0, 100, 25500, 0
SoftLimRetard = scalar, U08, 20, "deg", 1.0, 0.0, 0.0, 80, 0
SoftLimMax = scalar, U08, 21, "s", 0.1, 0.0, 0.0, 25.5, 1
HardRevLim = scalar, U08, 22, "rpm", 100, 0.0, 100, 25500, 0
;TPS based acceleration enrichment
taeBins = array, U08, 23, [ 4], "%/s", 10.0, 0.0, 0.00, 2550.0, 0
taeRates = array, U08, 27, [ 4], "%", 1.0, 0.0, 0.00, 255.0, 0 ; 4 bytes
;WUE Bins (Needed somewhere to put these
#if CELSIUS
wueBins = array, U08, 31, [10], "C", 1.0, -40, -40, 102.0, 0
#else
wueBins = array, U08, 31, [10], "F", 1.8, -22.23, -40, 215.0, 0
#endif
;Dwell config options
dwellLim = scalar, U08, 41, "ms", 1, 0, 0, 32, 0
dwellRates = array, U08, 42, [6], "%", 1.0, 0.0, 0.00, 255.0, 0
;IAT (Inlet air temp) timing retard
#if CELSIUS
iatRetBins = array, U08, 48, [ 6], "C", 1.0, 0.0, 0.00, 255.0, 0
#else
iatRetBins = array, U08, 48, [ 6], "F", 1.8, 17.77, 0.00, 255.0, 0 ; No -40 degree offset here
#endif
iatRetRates = array, U08, 54, [ 6], "deg", 1.0, 0.0, 0.00, 255.0, 0
;Decelleration Fuel Cut Off (DFCO)
dfcoRPM = scalar, U08, 60, "RPM", 10.0, 0.0, 100, 2550, 0
dfcoHyster = scalar, U08, 61, "RPM", 1.0, 0.0, 100, 255.0, 0
dfcoTPSThresh= scalar, U08, 62, "%", 1.0, 0.0, 0, 100.0, 0
;ranking ignition bypass
ignBypassEnable = bits, U08, 63, [0:0], "Off", "On"
ignBypassPin = bits , U08, 63, [1:6], "INVALID", "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", "52", "53", "54", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
ignBypassHiLo = bits, U08, 63, [7:7], "LOW", "HIGH"
;--------------------------------------------------
;Start AFR page
;--------------------------------------------------
page = 5
afrTable = array, U08, 0,[16x16], "AFR", 0.1, 0.0, 7, 25.5, 1
rpmBinsAFR = array, U08, 256,[ 16], "RPM", 100.0, 0.0, 100, 25500, 0
#if SPEED_DENSITY
mapBinsAFR = array, U08, 272,[ 16], "kPa", 1.0, 0.0, 0.0, 255.0, 0
#elif ALPHA_N
tpsBinsAFR = array, U08, 272,[ 16], "TPS", 1.0, 0.0, 0.0, 255.0, 0
#elif AIR_FLOW_METER
#error "Speeduino does not support MAF"
#exit
#endif
;--------------------------------------------------
;Start page 6
; Page 6 is all settings associated with O2/AFR
;--------------------------------------------------
page = 6
egoAlgorithm= bits , U08, 0, [0:1], "Simple", "INVALID", "PID", "No correction" ; * ( 1 byte)
egoType = bits , U08, 0, [2:3], "Disabled", "Narrow Band", "Wide Band", "INVALID" ; egoOption
boostEnabled= bits, U08, 0, [4:4], "Off", "On"
vvtEnabled = bits, U08, 0, [5:5], "Off", "On"
boostCutType= bits, U08, 0, [6:7], "Off", "Spark Only", "Fuel Only","Both"
egoKP = scalar, U08, 1, "%", 1.0, 0.0, 0.0, 200.0, 0 ; * ( 1 byte)
egoKI = scalar, U08, 2, "%", 1.0, 0.0, 0.0, 200.0, 0 ; * ( 1 byte)
egoKD = scalar, U08, 3, "%", 1.0, 0.0, 0.0, 200.0, 0 ; * ( 1 byte)
#if CELSIUS
egoTemp = scalar, U08, 4, "°C", 1.0, -40, -40, 102.0, 0
#else
egoTemp = scalar, U08, 4, "°F", 1.8, -22.23, -40, 215.0, 0
#endif
egoCount = scalar, U08, 5, "", 4.0, 0.0, 4.0, 255.0, 0 ; * ( 1 byte)
egoDelta = scalar, U08, 6, "%", 1.0, 0.0, 0.0, 255.0, 0 ; * ( 1 byte)
egoLimit = scalar, U08, 7, "", 1, 0, 0, 16, 0
ego_min = scalar, U08, 8, "AFR", 0.1, 0.0, 7, 25, 1
ego_max = scalar, U08, 9, "AFR", 0.1, 0.0, 7, 25, 1
ego_sdelay = scalar, U08, 10, "sec", 1, 0, 0, 120, 0
egoRPM = scalar, U08, 11, "rpm", 100, 0.0, 100, 25500, 0
egoTPSMax = scalar, U08, 12, "%", 1, 0, 0, 120, 0
egoLoadMax = scalar, U08, 13, "%", 1, 0, 0, 120, 0
egoLoadMin = scalar, U08, 14, "%", 1, 0, 0, 120, 0
brvBins = array, U08, 15, [6], "V", 0.1, 0, 6, 24, 1 ; Bins for the battery reference voltage
injBatRates = array, U08, 21, [6], "%", 1, 0, 0, 255, 0 ;Values for injector pulsewidth vs voltage
#if CELSIUS
airDenBins = array, U08, 27, [9], "C", 1.0, -40, -40, 215, 0 ; Bins for the air density correction curve
#else
airDenBins = array, U08, 27, [9], "F", 1.8, -22.23, -40, 215, 0 ; Bins for the air density correction curve
#endif
airDenRates = array, U08, 36, [9], "%", 1.0, 0.0, 0, 255, 0 ; Values for the air density correction curve
; PWM Frequencies
boostFreq = scalar, U08, 45, "Hz", 2.0, 0.0, 10, 511, 0
vvtFreq = scalar, U08, 46, "Hz", 2.0, 0.0, 10, 511, 0
idleFreq = scalar, U08, 47, "Hz", 2.0, 0.0, 10, 511, 0
; Launch Control
launchPin = bits , U08, 48, [0:5], "Board Default", "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", "52", "53", "54", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
launchEnable= bits, U08, 48, [6:6], "No", "Yes"
launchHiLo = bits, U08, 48, [7:7], "LOW", "HIGH"
lnchSoftLim = scalar, U08, 49, "rpm", 100, 0.0, 100, 25500, 0
lnchRetard = scalar, U08, 50, "deg", 1.0, 0.0, 0.0, 80, 0
lnchHardLim = scalar, U08, 51, "rpm", 100, 0.0, 100, 25500, 0
lnchFuelAdd = scalar, U08, 52, "%", 1.0, 0.0, 0.0, 80, 0
idleKP = scalar, U08, 53, "%", 1.0, 0.0, 0.0, 200.0, 0 ; * ( 1 byte)
idleKI = scalar, U08, 54, "%", 1.0, 0.0, 0.0, 200.0, 0 ; * ( 1 byte)
idleKD = scalar, U08, 55, "%", 1.0, 0.0, 0.0, 200.0, 0 ; * ( 1 byte)
boostLimit = scalar, U08, 56, "kPa", 2.0, 0.0, 0, 511, 0
boostKP = scalar, U08, 57, "%", 1.0, 0.0, 0.0, 200.0, 0 ; * ( 1 byte)
boostKI = scalar, U08, 58, "%", 1.0, 0.0, 0.0, 200.0, 0 ; * ( 1 byte)
boostKD = scalar, U08, 59, "%", 1.0, 0.0, 0.0, 200.0, 0 ; * ( 1 byte)
lnchPullRes = bits, U08, 60 [0:1], "Float" , "Pullup", "INVALID", "INVALID"
unused6-60 = bits, U08, 60, [2:7], "ONE", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
unused6-61 = scalar, U08, 61, "RPM", 100.0, 0.0, 100, 25500, 0
unused6-62 = scalar, U08, 62, "RPM", 100.0, 0.0, 100, 25500, 0
unused6-63 = scalar, U08, 63, "RPM", 100.0, 0.0, 100, 25500, 0
;--------------------------------------------------
;Start idle and fan controls (Page 7)
;--------------------------------------------------
page = 7
iacCLValues = array, U08, 0, [10], "RPM", 10.0, 0.0, 0, 2550, 0
iacOLStepVal = array, U08, 10, [10], "Steps", 3, 0, 0, 765, 0
iacOLPWMVal = array, U08, 20, [10], "Duty %", 1.0, 0, 0, 100, 0
#if CELSIUS
iacBins = array, U08, 30, [10], "C", 1.0, -40, -40, 215, 0
#else
iacBins = array, U08, 30, [10], "F", 1.8, -22.23, -40, 215, 0
#endif
iacCrankSteps= array, U08, 40, [4], "Steps", 3, 0, 0, 765, 0
iacCrankDuty = array, U08, 44, [4], "Duty %", 1.0, 0, 0, 100, 0
#if CELSIUS
iacCrankBins = array, U08, 48, [4], "C", 1.0, -40, -40, 215, 0
#else
iacCrankBins = array, U08, 48, [4], "F", 1.8, -22.23, -40, 215, 0
#endif
iacAlgorithm = bits , U08, 52, [0:2], "None", "On/Off", "PWM Open loop", "PWM Closed loop", "Stepper", "INVALID", "INVALID", "INVALID"
iacStepTime = bits , U08, 52, [3:5], "1", "2", "3", "4", "5", "6"
iacChannels = bits, U08, 52, [6:6], "1", "2"
iacPWMdir = bits , U08, 52, [7:7], "Normal", "Reverse"
#if CELSIUS
iacFastTemp = scalar, U08, 53, "C", 1.0, -40, -40, 215, 0
#else
iacFastTemp = scalar, U08, 53, "F", 1.8, -22.23, -40, 215, 0
#endif
iacStepHome = scalar, U08, 54, "Steps", 3, 0, 0, 765, 0
iacStepHyster= scalar, U08, 55, "Steps", 1, 0.0, 0.0, 10, 0
; Begin fan control vairables
fanInv = bits, U08, 56, [0:0], "No", "Yes"
fanEnable = bits, U08, 56, [1:2], "Off", "On/Off", "PWM", "INVALID"
unused7-55b = bits, U08, 56, [3:3], "No", "Yes"
unused7-55c = bits, U08, 56, [4:4], "No", "Yes"
unused7-55d = bits, U08, 56, [5:5], "No", "Yes"
unused7-55e = bits, U08, 56, [6:6], "No", "Yes"
unused7-55f = bits, U08, 56, [7:7], "No", "Yes"
#if CELSIUS
fanSP = scalar, U08, 57, "°C", 1.0, -40, -40, 215.0, 0
fanHyster = scalar, U08, 58, "°C", 1.0, -40, -40, 215.0, 0
#else
fanSP = scalar, U08, 57, "°F", 1.8, -22.23, -40, 215.0, 0
fanHyster = scalar, U08, 58, "°F", 1.8, -22.23, -40, 215.0, 0
#endif
fanFreq = scalar, U08 , 59, "Hz", 2.0, 0.0, 10, 511, 0
#if CELSIUS
fanPWMBins = array, U08, 60, [4], "C", 1.0, -40, -40, 215, 0
#else
fanPWMBins = array, U08, 60, [4], "F", 1.8, -22.23, -40, 215, 0
#endif
;--------------------------------------------------
;Boost and vvt maps (Page 8)
;--------------------------------------------------
page = 8
;notes for boostTable in PSI~~~There are 6.895 psis to a kPa then x 2 like the kPa ver~~~div atmos. pressure in kPa by 2 and make neg so to subtract instead of add
#if BOOSTPSI
boostTable = array, U08, 0,[8x8], "PSI", 0.29007547546041846, -50.6625, 0, 74, 0
; boostTable = array, U08, 0,[8x8], "PSI", 0.14503773773020923, -2.10304719708803, 0, 74, 0 #0.043511 0.02900754754 0.05801509508
#else
boostTable = array, U08, 0,[8x8], "kPa", 2.0, 0.0, 0, 511, 0
#endif
rpmBinsBoost = array, U08, 64,[ 8], "RPM", 100.0, 0.0, 100, 25500, 0
tpsBinsBoost = array, U08, 72,[ 8], "TPS", 1.0, 0.0, 0.0, 255.0, 0
vvtTable = array, U08, 80,[8x8], "%", 1.0, 0.0, 0, 100, 0
rpmBinsVVT = array, U08, 144,[ 8], "RPM", 100.0, 0.0, 100, 25500, 0
tpsBinsVVT = array, U08, 152,[ 8], "TPS", 1.0, 0.0, 0.0, 255.0, 0
;-------------------------------------------------------------------------------
[ConstantsExtensions]
requiresPowerCycle = nCylinders
requiresPowerCycle = pinLayout
requiresPowerCycle = reqFuel
requiresPowerCycle = numteeth
requiresPowerCycle = onetwo
requiresPowerCycle = injOpen
requiresPowerCycle = IgInv
requiresPowerCycle = fanInv
requiresPowerCycle = iacAlgorithm
requiresPowerCycle = boostEnabled
requiresPowerCycle = vvtEnabled
; requiresPowerCycle = vvtChannels
requiresPowerCycle = boostFreq
requiresPowerCycle = vvtFreq
requiresPowerCycle = idleFreq
requiresPowerCycle = sparkMode
requiresPowerCycle = launchPin
requiresPowerCycle = launchEnable
requiresPowerCycle = launchHiLo
requiresPowerCycle = flexEnabled
requiresPowerCycle = oddfire2
requiresPowerCycle = oddfire3
requiresPowerCycle = oddfire4
defaultValue = pinLayout, 1
defaultValue = TrigPattern, 0
defaultValue = sparkMode, 0
defaultValue = inj1Ang, 355
defaultValue = inj2Ang, 355
defaultValue = inj3Ang, 355
defaultValue = inj4Ang, 355
defaultValue = nInjectors, 4
defaultValue = dutyLim, 100
defaultValue = mapMin, 10
defaultValue = mapMax, 260
defaultValue = fpPrime, 3
defaultValue = TrigFilter, 0
defaultValue = ignCranklock, 0
defaultValue = multiplyMAP, 0
defaultValue = includeAFR, 0
defaultValue = stoich, 14.7
defaultValue = flexEnabled, 0
defaultValue = oddfire2, 0
defaultValue = oddfire3, 0
defaultValue = oddfire4, 0
[Menu]
;----------------------------------------------------------------------------
; There are five pre-defined values that may be used to define your menus.
; The first four allow access to the "standard" dialog boxes, the last one
; merely draws a separator (horizontal line) in the menu.
;
; std_constants
; std_enrichments
; std_realtime
; std_warmup
;
; std_separator
;
; If you use any of the std_constants, std_enrichments or std_warmup
; editors, they may be optionally suffixed with a page number (only
; useful for multi-page code variants), which causes them to edit the
; specified page. If you leave off the page specifier, they edit logical
; page one as specified in the Constants section.
;
; There are four special menu names, which when used append to the standard
; menus of the same name instead of creating a new one. The menu names
; are "File", "Communications", "Tools" and "Help".
;
;----------------------------------------------------------------------------
menuDialog = main
menu = "Settings"
;subMenu = std_injection, "&Constants"
subMenu = engine_constants, "Engine Constants"
subMenu = injChars, "Injector Characteristics"
subMenu = triggerSettings, "&Trigger Setup"
;subMenu = OLED, "OLED Setup"
subMenu = airdensity_curve, "IAT Density"
menu = "&Tuning"
subMenu = std_realtime, "&Realtime Display"
subMenu = accelEnrichments, "&Acceleration Enrichment"
subMenu = egoControl, "AFR/O2", 3
subMenu = RevLimiterS, "Rev Limits", 2
subMenu = flexFueling, "Flex Fuel", 2
subMenu = veTableDialog, "&VE Table", 0
subMenu = sparkTbl, "&Spark Table", 2
subMenu = afrTable1Tbl, "A&FR Table", 5
menu = "&Spark"
subMenu = sparkSettings, "&Spark Settings"
subMenu = sparkTbl, "Spark Table", 2
;subMenu = IdleAdvance, "Idle Advance settings",
;subMenu = Knock, "Kn&ock System"
subMenu = dwellSettings, "Dwell settings"
subMenu = dwell_correction_curve, "Dwell Compensation"
subMenu = iat_retard_curve, "&IAT Retard"
;subMenu = wheelsim, "Stim for wheel"
;subMenu = oddwheel, "Oddfire Wheel settings", 7, { wheelon && oddfire }
menu = "&Starting/Idle"
subMenu = crankPW, "Cranking Settings"
subMenu = warmup, "Warmup Enrichment"
subMenu = std_separator
subMenu = idleSettings, "Idle Control"
subMenu = iacClosedLoop_curve, "Idle - Closed loop targets", 7, { iacAlgorithm == 3 }
subMenu = iacPwm_curve, "Idle - PWM Duty Cycle", 7, { iacAlgorithm == 2 }
subMenu = iacPwmCrank_curve, "Idle - PWM Cranking Duty Cycle", 7, { iacAlgorithm == 2 }
subMenu = iacStep_curve, "Idle - Stepper Motor", 7, { iacAlgorithm == 4 || iacAlgorithm == 5 }
subMenu = iacStepCrank_curve, "Idle - Stepper Motor Cranking", 7, { iacAlgorithm == 4 || iacAlgorithm == 5 }
menu = "&Accessories"
subMenu = fanSettings, "Thermo Fan"
subMenu = LaunchControl, "Launch Control"
subMenu = std_separator
subMenu = boostSettings, "Boost Control"
subMenu = boostTbl, "Boost target", 8, { boostEnabled }
subMenu = std_separator
subMenu = vvtSettings, "VVT Control"
subMenu = vvtTbl, "VVT duty cycle", 8, { vvtEnabled }
subMenu = std_separator
subMenu = tacho, "Tacho Output"
menuDialog = main
menu = "T&ools"
subMenu = mapCal, "Calibrate MAP"
;subMenu = battcalib, "Calibrate Battery Voltage"
;subMenu = std_separator ;----------------------------------------------
;subMenu = flash_unlock, "Un/Lock calibrations"
subMenu = std_ms2gentherm, "Calibrate T&hermistor Tables", 0 ;, {flashlock}
subMenu = std_ms2geno2, "Calibrate &AFR Table", 0;, {flashlock}
menuDialog = main
menu = "3D &Tuning Maps"
subMenu = veTable1Map, "Fuel Table"
subMenu = sparkMap, "Spark Table", 3
subMenu = afrTable1Map, "AFR Target Table"
menu = "Help"
subMenu = helpGeneral, "Speeduino Help"
;-------------------------------------------------------------------------------
[SettingContextHelp]
; constantName = "Help Text"
; tool tips tooltips
;Ensure all settings are defined as some MS2/BG words shipped with TS are not applicable.
nCylinders = "The number of cylinders in your engine."
engineType = "Most engines are Even Fire. Typical odd-fire engines are V-twin, some V4, Vmax, some V6, V10."
twoStroke = "Four-Stroke (most engines), Two-stroke."
nInjectors = "Number of primary injectors."
mapSample = "The method used for calculating the MAP reading\nFor 1-2 Cylinder engines, Cycle Minimum is recommended.\nFor more than 2 cylinders Cycle Average is recommended"
stoich = "The stoichiometric ration of the fuel being used. For flex fuel, choose the primary fuel"
TrigPattern = "The type of input trigger decoder to be used."
numteeth = "Number of teeth on Primary Wheel."
TrigSpeed = "Primary trigger speed."
onetwo = "Number of Missing teeth on Primary Wheel."
TrigAng = "The Angle ATDC when tooth No:1 on the primary wheel passes the primary sensor."
TrigAngMul = "A multiplier used by non-360 degree tooth wheels (i.e. Wheels where the tooth count doesn't divide evenly into 360. Usage: (360 * <multiplier>) / tooth_count = Whole number
StgCycles = "The number of revolutions that will be skipped during cranking before the injectors and coils are fired."
TrigEdge = "The Trigger edge of the primary sensor.\nLeading.\nTrailing."
TrigFilter = "Tuning of the trigger filter algorithm. The more aggressive the setting, the more noise will be removed, however this increases the chance of some true readings being filtered out (False positive). Medium is safe for most setups. Only select 'Aggressive' if no other options are working"
sparkMode = "Wasted Spark: Ignition outputs are on the channels <= half the number of cylinders. Eg 4 cylinder outputs on IGN1 and IGN2.\nSingle Channel: All ignition pulses are output on IGN1.\nWasted COP: Ignition pulses are output on all ignition channels up to the number of cylinders. Eg 4 cylinder outputs on all ignition channels. No valid for >4 cylinders"
IgInv = "Whether the spark fires when the ignition sign goes high or goes low. Most ignition systems 'Going Low' but please verify this as damage to coils can result from the incorrect selection"
taeTime = "The duration of the acceleration enrichment"
iacChannels = "The number of output channels used for PWM valves. Select 1 for 2-wire valves or 2 for 3-wire valves."
iacStepTime = "Time between each stepper motor step.\nIncrease this if the motor appears to behave intermittently."
iacStepHome = "On startup the stepper motor moves this many steps to return to its home position. Set this value to a few more than the actual number to ensure the motor has returned to its full position."
iacStepHyster = "The minimum number of steps to move in any one go."
oddfire2 = "The ATDC angle of channel 2 for oddfire engines. This is relative to the TDC angle of channel 1"
oddfire3 = "The ATDC angle of channel 3 for oddfire engines. This is relative to the TDC angle of channel 1 (NOT channel 2)"
oddfire4 = "The ATDC angle of channel 4 for oddfire engines. This is relative to the TDC angle of channel 1 (NOT channel 3)"
iacAlgorithm = "Selects method of idle control.\nNone = no idle control valve.\nOn/Off valve.\nPWM valve (2,3 wire).\nStepper Valve (4,6,8 wire)."
iacPWMdir = "Normal PWM valves increase RPM with higher duty. If RPM decreases with higher duty then select Reverse"
dfcoRPM = "The RPM above which DFCO will be active. Typically set a few hundred RPM above maximum idle speed"
dfcoHyster = "Hysteresis for DFCO RPM. 200-300 RPM is typical for this, however a higher value may be needed if the RPM is fluctuating around the cutout speed"
dfcoTPSThresh= "The TPS value below which DFCO will be active. Typical value is 5%-10%, but higher may be needed if TPS signal is noisy"
launchPin = "The ARDUINO pin that the clutch switch is connected to. This is NOT the pin on the connector, but the pin it relates to on the arduino"
ignBypassPin = "The ARDUINO pin that the ignition bypass is connected to. This is NOT the pin on the connector, but the pin it relates to on the arduino"
ignBypassEnable = "If turned on, a ground signal will be output during cranking on the specified pin. This is used to bypass the Speeduino ignition control during cranking."
ignCranklock = "On certain low resolution ignition patterns, the cranking timing can be locked to occur when a pulse is recieved."
multiplyMAP = "If enabled, the MAP reading is included directly into the pulsewidth calculation. This results in a flatter VE table that can be easier to tune in some instances. VE table must be retuned when this value is changed."
includeAFR = "When enabled, the current AFR reading is incorporated directly in the pulsewidth calculation as a percentage of the current target ratio. VE table must be retuned when this value is changed. "
[UserDefined]
; Enhanced TunerStudio dialogs can be defined here
; MegaTune will over look this section
; These dialogs will over-ride those in the UserDefined Section
; User defined ar loaded first, then if one by the same name is defiend here,
; it will replace the MegaTune definition
; dialog = name, Title, Layout
;
; valid options for layout are xAxis, yAxis, border
; for an xAxis, each field added will be added from right to left
; A yAxis layout will add fields from top to bottom
; A border layout will expect an additional constraint to determine placement
; valid border constraints are north, South, East, West, Center
; all 5 do not need to be filled.
; The field name can be either a constant reference, or a reference to another
; dialog which will be added.
; dialogs can be nested and can be mixed with fields
dialog = engine_constants_southwest, "Speeduino Board"
topicHelp = Mhelp
field = "Stoichiometric ratio", stoich
field = "Injector Layout", injLayout, { nCylinders <= 4 }
field = "Board Layout", pinLayout
field = "MAP Sample method", mapSample
dialog = engine_constants_west, ""
panel = std_injection, North
panel = engine_constants_southwest
dialog = engine_constants_northeast, "Oddfire Angles"
field = "Channel 2 angle", oddfire2, { engineType == 1 }
field = "Channel 3 angle", oddfire3, { engineType == 1 && nCylinders >= 3 }
field = "Channel 4 angle", oddfire4, { engineType == 1 && nCylinders >= 4 }
dialog = engine_constants_east, ""
panel = engine_constants_northeast, North
field = "", South
dialog = engine_constants, "", border
panel = engine_constants_west, West
panel = engine_constants_east, East
dialog = flexFueling, "Flex Fuel"
field = "Flex sensor", flexEnabled
dialog = tacho, "Tacho"
field = "Output pin", tachoPin
dialog = accelEnrichments_center, ""
field = "TPSdot Threshold", tpsThresh
field = "Accel Time", taeTime
; field = "Cold Accel Enrichment", taeColdA
; field = "Cold Accel Mult", taeColdM
;field = "Decel Fuel Amount", tdePct
dialog = accelEnrichments_south, "Decelleration Fuel Cutoff (DFCO)"
field = "Enabled", dfcoEnabled
field = "TPS Threshold", dfcoTPSThresh, { dfcoEnabled }
field = "Cutoff RPM", dfcoRPM, { dfcoEnabled }
field = "RPM Hysteresis", dfcoHyster, { dfcoEnabled }
dialog = accelEnrichments_north_south, ""
liveGraph = pump_ae_Graph, "AE Graph"
graphLine = afr
graphLine = TPSdot, "%", -2000, 2000, auto, auto
dialog = accelEnrichments_north, "", xAxis
panel = time_accel_tpsdot_curve
;panel = time_accel_tpsdot_tbl
dialog = accelEnrichments, "Acceleration Enrichment"
panel = accelEnrichments_north, North
panel = accelEnrichments_north_south, Center
panel = accelEnrichments_center, Center
panel = accelEnrichments_south, South
dialog = veTableDialog_north, ""
panel = veTable1Tbl
dialog = veTableDialog_south, ""
field = "Multiply VE value by MAP", multiplyMAP
field = "Include AFR directly", includeAFR, { egoType == 2 }
dialog = veTableDialog, "VE Table"
panel = veTableDialog_north, North
panel = veTableDialog_south, South
dialog = injChars, "Injector Characteristics"
field = "Injector Open Time", injOpen
field = "Injector close angle"
field = "Channel 1", inj1Ang
field = "Channel 2", inj2Ang, { nCylinders > 1 }
field = "Channel 3", inj3Ang, { nCylinders > 4 || nCylinders == 3 }
field = "Channel 4", inj4Ang, { nCylinders > 6 }
field = "Injector Duty Limit", dutyLim
panel = injector_voltage_curve
dialog = egoControl, ""
field = "Sensor Type", egoType
field = "Algorithm", egoAlgorithm, { egoType }
field = "Ignition Events per Step", egoCount, { egoType && (egoAlgorithm < 3) }
field = "Controller Step Size", egoDelta, { egoType && (egoAlgorithm == 0) }
field = "Controller Auth +/-", egoLimit, { egoType && (egoAlgorithm < 3) }
field = "Only correct above:", ego_min, { egoType && (egoAlgorithm < 3) }
field = "and correct below:", ego_max, { egoType && (egoAlgorithm < 3) }
field = "Active Above Coolant", egoTemp, { egoType && (egoAlgorithm < 3) }
field = "Active Above RPM", egoRPM, { egoType && (egoAlgorithm < 3) }
field = "Active Below TPS", egoTPSMax, { egoType && (egoAlgorithm < 3) }
field = "Active Below Load", egoLoadMax, { egoType && (egoAlgorithm < 3) }
field = "Active Above Load", egoLoadMin, { egoType && (egoAlgorithm < 3) }
field = "EGO delay after start", ego_sdelay, { (egoAlgorithm < 3) }
field = "PID Proportional Gain", egoKP, { egoType && (egoAlgorithm == 2) }
field = "PID Integral", egoKI, { egoType && (egoAlgorithm == 2) }
field = "PID Derivative", egoKD, { egoType && (egoAlgorithm == 2) }
dialog = fanSettings,"Fan Settings",7
field = "Fan Mode", fanEnable
field = "Fan Output Inverted (see F1)", fanInv
field = "Fan temperature SP", fanSP
field = "Fan hysteresis", fanHyster
dialog = stepper_idle, "Stepper Idle"
field = "Step time (ms)", iacStepTime, { iacAlgorithm == 4 || iacAlgorithm == 5 }
field = "Home steps", iacStepHome, { iacAlgorithm == 4 || iacAlgorithm == 5 }
field = "Minimum Steps", iacStepHyster, { iacAlgorithm == 4 || iacAlgorithm == 5 }
dialog = pwm_idle, "PWM Idle"
field = "Number of outputs", iacChannels, { iacAlgorithm == 2 || iacAlgorithm == 3 }
field = "Idle valve frequency", idleFreq, { iacAlgorithm == 2 || iacAlgorithm == 3 }
field = "Idle valve direction", iacPWMdir, { iacAlgorithm == 2 || iacAlgorithm == 3 }
dialog = closedloop_idle, "Closed loop Idle"
field = "P", idleKP, { iacAlgorithm == 3 }
field = "I", idleKI, { iacAlgorithm == 3 }
field = "D", idleKD, { iacAlgorithm == 3 }
dialog = idleSettings, "Idle Settings"
topicHelp = "http://speeduino.com/wiki/index.php/Idle"
field = "Idle control type", iacAlgorithm
field = "#Fast Idle"
field = "Fast idle temp", iacFastTemp, { iacAlgorithm == 1 }
panel = pwm_idle
panel = stepper_idle
panel = closedloop_idle
dialog = crankPW, "Cranking Pulsewidths (ms)"
field = "Cranking RPM (Max)", crankRPM
field = "Flood Clear level", tpsflood
field = ""
field = "Fuel pump prime duration", fpPrime
field = "Priming Pulsewidth", primePulse
field = ""
field = "Cranking Enrichment %", crankingPct
field = ""
field = "Cranking bypass", ignBypassEnable
field = "Bypass output pin", ignBypassPin { ignBypassEnable }
field = "Fix cranking timing with trigger", ignCranklock, { TrigPattern == 1 || TrigPattern == 4 || TrigPattern == 10}
dialog = aseSettings, "Afterstart Enrichment"
field = "Enrichment %", asePct
field = "Number of Sec to run", aseCount
dialog = triggerSettings,"Trigger Settings",4
topicHelp = "http://speeduino.com/wiki/index.php/Decoders"
field = "Trigger Pattern", TrigPattern
field = "Primary base teeth", numteeth, { TrigPattern == 0 || TrigPattern == 2 || TrigPattern == 11 }
field = "Primary trigger speed", TrigSpeed, { TrigPattern == 0 }
field = "Missing teeth", onetwo, { TrigPattern == 0 }
field = "Secondary teeth", onetwo, { TrigPattern == 2 }
field = "Trigger angle multiplier", TrigAngMul, { TrigPattern == 11 }
field = "Trigger Angle ", TrigAng
field = "This number represents the angle ATDC when "
field = "tooth #1 passes the primary sensor."
field = ""
field = "Skip Revolutions", StgCycles
field = "Note: This is the number of revolutions that will be skipped during"
field = "cranking before the injectors and coils are fired"
field = "Trigger edge", TrigEdge
field = "Trigger Filter", TrigFilter
dialog = sparkSettings,"Spark Settings",4
field = "Spark output mode", sparkMode
field = "Cranking advance Angle", CrankAng
;field = "Hold Ignition", IgHold
field = "Spark Outputs triggers", IgInv
field = ""
field = "Fixed Angle (0 = use map)", FixAng
;field = "Trim Angle", Trim
dialog = dwellSettings, "Dwell Settings", 4
topicHelp = DwellHelp
;field = "Dwell control", dwellcont
;field = "Or:"
field = " Cranking dwell", dwellcrank
field = " Running dwell", dwellrun
;field = "Minimum discharge period", mindischg, { dwellcont }
field = ""
field = "#Note"
field = "The above times are for 12V. Voltage correction"
field = "is applied. At higher voltages the time is reduced"
field = "and when low it is increased"
field = ""
field = "Overdwell protection"
field = "Use Overdwell protection", useDwellLim
field = "Max dwell time", dwellLim, { useDwellLim }
field = "Note: Set the maximum dwell time at least 3ms above"
field = "your desired dwell time (Including cranking)"
dialog = RevLimiterS, "Rev Limiter", 4
topicHelp = Fhelp7
field = "Rev Limiter"
field = "Soft rev limit", SoftRevLim
field = "Soft limit absolute timing", SoftLimRetard
field = "Soft limit max time", SoftLimMax
field = "Hard Rev limit", HardRevLim
dialog = LaunchControl, "Launch Control", 6
topicHelp = Fhelp7
field = "Launch Control"
field = "Enable Launch", launchEnable
field = "Launch Input Pin", launchPin, { launchEnable }
field = "Launch enabled when signal is",launchHiLo, { launchEnable }
field = "Launch Pullup Resistor", lnchPullRes, { launchEnable }
field = "Soft rev limit", lnchSoftLim, { launchEnable }
field = "Soft limit absolute timing", lnchRetard, { launchEnable }
field = "Hard rev limit", lnchHardLim, { launchEnable }
field = "Fuel adder during launch", lnchFuelAdd, { launchEnable }
dialog = OLED, "OLED Display", 2
field = "Display Type", display
field = "#Note"
field = "ECU must be rebooted after changing above value"
field = "Field 1", display1, { display }
field = "Field 2", display2, { display }
field = "Field 3", display3, { display }
field = "Field 4", display4, { display }
;field = "Bar 1", displayB1, { display }
;field = "Bar 2", displayB2, { display > 2 }
dialog = mapCal, "Calibrate MAP"
field = "#MAP Sensor"
settingSelector = "Common MAP Sensors"
settingOption = "MPX4115", mapMin=10, mapMax=122
settingOption = "MPX4250", mapMin=10, mapMax=260
settingOption = "GM 1-BAR", mapMin=10, mapMax=105
settingOption = "GM 2-BAR", mapMin=9, mapMax=208
settingOption = "GM 3-BAR / MPXH6300", mapMin=1, mapMax=315
settingOption = "MPXH5700", mapMin=0, mapMax=700
settingOption = "MPXH6400", mapMin=3, mapMax=416
settingOption = "Denso 079800", mapMin=0, mapMax=173 ; http://speeduino.com/forum/viewtopic.php?f=18&t=510&p=7023#p7021
dialog = boostSettings, "Boost Control"
field = "Boost Control Enabled", boostEnabled
field = "Boost solenoid freq.", boostFreq
field = "Boost Cut", boostCutType
field = "Boost Limit", boostLimit, { boostCutType }
field = "Closed Loop settings"
field = "P", boostKP
field = "I", boostKI
field = "D", boostKD
dialog = vvtSettings, "VVT Control"
field = "VVT Control Enabled", vvtEnabled
field = "VVT solenoid freq.", vvtFreq
dialog = wc_note
field = "For 99% of engines, warmup must have 100% in the final row. Typical maximum is 255% (cold)."
dialog = warmup, "Warmup Enrichment (WUE) - Percent Multiplier"
panel = warmup_curve
panel = wc_note
field = ""
panel = aseSettings
;-------------------------------------------------------------------------------
; General help text
help = helpGeneral, "Speeduino General Help"
webHelp = "http://speeduino.com/wiki/index.php/Speeduino"
text = "For current WIKI documentation, click the Web Help button,"
text = "or visit http://www.speeduino.com/."
text = "<br>"
text = "<br>why not visit our forum http://speeduino.com/forum/"
;------------------------------------------------------------------------------
; -------------------------------------------------------------
; Help down here
[SettingContextHelp]
[CurveEditor]
;time-based accel enrichment
curve = time_accel_tpsdot_curve, "TPS based AE"
columnLabel = "TPSdot", "Added"
xAxis = 0, 1200, 6
yAxis = 0, 48, 4
xBins = taeBins, TPSdot
yBins = taeRates
;gauge = cltGauge
; Correction curve for dwell vs battery voltage
curve = dwell_correction_curve, "Dwell voltage correction"
columnLabel = "Voltage", "Dwell"
xAxis = 6, 22, 6
yAxis = 0, 255, 6
xBins = brvBins, batteryVoltage
yBins = dwellRates
; Correction curve for injectors vs battery voltage
curve = injector_voltage_curve, "Injector voltage correction"
columnLabel = "Voltage", "Injector"
xAxis = 6, 22, 6
yAxis = 0, 255, 6
xBins = brvBins, batteryVoltage
yBins = injBatRates
; Correction curve for Air Density vs temperature
curve = airdensity_curve, "IAT density correction"
columnLabel = "Air Temperature", "Fuel Amount"
xAxis = -40, 160, 6
yAxis = 0, 255, 6
xBins = airDenBins, iat
yBins = airDenRates
; IAT based ignition timing retard
curve = iat_retard_curve, "IAT timing retard"
columnLabel = "Inlet Air Temp", "Retard"
xAxis = -40, 200, 5
yAxis = 0, 30, 5
xBins = iatRetBins, iat
yBins = iatRetRates
; Curves for idle control
; Standard duty table for PWM valves
curve = iacPwm_curve, "IAC PWM Duty"
columnLabel = "Coolant Temperature", "Valve"
#if CELSIUS
xAxis = -40, 215, 6
#else
xAxis = -40, 315, 6
#endif
yAxis = 0, 100, 4
xBins = iacBins, coolant
yBins = iacOLPWMVal
; Cranking duty table for PWM valves
curve = iacPwmCrank_curve, "IAC PWM Cranking Duty"
columnLabel = "Coolant Temperature", "Valve"
xAxis = -40, 215, 6
yAxis = 0, 100, 4
xBins = iacCrankBins, coolant
yBins = iacCrankDuty
curve = iacStep_curve, "IAC Stepper Motor"
columnLabel = "Coolant Temperature", "Motor"
#if CELSIUS
xAxis = -40, 215, 6
#else
xAxis = -40, 315, 6
#endif
yAxis = 0, 850, 4
xBins = iacBins, coolant
yBins = iacOLStepVal
curve = iacStepCrank_curve, "IAC Stepper Motor Cranking"
columnLabel = "Coolant Temperature", "Motor"
xAxis = -40, 120, 6
yAxis = 0, 850, 4
xBins = iacCrankBins, coolant
yBins = iacCrankSteps
curve = iacClosedLoop_curve, "IAC Closed Loop Targets"
columnLabel = "Coolant Temperature", "Motor"
xAxis = -40, 120, 6
yAxis = 0, 2000, 4
xBins = iacBins, coolant
yBins = iacCLValues
; Warmup enrichment curve
curve = warmup_curve, "Warmup Enrichment (WUE) Curve"
;topicHelp = "file://$getProjectsDirPath()/docs/Megasquirt3_TunerStudio_MS_Lite_Reference-1.3.pdf#wue"
columnLabel = "Coolant", "WUE %"
xAxis = -40, 210, 9
yAxis = 0, 240, 6
xBins = wueBins, coolant
yBins = wueRates
gauge = cltGauge
[TableEditor]
; table_id, map3d_id, "title", page
table = veTable1Tbl, veTable1Map, "VE Table", 1
topicHelp = "http://speeduino.com/wiki/index.php/Tuning"
; constant, variable
xBins = rpmBins, rpm
#if SPEED_DENSITY
yBins = mapBins, map
#else
yBins = tpsBins, throttle
#endif
zBins = veTable
gridHeight = 2.0
gridOrient = 250, 0, 340 ; Space 123 rotation of grid in degrees.
upDownLabel = "(RICHER)", "(LEANER)"
table = sparkTbl, sparkMap, "Ignition Advance Table", 3
xBins = rpmBins2, rpm
#if SPEED_DENSITY
yBins = mapBins2, map
#else ALPHA_N
yBins = tpsBins2, throttle
#endif
zBins = advTable1
gridHeight = 3.0
upDownLabel = "ADVANCED", "RETARDED"
;table = afrTbl, afrTableMap, "AFR Table", 5
table = afrTable1Tbl, afrTable1Map, "AFR Table", 5
xBins = rpmBinsAFR, rpm
#if SPEED_DENSITY
yBins = mapBinsAFR, map
#else ALPHA_N
yBins = tpsBinsAFR, throttle
#endif
zBins = afrTable
gridHeight = 1.0
upDownLabel = "RICHER", "LEANER"
gridOrient = 250, 0, 340
#if BOOSTPSI
table = boostTbl, boostMap, "Boost targets (PSI)", 8
#else
table = boostTbl, boostMap, "Boost targets (Absolute kPa)", 8
#endif
xBins = rpmBinsBoost, rpm
yBins = tpsBinsBoost, throttle
zBins = boostTable
gridHeight = 3.0
upDownLabel = "HIGHER", "LOWER"
table = vvtTbl, vvtMap, "VVT control Table", 8
xBins = rpmBinsVVT, rpm
yBins = tpsBinsVVT, throttle
zBins = vvtTable
gridHeight = 3.0
upDownLabel = "HIGHER", "LOWER"
;-------------------------------------------------------------------------------
[GaugeConfigurations]
;-------------------------------------------------------------------------------
; Notes on some of the gauges.
;
; The accelEnrichGauge is now a composite of both acceleration enrichment
; and deceleration enleanment numbers. See the definition of the variable
; accDecEnrich in the OutputChannels section.
;
;-------------------------------------------------------------------------------
; Define a gauge's characteristics here, then go to a specific layout
; block (Tuning or FrontPage) and use the name you've defined here to
; display that gauge in a particular position.
;
; Name = Case-sensitive, user-defined name for this gauge configuration.
; Var = Case-sensitive name of variable to be displayed, see the
; OutputChannels block in this file for possible values.
; Title = Title displayed at the top of the gauge.
; Units = Units displayed below value on gauge.
; Lo = Lower scale limit of gauge.
; Hi = Upper scale limit of gauge.
; LoD = Lower limit at which danger color is used for gauge background.
; LoW = Lower limit at which warning color is used.
; HiW = Upper limit at which warning color is used.
; HiD = Upper limit at which danger color is used.
; vd = Decimal places in displayed value
; ld = Label decimal places for display of Lo and Hi, above.
;Name Var Title Units Lo Hi LoD LoW HiW HiD vd ld
; baroADCGauge = baroADC, "Barometer ADC", "", 0, 255, -1, -1, 256, 256, 0, 0
; mapADCGauge = mapADC, "MAP ADC", "", 0, 255, -1, -1, 256, 256, 0, 0
#matADCGauge = matADC, "MAT ADC", "", 0, 255, -1, -1, 256, 256, 0, 0
#cltADCGauge = cltADC, "CLT ADC", "", 0, 255, -1, -1, 256, 256, 0, 0
tpsADCGauge = tpsADC, "TPS ADC", "", 0, 255, -1, -1, 256, 256, 0, 0
#batVoltGauge = batteryVoltage, "BAT V", "", 0, 255, -1, -1, 256, 256, 0, 0
accelEnrichGauge = accelEnrich, "Accel Enrich", "%", 50, 150, -1, -1, 999, 999, 0, 0
afrGauge = afr, "Air:Fuel Ratio", "", 7, 25, 12, 13, 15, 16, 2, 2
afrGauge2 = afr2, "Air:Fuel Ratio 2", "", 7, 25, 12, 13, 15, 16, 2, 2
lambdaGauge = lambda, "Lambda", "", 0.5, 1.5, 0.5, 0.7, 2, 1.1, 2, 2
dutyCycleGauge = dutyCycle, "Duty Cycle", "%", 0, 100, -1, -1, 70, 80, 1, 1
egoCorrGauge = egoCorrection, "EGO Correction", "%", 50, 150, 90, 99, 101, 110, 0, 0
gammaEnrichGauge = gammaEnrich, "Gamma Enrichment", "%", 50, 150, -1, -1, 151, 151, 0, 0
pulseWidthGauge = pulseWidth, "Pulse Width", "mSec", 0, 25.5, 1.0, 1.2, 20, 25, 1, 1
tachometer = rpm, "Engine Speed", "RPM", 0, 8000, 300, 600, 3000, 5000, 0, 0
throttleGauge = throttle, "Throttle Position", "%TPS", 0, 100, -1, 1, 90, 100, 0, 0
tpsGauge = tps, "Throttle Position2", "%TPS", 0, 100, -1, 1, 90, 100, 0, 0
veBucketGauge = veTuneValue, "VE Value", "%", 0, 120, -1, -1, 999, 999, 0, 0
veGauge = veCurr, "VE Current", "%", 0, 120, -1, -1, 999, 999, 0, 0
voltMeter = batteryVoltage,"Battery Voltage", "volts", 0, 25, 8, 9, 15, 16, 2, 2
warmupEnrichGauge = warmupEnrich, "Warmup Enrichment", "%", 100, 200, 130, 140, 140, 150, 0, 0
gaugeCategory = "Sensor inputs"
mapGauge = map, "Engine MAP", "kPa", 0, 255, 0, 20, 200, 245, 0, 0
#if CELSIUS
cltGauge = coolant, "Coolant Temp", "TEMP", -40, 215, -15, 0, 95, 105, 0, 0
iatGauge = iat, "Inlet Air Temp", "TEMP", -40, 215, -15, 0, 95, 100, 0, 0
#else
cltGauge = coolant, "Coolant Temp", "TEMP", -40, 215, 0, 30, 200, 220, 0, 0
iatGauge = iat, "Inlet Air Temp", "TEMP", -40, 215, 0, 30, 200, 210, 0, 0
#endif
advanceGauge = advance, "Spark Advance", "deg BTDC", 50, -10, 0, 0, 35, 45, 0,
gaugeCategory = "Other"
clockGauge = secl, "Clock", "Seconds", 0, 255, 10, 10, 245, 245, 0, 0
deadGauge = deadValue, "---", "", 0, 1, -1, -1, 2, 2, 0, 0
loopGauge = loopsPerSecond,"Main loop speed", "Loops/S" , 0, 20000, -1, 500,1800, 4000, 0, 0
memoryGauge = freeRAM, "Free memory", "bytes" , 0, 8000, -1, 1000,8000, 1000, 0, 0
;-------------------------------------------------------------------------------
[FrontPage]
; Gauges are numbered left to right, top to bottom.
;
; 1 2 3 4
; 5 6 7 8
gauge1 = tachometer
#if SPEED_DENSITY
gauge2 = throttleGauge
#else
gauge2 = tpsGauge
#endif
gauge3 = pulseWidthGauge
gauge4 = dutyCycleGauge
gauge5 = mapGauge
gauge6 = iatGauge
gauge7 = cltGauge
gauge8 = gammaEnrichGauge
;----------------------------------------------------------------------------
; Indicators
; expr off-label on-label, off-bg, off-fg, on-bg, on-fg
indicator = { ready }, "Not Ready", "Ready", white, black, green, black
indicator = { crank }, "Not Cranking", "Cranking", white, black, green, black
indicator = { startw }, "ASE OFF", "ASE", white, black, green, black
indicator = { warmup }, "WUE OFF", "WUE", white, black, green, black
indicator = { tpsaccaen }, "Accel", "Accel", white, black, green, black
indicator = { tpsaccden }, "Decel", "Decel", white, black, green, black
indicator = { mapaccaen }, "MAP Accel", "MAP Accel", white, black, green, black
indicator = { mapaccden }, "MAP Decel", "MAP Decel", white, black, green, black
indicator = { error }, "No Errors", "ERROR", white, black, green, black
indicator = { (tps > tpsflood) && (rpm < crankRPM) }, "FLOOD OFF", "FLOOD CLEAR", white, black, red, black
indicator = { DFCOOn }, "DFCO OFF", "DFCO On", white, black, red, black
indicator = { launchHard }, "Launch Hard", "Launch Hard", white, black, green, black
indicator = { launchSoft }, "Launch Soft", "Launch Soft", white, black, green, black
indicator = { softlimitOn }, "Soft Limit OFF","Soft Limiter", white, black, red, black
indicator = { hardLimitOn }, "Hard Limit OFF","Hard Limiter", white, black, red, black
indicator = { boostCutOut }, "Boost Cut OFF", "Boost Cut", white, black, red, black
indicator = { sync }, "No Sync", "Sync", white, black, green, black
;-------------------------------------------------------------------------------
[RunTime]
barHysteresis = 2.5 ; Seconds
#if CELSIUS
coolantBar = -40, 215
matBar = -40, 215
#else
coolantBar = -40, 215
matBar = -40, 215
#endif
batteryBar = 6, 15
dutyCycleBar = 0, 100
gammaEBar = 0, 200
mapBar = 0, 255
pulseWidthBar = 0, 25.5
rpmBar = 0, 8000
throttleBar = 0, 100
egoCorrBar = 0, 200
baroCorrBar = 0, 200
warmupCorrBar = 0, 200
airdenCorrBar = 0, 200
veCorrBar = 0, 200
accCorrBar = 0, 100
;-------------------------------------------------------------------------------
[Tuning]
font = "Courier", 14
spotDepth = 2 ; 0 = no indicators, 1 = Z only, 2 = XYZ indicators.
cursorDepth = 2 ; Same as spot depth.
; The four radio buttons on the tuning screen select a "page" of six
; gauges. The gauge numbering is the same as the front page, across
; then down.
; 1 2
; 3 4
; 5 6
;
; gaugeColumns allows you to hide or show gauges in column 2 (i.e.,
; gauges 2, 4 and 6).
gaugeColumns = 2 ; Only 1 or 2 are valid.
;----------------------------------------------------------------------------
; Notes on tuning screen gauges:
; pageButtons = Labels for radio buttons at bottom of tuning dialog.
;
; Gauge 2 previously switched automatically to be tpsGauge when alpha-n
; was enabled, but you need to do it manually now.
;----------------------------------------------------------------------------
; Page 1 Page 2 Page 3 Page 4
pageButtons = "&EGO", "&WUE", "PW&1", "PW&2"
gauge1 = tachometer, tachometer, tachometer, tachometer
gauge2 = mapGauge, mapGauge, mapGauge, mapGauge
gauge3 = egoGauge, egoGauge, egoGauge, egoGauge
gauge4 = egoCorrGauge, warmupEnrichGauge, pulseWidthGauge, pulseWidthGauge
gauge5 = veBucketGauge, veBucketGauge, veBucketGauge, veBucketGauge
gauge6 = accelEnrichGauge, accelEnrichGauge, dutyCycleGauge, dutyCycleGauge
;-------------------------------------------------------------------------------
[OutputChannels]
; The number of bytes MegaTune or TunerStudio should expect as a result
; of sending the "A" command to Speeduino is determined
; by the value of ochBlockSize, so be very careful when
; you change it.
deadValue = { 0 } ; Convenient unchanging value.
ochGetCommand = "A"
ochBlockSize = 35
secl = scalar, U08, 0, "sec", 1.000, 0.000
squirt = scalar, U08, 1, "bits", 1.000, 0.000
inj1Status = bits, U08, 1, [0:0]
inj2Status = bits, U08, 1, [1:1]
inj3Status = bits, U08, 1, [2:2]
inj4Status = bits, U08, 1, [3:3]
DFCOOn = bits, U08, 1, [4:4]
boostCutFuel = bits, U08, 1, [5:5]
toothLog1Ready = bits, U08, 1, [6:6]
toothLog2Ready = bits, U08, 1, [7:7]
engine = scalar, U08, 2, "bits", 1.000, 0.000
ready = bits, U08, 2, [0:0]
crank = bits, U08, 2, [1:1]
startw = bits, U08, 2, [2:2]
warmup = bits, U08, 2, [3:3]
tpsaccaen = bits, U08, 2, [4:4]
tpsaccden = bits, U08, 2, [5:5]
mapaccaen = bits, U08, 2, [6:6]
mapaccden = bits, U08, 2, [7:7]
dwell = scalar, U08, 3, "ms", 0.100, 0.000
map = scalar, U08, 4, "kpa", 2.000, 0.000
iatRaw = scalar, U08, 5, "°C", 1.000, 0.000
coolantRaw = scalar, U08, 6, "°C", 1.000, 0.000
tpsADC = scalar, U08, 7, "ADC", 1.000, 0.000
batteryVoltage = scalar, U08, 8, "V", 0.100, 0.000
afr = scalar, U08, 9, "O2", 0.100, 0.000
egoCorrection = scalar, U08, 10, "%", 1.000, 0.000
airCorrection = scalar, U08, 11, "%", 1.000, 0.000
warmupEnrich = scalar, U08, 12, "%", 1.000, 0.000
rpm = scalar, U16, 13, "rpm", 1.000, 0.000
accelEnrich = scalar, U08, 15, "%", 1.000, 0.000
baroCorrection = scalar, U08, 16, "%", 1.000, 0.000
gammaEnrich = scalar, U08, 17, "%", 1.000, 0.000
veCurr = scalar, U08, 18, "%", 1.000, 0.000
afrTarget = scalar, U08, 19, "O2", 0.100, 0.000
pulseWidth = scalar, U08, 20, "ms", 0.1, 0.000
TPSdot = scalar, U08, 21, "%/s", 10.00, 0.000
advance = scalar, U08, 22, "deg", 1.000, 0.000
tps = scalar, U08, 23, "%", 1.000, 0.000
loopsPerSecond = scalar, S16, 24, "loops", 1.000, 0.000
freeRAM = scalar, S16, 26, "bytes", 1.000, 0.000
batCorrection = scalar, U08, 28, "%", 1.000, 0.000
spark = scalar, U08, 29, "bits", 1.000, 0.000
launchHard = bits, U08, 29, [0:0]
launchSoft = bits, U08, 29, [1:1]
hardLimitOn = bits, U08, 29, [2:2]
softlimitOn = bits, U08, 29, [3:3]
boostCutSpark = bits, U08, 29, [4:4]
error = bits, U08, 29, [5:5]
idle = bits, U08, 29, [6:6]
sync = bits, U08, 29, [7:7]
afr2 = scalar, U08, 30, "O2", 0.100, 0.000
rpmDOT = scalar, S16, 31, "rpm/s", 1.000, 0.000
flex = scalar, U08, 33, "%", 1.000, 0.000
errors = scalar, U08, 34, "bits", 1.000, 0.000
errorNum = bits, U08, 34, [0:1]
currentError = bits, U08, 34, [2:7]
; Computed output channels. See "megatuneExamples.ini" for all the
; pre-defined variables, search for "???" and you'll see them.
accDecEnrich = { accelEnrich + ((engine & 0b00100000) ? tdePct : 100) }
#if CELSIUS
coolant = { coolantRaw - 40 } ; Coolant sensor temperature in user units.
iat = { iatRaw - 40 } ; Manifold temperature in user units.
#else
coolant = { (coolantRaw - 40) * 1.8 + 32 } ; Coolant sensor temperature in user units.
iat = { (iatRaw - 40) * 1.8 + 32 } ; Manifold temperature in user units.
#endif
time = { timeNow } ; "timeNow" is a parameterless built-in function.
seconds = { secl };
throttle = { tps }, "%"
;cycleTime = { 60000.0 / rpm * (2.0-twoStroke) }
cycleTime = { 60000.0 / rpm }
nSquirts = { nCylinders/divider }
dutyCycle = { 100.0*pulseWidth/cycleTime }
boostCutOut = { boostCutFuel || boostCutSpark }
lambda = { afr / stoich }
#if EXPANDED_CLT_TEMP
clt_exp = { 1 }
#else
clt_exp = { 0 }
#endif
#if CELSIUS
cltlowlim = { clt_exp ? -40 : -40 }
clthighlim = { clt_exp ? 230 : 120 }
cltlowdang = { clt_exp ? 65 : 10 }
cltlowwarn = { clt_exp ? 93 : 65 }
clthighwarn = { clt_exp ? 162 : 93 }
clthighdang = { clt_exp ? 176 : 104 }
mathigh = { 110 }
#else ; fahrenheit
cltlowlim = { clt_exp ? -40 : -40 }
clthighlim = { clt_exp ? 450 : 250 }
cltlowdang = { clt_exp ? 150 : 50 }
cltlowwarn = { clt_exp ? 200 : 150 }
clthighwarn = { clt_exp ? 325 : 200 }
clthighdang = { clt_exp ? 350 : 220 }
mathigh = { 215 }
#endif
;-------------------------------------------------------------------------------
[Datalog]
; Full datalog.
;
; Default user-defined log emulates the full datalog.
;
; The entries are saved in the datalog file in the order in
; which they appear in the list below.
;
; Channel - Case sensitive name of output channel to be logged.
; Label - String written to header line of log. Be careful
; about changing these, as programs like MSLVV and
; MSTweak key off specific column names.
; Type - Data type of output, converted before writing.
; Format - C-style output format of data.
;
; Channel Label Type Format
; -------------- ---------- ----- ------
entry = time, "Time", float, "%.3f"
entry = secl, "SecL", int, "%d"
entry = rpm, "RPM", int, "%d"
entry = map, "MAP", int, "%d"
entry = tpsADC, "tpsADC", int, "%d"
entry = tps, "TPS", int, "%d"
entry = afr, "O2", float, "%.3f"
entry = lambda, "%", float, "%.3f"
entry = iat, "IAT", int, "%d"
entry = coolant, "CLT", int, "%d"
entry = engine, "Engine", int, "%d"
entry = squirt, "Squirt", int, "%d"
entry = spark, "Spark", int, "%d"
entry = egoCorrection, "Gego", int, "%d"
entry = airCorrection, "Gair", int, "%d"
entry = warmupEnrich, "Gwarm", int, "%d"
entry = baroCorrection, "Gbaro", int, "%d"
entry = gammaEnrich, "Gammae", int, "%d"
entry = accelEnrich, "TPSacc", int, "%d"
entry = veCurr, "VE", int, "%d"
entry = pulseWidth, "PW", float, "%.1f"
entry = afrTarget, "AFR Target", int, "%d"
entry = pulseWidth, "PW2", float, "%.1f"
entry = dutyCycle, "DutyCycle1", float, "%.1f"
entry = dutyCycle, "DutyCycle2", float, "%.1f"
entry = TPSdot, "TPS DOT", int, "%d"
entry = advance, "Ignition Advance", int,"%d"
entry = dwell, "Dwell", int, "%d"
entry = batteryVoltage, "Battery V", float, "%.1f"
entry = rpmDOT, "rpm/s", int, "%d"
entry = flex, "%", int, "%d"
entry = errorNum, "Error #", int, "%d"
entry = currentError, "Error ID", int, "%d"
[LoggerDefinition]
; valid logger types: composite, tooth, trigger, csv
;loggerDef = uniqueName, Display Name, type
loggerDef = tooth, "Tooth Logger", tooth
;dataReadCommand = "r\\x00\\xf4\\x00\\x00\\x04\\x00" ; standard TS command format
dataReadCommand = "T" ; Basic TS command format
dataReadTimeout = 15000 ; time in ms
dataReadyCondition = { toothLog1Ready }
dataLength = 256 ; in bytes, including headers, footers and data (not used)
;recordDef = headerLen. footerLen, recordLen
recordDef = 0, 0, 2; in bytes, the recordLen is for each record, currently limited to 4 bytes
;recordField = Name, HeaderName, startBit, bitCount, scale, units, updateCondition
recordField = toothGap, "ToothTime", 0, 16, 1.0, "uS"
[Tools]
;addTool = toolName, PanelName
addTool = veTableGenerator, "VE Table Generator", veTable1Tbl
addTool = afrTableGenerator, "AFR Table Generator", afrTable1Tbl
[VeAnalyze]
; tableName, lambdaTargetTableName, lambdaChannel, egoCorrectionChannel, activeCondition
veAnalyzeMap = veTable1Tbl, afrTable1Tbl, afr, egoCorrection
lambdaTargetTables = afrTable1Tbl, afrTSCustom,
filter = std_xAxisMin ; Auto build with appropriate axis channels
;filter = minRPMFilter, "Minimum RPM", rpm, < , 500, , true
filter = std_xAxisMax ; Auto build with appropriate axis channels
filter = std_yAxisMin ; Auto build with appropriate axis channels
filter = std_yAxisMax ; Auto build with appropriate axis channels
filter = std_DeadLambda ; Auto build
#if CELSIUS
filter = minCltFilter, "Minimum CLT", coolant, < , 71, , true
#else
filter = minCltFilter, "Minimum CLT", coolant, < , 160, , true
#endif
filter = accelFilter, "Accel Flag" , engine, & , 16, , false
filter = aseFilter, "ASE Flag" , engine, & , 4, , false
filter = overrunFilter, "Overrun" , pulseWidth, = , 0, , false
filter = std_Custom ; Standard Custom Expression Filter.
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