5858 lines
450 KiB
INI
5858 lines
450 KiB
INI
;-------------------------------------------------------------------------------
|
||
#unset enablehardware_test
|
||
|
||
[MegaTune]
|
||
MTversion = 2.25
|
||
|
||
queryCommand = "Q"
|
||
signature = "speeduino 202405-dev"
|
||
versionInfo = "S" ;This info is what is displayed to user
|
||
|
||
[TunerStudio]
|
||
iniSpecVersion = 3.64
|
||
|
||
;-------------------------------------------------------------------------------
|
||
|
||
[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"
|
||
|
||
|
||
settingGroup = pressure_units, "Pressure Display"
|
||
settingOption = DEFAULT, "PSI"
|
||
settingOption = pressure_bar, "BAR"
|
||
|
||
settingGroup = enablehardware_test, "Enable Hardware Test Page"
|
||
|
||
settingGroup = resetcontrol_group, "Reset Control Features"
|
||
settingOption = resetcontrol_standard, "Basic Options Only"
|
||
settingOption = resetcontrol_adv, "Advanced Features (16u2 Firmware Update Required)"
|
||
|
||
settingGroup = mcu, "Controller in use"
|
||
settingOption = DEFAULT, "Arduino Mega 2560"
|
||
settingOption = mcu_teensy, "Teensy"
|
||
settingOption = mcu_stm32, "STM32"
|
||
|
||
settingGroup = COMMS_COMPAT_GROUP, "Serial Mode"
|
||
settingOption = COMMS_COMPAT, "Compatibility Mode"
|
||
settingOption = DEFAULT, "Normal"
|
||
|
||
settingGroup = COMMS_MSDROID_COMPAT, "msDroid Compatibility-ONLY enable on Android"
|
||
settingOption = MSDROID_COMPAT, "Enable"
|
||
settingOption = DEFAULT, "Disable"
|
||
|
||
[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;
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||
;
|
||
; type List: value will be index.
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||
tsCanId = bits, U08, [0:3], "CAN ID 0", "CAN ID 1", "CAN ID 2", "CAN ID 3", "CAN ID 4", "CAN ID 5", "CAN ID 6", "CAN ID 7", "CAN ID 8", "CAN ID 9", "CAN ID 10","CAN ID 11","CAN ID 12","CAN ID 13","CAN ID 14","INVALID"
|
||
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
|
||
maphigh = scalar, U16, "kPa", 1, 0, 0, 30000, 0
|
||
mapwarn = scalar, U16, "kPa", 1, 0, 0, 30000, 0
|
||
mapdang = scalar, U16, "kPa", 1, 0, 0, 30000, 0
|
||
batlow = scalar, U08, "Volts", .1, 0, 0, 25.5, 1
|
||
bathigh = scalar, U08, "Volts", .1, 0, 0, 25.5, 1
|
||
|
||
#if LAMBDA
|
||
wueAFR = array, S16, [10], "Lambda", { 0.1 / stoich }, 0.000, -0.300, 0.300, 3
|
||
#else
|
||
wueAFR = array, S16, [10], "AFR", 0.1, 0.0, -4.0, 4.0, 1
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||
#endif
|
||
wueRecommended = array, U08, [10], "%", 1.0, 0.0, 100, 255.0, 0
|
||
|
||
idleUnits = bits, U08, [0:2], "None", "On/Off", "Duty Cycle", "Duty Cycle", "Steps", "Steps"
|
||
|
||
boardFuelOutputs = array, U08, [128], " ", 1.0, 0, 0, 255, 0, noMsqSave
|
||
boardIgnOutputs = array, U08, [128], " ", 1.0, 0, 0, 255, 0, noMsqSave
|
||
boardHasRTC = array, U08, [128], " ", 1.0, 0, 0, 255, 0, noMsqSave
|
||
|
||
;These are used for padding out bits variables
|
||
#define invalid_x8 = "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
#define invalid_x16 = $invalid_x8, $invalid_x8
|
||
#define invalid_x24 = $invalid_x16, $invalid_x8
|
||
#define invalid_x32 = $invalid_x16, $invalid_x16
|
||
#define invalid_x64 = $invalid_x32, $invalid_x32
|
||
#define invalid_x128 = $invalid_x64, $invalid_x64
|
||
#define invalid_x256 = $invalid_x128, $invalid_x128
|
||
#define invalid_x512 = $invalid_x256, $invalid_x256
|
||
#define invalid_x1024 = $invalid_x512, $invalid_x512
|
||
#define invalid_x2048 = $invalid_x1024, $invalid_x1024
|
||
#define invalid_x4096 = $invalid_x2048, $invalid_x2048
|
||
#define invalid_x8192 = $invalid_x4096, $invalid_x4096
|
||
#define invalid_x16384 = $invalid_x8192, $invalid_x8192
|
||
#define invalid_x32768 = $invalid_x16384, $invalid_x16384
|
||
|
||
#define loadSourceNames = "MAP", "TPS", "IMAP/EMAP", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
#define loadSourceUnits = "kPa", "% TPS", "%", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
algorithmNames = bits, U08, [0:2], $loadSourceNames
|
||
;algorithmUnits = bits, U08, [0:2], $loadSourceUnits
|
||
algorithmUnits = bits, U08, [0:2], "kPa", "% TPS", "%", "% TPS", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
algorithmLimits= array, U16, [8], "", 1.0, 0, 0, 511, 0, noMsqSave
|
||
fuel2SwitchUnits = bits, U08, [0:2], "rpm", "kPa", "% TPS", "%", "% TPS", "INVALID", "INVALID", "INVALID"
|
||
#define all_IO_Pins = "Board Default", "INVALID", "INVALID", "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", "INVALID", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
#define IO_Pins_no_def = "INVALID", "INVALID", "INVALID", "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", "INVALID", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
#define bitwise_def = "Disabled", "AND", "OR", "XOR"
|
||
#define comparator_def = "== (equal)", "!= (different)", "> (greater)", ">= (greater/equal)", "< (smaller)", "<= (smaller/equal)", "& (and)", "^ (xor)"
|
||
#define comp_IO_Pins_0 = "Disabled", "INVALID", "INVALID", "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", "INVALID", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
#define comp_IO_Pins_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"
|
||
#define comp_IO_Pins_2 = "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"
|
||
#define comp_IO_Pins_3 = "Virtual", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", $invalid_x64, $invalid_x32, $invalid_x16, $invalid_x8
|
||
#define comp_IO_Pins = $comp_IO_Pins_0, $comp_IO_Pins_1, $comp_IO_Pins_2, $comp_IO_Pins_3
|
||
|
||
;All definitions of split fullStatus should keep 32 options
|
||
#define fullStatus_def_1= "seconds", "status bits", "Engine status", "syncLossCounter", "MAP (Kpa)", "INVALID", "IAT / MAT", "coolant", "batCorrection", "battery voltage x10", "O2", "egoCorrection", "iatCorrection", "wueCorrection", "RPM", "INVALID", "AEamount/2", "GammaE", "INVALID", "VE1", "VE2", "AFR Target", "TPS DOT", "INVALID", "Advance", "TPS", "loopsPerSecond", "INVALID", "free RAM", "INVALID", "boostTarget/2", "Boost duty"
|
||
#define fullStatus_def_2= "spark bits", "RPM DOT", "INVALID", "ethanolPct", "flexCorrection", "flexIgnCorrection", "idle Load", "testOutputs", "O2_2", "baro", "Aux in 0", "INVALID", "Aux in 1", "INVALID", "Aux in 2", "INVALID", "Aux in 3", "INVALID", "Aux in 4", "INVALID", "Aux in 5", "INVALID", "Aux in 6", "INVALID", "Aux in 7", "INVALID", "Aux in 8", "INVALID", "Aux in 9", "INVALID", "Aux in 10", "INVALID"
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||
#define fullStatus_def_3= "Aux in 11", "INVALID", "Aux in 12", "INVALID", "Aux in 13", "INVALID", "Aux in 14", "INVALID", "Aux in 15", "INVALID", "TPS ADC", "Error code", "Pulsewidth 1", "INVALID", "Pulsewidth 2", "INVALID", "Pulsewidth 3", "INVALID", "Pulsewidth 4", "INVALID", "status bits 3", "engineProtectStatus", "Fuel load", "INVALID", "Ignition load", "INVALID", "dwell", "INVALID", "idle C.L. target", "MAP DOT", "INVALID", "VVT1 Angle"
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||
#define fullStatus_def_4= "INVALID", "VVT1 Target", "VVT1 duty", "flexBoostCorrection", "INVALID", "baro correction", "Current VE", "ASE Value", "vss", "INVALID", "Gear", "Fuel Pressure", "Oil Pressure", "WMI duty", "WMI empty", "VVT2 angle", "INVALID", "VVT2 target", "VVT2 duty", "outputs status", "Fuel temp", "Fuel temp correction", "Advance 1", "Advance 2", "SD status", "EMAP", "INVALID", "Fan duty", "airConStatus", "INVALID", "INVALID"
|
||
#define fullStatus_def_5= "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"
|
||
#define fullStatus_def_6= "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"
|
||
#define fullStatus_def_7= "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"
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;Rules start at index 240
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#define fullStatus_def_8= "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "running seconds x10", "Rule 1", "Rule 2", "Rule 3", "Rule 4", "Rule 5", "Rule 6", "Rule 7", "Rule 8", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
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#define fullStatus_def = $fullStatus_def_1, $fullStatus_def_2, $fullStatus_def_3, $fullStatus_def_4, $fullStatus_def_5, $fullStatus_def_6, $fullStatus_def_7, $fullStatus_def_8
|
||
|
||
#define pinLayouts = "INVALID", "Speeduino v0.2", "Speeduino v0.3", "Speeduino v0.4", "INVALID", "INVALID", "01-05 MX5 PNP", "INVALID", "96-97 MX5 PNP", "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", "BMW PnP", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "NO2C", "UA4C", "BlitzboxBL49sp", "INVALID", "INVALID", "DIY-EFI CORE4 v1.0", "INVALID", "INVALID", "INVALID", "INVALID", "dvjcodec Teensy RevA", "dvjcodec Teensy RevB", "INVALID", "JUICEBOX", "INVALID", "Drop Bear", "INVALID", "INVALID", "INVALID", "INVALID", "Black STM32F407VET6 V0.1", "INVALID", "INVALID", "INVALID", $invalid_x128, $invalid_x64
|
||
|
||
boostTableLabels = bits, U08, [0:1], "Duty Cycle %", "kPa"
|
||
boostByGearLabels = bits, U08, [0:1], "", "%", "Limit", ""
|
||
prgm_out_selection = bits, U08, [0:2], "1", "2", "3", "4", "5", "6", "7", "8"
|
||
|
||
fuelLoadMax = scalar, U08, "", 1, 0, 0, 511, 0
|
||
ignLoadMax = scalar, U08, "", 1, 0, 0, 511, 0
|
||
fuel2LoadMax = scalar, U08, "", 1, 0, 0, 511, 0
|
||
ign2LoadMax = scalar, U08, "", 1, 0, 0, 511, 0
|
||
AUXin00Alias = string, ASCII, 20
|
||
AUXin01Alias = string, ASCII, 20
|
||
AUXin02Alias = string, ASCII, 20
|
||
AUXin03Alias = string, ASCII, 20
|
||
AUXin04Alias = string, ASCII, 20
|
||
AUXin05Alias = string, ASCII, 20
|
||
AUXin06Alias = string, ASCII, 20
|
||
AUXin07Alias = string, ASCII, 20
|
||
AUXin08Alias = string, ASCII, 20
|
||
AUXin09Alias = string, ASCII, 20
|
||
AUXin10Alias = string, ASCII, 20
|
||
AUXin11Alias = string, ASCII, 20
|
||
AUXin12Alias = string, ASCII, 20
|
||
AUXin13Alias = string, ASCII, 20
|
||
AUXin14Alias = string, ASCII, 20
|
||
AUXin15Alias = string, ASCII, 20
|
||
|
||
prgm_out00Alias = string, ASCII, 20
|
||
prgm_out01Alias = string, ASCII, 20
|
||
prgm_out02Alias = string, ASCII, 20
|
||
prgm_out03Alias = string, ASCII, 20
|
||
prgm_out04Alias = string, ASCII, 20
|
||
prgm_out05Alias = string, ASCII, 20
|
||
prgm_out06Alias = string, ASCII, 20
|
||
prgm_out07Alias = string, ASCII, 20
|
||
|
||
;Define aliases for all the triggers. Naming pattern matches that used in decoders.ino
|
||
#define trigger_missingTooth = 0
|
||
#define trigger_BasicDistributor = 1
|
||
#define trigger_DualWheel = 2
|
||
#define trigger_GM7X = 3
|
||
#define trigger_4G63 = 4
|
||
#define trigger_24X = 5
|
||
#define trigger_Jeep2000 = 6
|
||
#define trigger_Audi135 = 7
|
||
#define trigger_HondaD17 = 8
|
||
#define trigger_Miata9905 = 9
|
||
#define trigger_MazdaAU = 10
|
||
#define trigger_non360 = 11
|
||
#define trigger_Nissan360 = 12
|
||
#define trigger_Subaru67 = 13
|
||
#define trigger_Daihatsu = 14
|
||
#define trigger_Harley = 15
|
||
#define trigger_ThirtySixMinus222 = 16
|
||
#define trigger_ThirtySixMinus21 = 17
|
||
#define trigger_420a = 18
|
||
#define trigger_Webber = 19
|
||
#define trigger_FordST170 = 20
|
||
#define trigger_DRZ400 = 21
|
||
#define trigger_NGC = 22
|
||
#define trigger_VMAX = 23
|
||
#define trigger_renix = 24
|
||
#define trigger_Rover = 25
|
||
#define trigger_K6A = 26
|
||
|
||
[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 laid
|
||
; 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 synthesised 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 = 15
|
||
pageSize = 128, 288, 288, 128, 288, 128, 240, 384, 192, 192, 288, 192, 128, 288, 256
|
||
|
||
; New commands
|
||
pageIdentifier = "\$tsCanId\x01", "\$tsCanId\x02", "\$tsCanId\x03", "\$tsCanId\x04", "\$tsCanId\x05", "\$tsCanId\x06", "\$tsCanId\x07", "\$tsCanId\x08", "\$tsCanId\x09", "\$tsCanId\x0A", "\$tsCanId\x0B", "\$tsCanId\x0C", "\$tsCanId\x0D", "\$tsCanId\x0E", "\$tsCanId\x0F"
|
||
pageReadCommand = "p%2i%2o%2c", "p%2i%2o%2c", "p%2i%2o%2c", "p%2i%2o%2c", "p%2i%2o%2c", "p%2i%2o%2c", "p%2i%2o%2c", "p%2i%2o%2c", "p%2i%2o%2c", "p%2i%2o%2c", "p%2i%2o%2c", "p%2i%2o%2c", "p%2i%2o%2c", "p%2i%2o%2c", "p%2i%2o%2c"
|
||
pageValueWrite = "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v"
|
||
pageChunkWrite = "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v", "M%2i%2o%2c%v"
|
||
crc32CheckCommand = "d%2i", "d%2i", "d%2i", "d%2i", "d%2i", "d%2i", "d%2i", "d%2i", "d%2i", "d%2i", "d%2i", "d%2i", "d%2i", "d%2i", "d%2i"
|
||
#if COMMS_COMPAT
|
||
;Comms compat mode uses a different burn command in order to slow down the EEPROM burn rate
|
||
burnCommand = "B%2i", "B%2i", "B%2i", "B%2i", "B%2i", "B%2i", "B%2i", "B%2i", "B%2i", "B%2i", "B%2i", "B%2i", "B%2i", "B%2i", "B%2i"
|
||
#else
|
||
burnCommand = "b%2i", "b%2i", "b%2i", "b%2i", "b%2i", "b%2i", "b%2i", "b%2i", "b%2i", "b%2i", "b%2i", "b%2i", "b%2i", "b%2i", "b%2i"
|
||
#endif
|
||
|
||
|
||
#if mcu_stm32
|
||
blockingFactor = 121
|
||
#else
|
||
blockingFactor = 251 ; Serial buffer is 257 bytes and there are 6 bytes of overhead (2 for the size and 4 for the CRC). Total payload is therefore 257-6=251.
|
||
#endif
|
||
#if COMMS_COMPAT
|
||
blockingFactor = 121
|
||
#endif
|
||
delayAfterPortOpen=1000
|
||
;validateArrayBounds = true
|
||
blockReadTimeout = 2000
|
||
tsWriteBlocks = on
|
||
interWriteDelay = 10 ;Ignored when tsWriteBlocks is on
|
||
pageActivationDelay = 10
|
||
restrictSquirtRelationship = false ;This requires TS 3.1 or above
|
||
#if MSDROID_COMPAT
|
||
;Do nothing
|
||
#else
|
||
messageEnvelopeFormat = msEnvelope_1.0 ;New and testing only
|
||
tableCrcCommand = "k\$tsCanId%2i%2o%2c" ;TS can only use this command in new mode
|
||
#endif
|
||
readSdCompressed = false
|
||
|
||
;New for TS 3.0.08ish upwards, define lists of standard I/O options
|
||
|
||
#define PIN_OUT10inv = "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
#define PIN_OUT16inv = "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
#define PIN_16inv = "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
|
||
#define ANALOG_PIN = "A0", "A1", "A2", "A3", "A4", "A5", "A6", "A7", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", $PIN_16inv, $PIN_16inv, $PIN_16inv
|
||
#define DIGITAL_PIN = "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", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
#define ANALOG_DIG_PIN_LIST = $DIGITAL_PIN, $ANALOG_PIN
|
||
#define tsCanId_list = "CAN ID 0", "CAN ID 1", "CAN ID 2", "CAN ID 3", "CAN ID 4", "CAN ID 5", "CAN ID 6", "CAN ID 7", "CAN ID 8", "CAN ID 9", "CAN ID 10","CAN ID 11","CAN ID 12","CAN ID 13","CAN ID 14","INVALID"
|
||
#define CAN_ADDRESS_HEX_inv255 = $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT16inv, $PIN_OUT10inv, "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
#define CAN_ADDRESS_HEX_00XX = "INVALID", "0x001", "0x002", "0x003", "0x004", "0x005", "0x006", "0x007", "0x008", "0x009", "0x00A", "0x00B", "0x00C", "0x00D", "0x00E", "0x00F", "0x010", "0x011", "0x012", "0x013", "0x014", "0x015", "0x016", "0x017", "0x018", "0x019", "0x01A", "0x01B", "0x01C", "0x01D", "0x01E", "0x01F", "0x020", "0x021", "0x022", "0x023", "0x024", "0x025", "0x026", "0x027", "0x028", "0x029", "0x02A", "0x02B", "0x02C", "0x02D", "0x02E", "0x02F", "0x030", "0x031", "0x032", "0x033", "0x034", "0x035", "0x036", "0x037", "0x038", "0x039", "0x03A", "0x03B", "0x03C", "0x03D", "0x03E", "0x03F", "0x040", "0x041", "0x042", "0x043", "0x044", "0x045", "0x046", "0x047", "0x048", "0x049", "0x04A", "0x04B", "0x04C", "0x04D", "0x04E", "0x04F", "0x050", "0x051", "0x052", "0x053", "0x054", "0x055", "0x056", "0x057", "0x058", "0x059", "0x05A", "0x05B", "0x05C", "0x05D", "0x05E", "0x05F" ,"0x060", "0x061", "0x062", "0x063", "0x064", "0x065", "0x066", "0x067", "0x068", "0x069", "0x06A", "0x06B", "0x06C", "0x06D", "0x06E", "0x06F", "0x070", "0x071", "0x072", "0x073", "0x074", "0x075", "0x076", "0x077", "0x078", "0x079", "0x07A", "0x07B", "0x07C", "0x07D", "0x07E", "0x07F", "0x080", "0x081", "0x082", "0x083", "0x084", "0x085", "0x086", "0x087", "0x088", "0x089", "0x08A", "0x08B", "0x08C", "0x08D", "0x08E", "0x08F" ,"0x090", "0x091", "0x092", "0x093", "0x094", "0x095", "0x096", "0x097", "0x098", "0x099", "0x09A", "0x09B", "0x09C", "0x09D", "0x09E", "0x09F", "0x0A0", "0x0A1", "0x0A2", "0x0A3", "0x0A4", "0x0A5", "0x0A6", "0x0A7", "0x0A8", "0x0A9", "0x0AA", "0x0AB", "0x0AC", "0x0AD", "0x0AE", "0x0AF", "0x0B0", "0x0B1", "0x0B2", "0x0B3", "0x0B4", "0x0B5", "0x0B6", "0x0B7", "0x0B8", "0x0B9", "0x0BA", "0x0BB", "0x0BC", "0x0BD", "0x0BE", "0x0BF" ,"0x0C0", "0x0C1", "0x0C2", "0x0C3", "0x0C4", "0x0C5", "0x0C6", "0x0C7", "0x0C8", "0x0C9", "0x0CA", "0x0CB", "0x0CC", "0x0CD", "0x0CE", "0x0CF", "0x0D0", "0x0D1", "0x0D2", "0x0D3", "0x0D4", "0x0D5", "0x0D6", "0x0D7", "0x0D8", "0x0D9", "0x0DA", "0x0DB", "0x0DC", "0x0DD", "0x0DE", "0x0DF", "0x0E0", "0x0E1", "0x0E2", "0x0E3", "0x0E4", "0x0E5", "0x0E6", "0x0E7", "0x0E8", "0x0E9", "0x0EA", "0x0EB", "0x0EC", "0x0ED", "0x0EE", "0x0EF" ,"0x0F0", "0x0F1", "0x0F2", "0x0F3", "0x0F4", "0x0F5", "0x0F6", "0x0F7", "0x0F8", "0x0F9", "0x0FA", "0x0FB", "0x0FC", "0x0FD", "0x0FE", "0x0FF"
|
||
#define CAN_ADDRESS_HEX_01XX = "0x100", "0x101", "0x102", "0x103", "0x104", "0x105", "0x106", "0x107", "0x108", "0x109", "0x10A", "0x10B", "0x10C", "0x10D", "0x10E", "0x10F", "0x110", "0x111", "0x112", "0x113", "0x114", "0x115", "0x116", "0x117", "0x118", "0x119", "0x11A", "0x11B", "0x11C", "0x11D", "0x11E", "0x11F", "0x120", "0x121", "0x122", "0x123", "0x124", "0x125", "0x126", "0x127", "0x128", "0x129", "0x12A", "0x12B", "0x12C", "0x12D", "0x12E", "0x12F", "0x130", "0x131", "0x132", "0x133", "0x134", "0x135", "0x136", "0x137", "0x138", "0x139", "0x13A", "0x13B", "0x13C", "0x13D", "0x13E", "0x13F", "0x140", "0x141", "0x142", "0x143", "0x144", "0x145", "0x146", "0x147", "0x148", "0x149", "0x14A", "0x14B", "0x14C", "0x14D", "0x14E", "0x14F", "0x150", "0x151", "0x152", "0x153", "0x154", "0x155", "0x156", "0x157", "0x158", "0x159", "0x15A", "0x15B", "0x15C", "0x15D", "0x15E", "0x15F" ,"0x160", "0x161", "0x162", "0x163", "0x164", "0x165", "0x166", "0x167", "0x168", "0x169", "0x16A", "0x16B", "0x16C", "0x16D", "0x16E", "0x16F", "0x170", "0x171", "0x172", "0x173", "0x174", "0x175", "0x176", "0x177", "0x178", "0x179", "0x17A", "0x17B", "0x17C", "0x17D", "0x17E", "0x17F", "0x180", "0x181", "0x182", "0x183", "0x184", "0x185", "0x186", "0x187", "0x188", "0x189", "0x18A", "0x18B", "0x18C", "0x18D", "0x18E", "0x18F" ,"0x190", "0x191", "0x192", "0x193", "0x194", "0x195", "0x196", "0x197", "0x198", "0x199", "0x19A", "0x19B", "0x19C", "0x19D", "0x19E", "0x19F", "0x1A0", "0x1A1", "0x1A2", "0x1A3", "0x1A4", "0x1A5", "0x1A6", "0x1A7", "0x1A8", "0x1A9", "0x1AA", "0x1AB", "0x1AC", "0x1AD", "0x1AE", "0x1AF", "0x1B0", "0x1B1", "0x1B2", "0x1B3", "0x1B4", "0x1B5", "0x1B6", "0x1B7", "0x1B8", "0x1B9", "0x1BA", "0x1BB", "0x1BC", "0x1BD", "0x1BE", "0x1BF" ,"0x1C0", "0x1C1", "0x1C2", "0x1C3", "0x1C4", "0x1C5", "0x1C6", "0x1C7", "0x1C8", "0x1C9", "0x1CA", "0x1CB", "0x1CC", "0x1CD", "0x1CE", "0x1CF", "0x1D0", "0x1D1", "0x1D2", "0x1D3", "0x1D4", "0x1D5", "0x1D6", "0x1D7", "0x1D8", "0x1D9", "0x1DA", "0x1DB", "0x1DC", "0x1DD", "0x1DE", "0x1DF", "0x1E0", "0x1E1", "0x1E2", "0x1E3", "0x1E4", "0x1E5", "0x1E6", "0x1E7", "0x1E8", "0x1E9", "0x1EA", "0x1EB", "0x1EC", "0x1ED", "0x1EE", "0x1EF" ,"0x1F0", "0x1F1", "0x1F2", "0x1F3", "0x1F4", "0x1F5", "0x1F6", "0x1F7", "0x1F8", "0x1F9", "0x1FA", "0x1FB", "0x1FC", "0x1FD", "0x1FE", "0x1FF"
|
||
#define CAN_ADDRESS_HEX_02XX = "0x200", "0x201", "0x202", "0x203", "0x204", "0x205", "0x206", "0x207", "0x208", "0x209", "0x20A", "0x20B", "0x20C", "0x20D", "0x20E", "0x20F", "0x210", "0x211", "0x212", "0x213", "0x214", "0x215", "0x216", "0x217", "0x218", "0x219", "0x21A", "0x21B", "0x21C", "0x21D", "0x21E", "0x21F", "0x220", "0x221", "0x222", "0x223", "0x224", "0x225", "0x226", "0x227", "0x228", "0x229", "0x22A", "0x22B", "0x22C", "0x22D", "0x22E", "0x22F", "0x230", "0x231", "0x232", "0x233", "0x234", "0x235", "0x236", "0x237", "0x238", "0x239", "0x23A", "0x23B", "0x23C", "0x23D", "0x23E", "0x23F", "0x240", "0x241", "0x242", "0x243", "0x244", "0x245", "0x246", "0x247", "0x248", "0x249", "0x24A", "0x24B", "0x24C", "0x24D", "0x24E", "0x24F", "0x250", "0x251", "0x252", "0x253", "0x254", "0x255", "0x256", "0x257", "0x258", "0x259", "0x25A", "0x25B", "0x25C", "0x25D", "0x25E", "0x25F" ,"0x260", "0x261", "0x262", "0x263", "0x264", "0x265", "0x266", "0x267", "0x268", "0x269", "0x26A", "0x26B", "0x26C", "0x26D", "0x26E", "0x26F", "0x270", "0x271", "0x272", "0x273", "0x274", "0x275", "0x276", "0x277", "0x278", "0x279", "0x27A", "0x27B", "0x27C", "0x27D", "0x27E", "0x27F", "0x280", "0x281", "0x282", "0x283", "0x284", "0x285", "0x286", "0x287", "0x288", "0x289", "0x28A", "0x28B", "0x28C", "0x28D", "0x28E", "0x28F" ,"0x290", "0x291", "0x292", "0x293", "0x294", "0x295", "0x296", "0x297", "0x298", "0x299", "0x29A", "0x29B", "0x29C", "0x29D", "0x29E", "0x29F", "0x2A0", "0x2A1", "0x2A2", "0x2A3", "0x2A4", "0x2A5", "0x2A6", "0x2A7", "0x2A8", "0x2A9", "0x2AA", "0x2AB", "0x2AC", "0x2AD", "0x2AE", "0x2AF", "0x2B0", "0x2B1", "0x2B2", "0x2B3", "0x2B4", "0x2B5", "0x2B6", "0x2B7", "0x2B8", "0x2B9", "0x2BA", "0x2BB", "0x2BC", "0x2BD", "0x2BE", "0x2BF" ,"0x2C0", "0x2C1", "0x2C2", "0x2C3", "0x2C4", "0x2C5", "0x2C6", "0x2C7", "0x2C8", "0x2C9", "0x2CA", "0x2CB", "0x2CC", "0x2CD", "0x2CE", "0x2CF", "0x2D0", "0x2D1", "0x2D2", "0x2D3", "0x2D4", "0x2D5", "0x2D6", "0x2D7", "0x2D8", "0x2D9", "0x2DA", "0x2DB", "0x2DC", "0x2DD", "0x2DE", "0x2DF", "0x2E0", "0x2E1", "0x2E2", "0x2E3", "0x2E4", "0x2E5", "0x2E6", "0x2E7", "0x2E8", "0x2E9", "0x2EA", "0x2EB", "0x2EC", "0x2ED", "0x2EE", "0x2EF" ,"0x2F0", "0x2F1", "0x2F2", "0x2F3", "0x2F4", "0x2F5", "0x2F6", "0x2F7", "0x2F8", "0x2F9", "0x2FA", "0x2FB", "0x2FC", "0x2FD", "0x2FE", "0x2FF"
|
||
#define CAN_ADDRESS_HEX_03XX = "0x300", "0x301", "0x302", "0x303", "0x304", "0x305", "0x306", "0x307", "0x308", "0x309", "0x30A", "0x30B", "0x30C", "0x30D", "0x30E", "0x30F", "0x310", "0x311", "0x312", "0x313", "0x314", "0x315", "0x316", "0x317", "0x318", "0x319", "0x31A", "0x31B", "0x31C", "0x31D", "0x31E", "0x31F", "0x320", "0x321", "0x322", "0x323", "0x324", "0x325", "0x326", "0x327", "0x328", "0x329", "0x32A", "0x32B", "0x32C", "0x32D", "0x32E", "0x32F", "0x330", "0x331", "0x332", "0x333", "0x334", "0x335", "0x336", "0x337", "0x338", "0x339", "0x33A", "0x33B", "0x33C", "0x33D", "0x33E", "0x33F", "0x340", "0x341", "0x342", "0x343", "0x344", "0x345", "0x346", "0x347", "0x348", "0x349", "0x34A", "0x34B", "0x34C", "0x34D", "0x34E", "0x34F", "0x350", "0x351", "0x352", "0x353", "0x354", "0x355", "0x356", "0x357", "0x358", "0x359", "0x35A", "0x35B", "0x35C", "0x35D", "0x35E", "0x35F" ,"0x360", "0x361", "0x362", "0x363", "0x364", "0x365", "0x366", "0x367", "0x368", "0x369", "0x36A", "0x36B", "0x36C", "0x36D", "0x36E", "0x36F", "0x370", "0x371", "0x372", "0x373", "0x374", "0x375", "0x376", "0x377", "0x378", "0x379", "0x37A", "0x37B", "0x37C", "0x37D", "0x37E", "0x37F", "0x380", "0x381", "0x382", "0x383", "0x384", "0x385", "0x386", "0x387", "0x388", "0x389", "0x38A", "0x38B", "0x38C", "0x38D", "0x38E", "0x38F" ,"0x390", "0x391", "0x392", "0x393", "0x394", "0x395", "0x396", "0x397", "0x398", "0x399", "0x39A", "0x39B", "0x39C", "0x39D", "0x39E", "0x39F", "0x3A0", "0x3A1", "0x3A2", "0x3A3", "0x3A4", "0x3A5", "0x3A6", "0x3A7", "0x3A8", "0x3A9", "0x3AA", "0x3AB", "0x3AC", "0x3AD", "0x3AE", "0x3AF", "0x3B0", "0x3B1", "0x3B2", "0x3B3", "0x3B4", "0x3B5", "0x3B6", "0x3B7", "0x3B8", "0x3B9", "0x3BA", "0x3BB", "0x3BC", "0x3BD", "0x3BE", "0x3BF" ,"0x3C0", "0x3C1", "0x3C2", "0x3C3", "0x3C4", "0x3C5", "0x3C6", "0x3C7", "0x3C8", "0x3C9", "0x3CA", "0x3CB", "0x3CC", "0x3CD", "0x3CE", "0x3CF", "0x3D0", "0x3D1", "0x3D2", "0x3D3", "0x3D4", "0x3D5", "0x3D6", "0x3D7", "0x3D8", "0x3D9", "0x3DA", "0x3DB", "0x3DC", "0x3DD", "0x3DE", "0x3DF", "0x3E0", "0x3E1", "0x3E2", "0x3E3", "0x3E4", "0x3E5", "0x3E6", "0x3E7", "0x3E8", "0x3E9", "0x3EA", "0x3EB", "0x3EC", "0x3ED", "0x3EE", "0x3EF" ,"0x3F0", "0x3F1", "0x3F2", "0x3F3", "0x3F4", "0x3F5", "0x3F6", "0x3F7", "0x3F8", "0x3F9", "0x3FA", "0x3FB", "0x3FC", "0x3FD", "0x3FE", "0x3FF"
|
||
#define CAN_ADDRESS_HEX_04XX = "0x400", "0x401", "0x402", "0x403", "0x404", "0x405", "0x406", "0x407", "0x408", "0x409", "0x40A", "0x40B", "0x40C", "0x40D", "0x40E", "0x40F", "0x410", "0x411", "0x412", "0x413", "0x414", "0x415", "0x416", "0x417", "0x418", "0x419", "0x41A", "0x41B", "0x41C", "0x41D", "0x41E", "0x41F", "0x420", "0x421", "0x422", "0x423", "0x424", "0x425", "0x426", "0x427", "0x428", "0x429", "0x42A", "0x42B", "0x42C", "0x42D", "0x42E", "0x42F", "0x430", "0x431", "0x432", "0x433", "0x434", "0x435", "0x436", "0x437", "0x438", "0x439", "0x43A", "0x43B", "0x43C", "0x43D", "0x43E", "0x43F", "0x440", "0x441", "0x442", "0x443", "0x444", "0x445", "0x446", "0x447", "0x448", "0x449", "0x44A", "0x44B", "0x44C", "0x44D", "0x44E", "0x44F", "0x450", "0x451", "0x452", "0x453", "0x454", "0x455", "0x456", "0x457", "0x458", "0x459", "0x45A", "0x45B", "0x45C", "0x45D", "0x45E", "0x45F" ,"0x460", "0x461", "0x462", "0x463", "0x464", "0x465", "0x466", "0x467", "0x468", "0x469", "0x46A", "0x46B", "0x46C", "0x46D", "0x46E", "0x46F", "0x470", "0x471", "0x472", "0x473", "0x474", "0x475", "0x476", "0x477", "0x478", "0x479", "0x47A", "0x47B", "0x47C", "0x47D", "0x47E", "0x47F", "0x480", "0x481", "0x482", "0x483", "0x484", "0x485", "0x486", "0x487", "0x488", "0x489", "0x48A", "0x48B", "0x48C", "0x48D", "0x48E", "0x48F" ,"0x490", "0x491", "0x492", "0x493", "0x494", "0x495", "0x496", "0x497", "0x498", "0x499", "0x49A", "0x49B", "0x49C", "0x49D", "0x49E", "0x49F", "0x4A0", "0x4A1", "0x4A2", "0x4A3", "0x4A4", "0x4A5", "0x4A6", "0x4A7", "0x4A8", "0x4A9", "0x4AA", "0x4AB", "0x4AC", "0x4AD", "0x4AE", "0x4AF", "0x4B0", "0x4B1", "0x4B2", "0x4B3", "0x4B4", "0x4B5", "0x4B6", "0x4B7", "0x4B8", "0x4B9", "0x4BA", "0x4BB", "0x4BC", "0x4BD", "0x4BE", "0x4BF" ,"0x4C0", "0x4C1", "0x4C2", "0x4C3", "0x4C4", "0x4C5", "0x4C6", "0x4C7", "0x4C8", "0x4C9", "0x4CA", "0x4CB", "0x4CC", "0x4CD", "0x4CE", "0x4CF", "0x4D0", "0x4D1", "0x4D2", "0x4D3", "0x4D4", "0x4D5", "0x4D6", "0x4D7", "0x4D8", "0x4D9", "0x4DA", "0x4DB", "0x4DC", "0x4DD", "0x4DE", "0x4DF", "0x4E0", "0x4E1", "0x4E2", "0x4E3", "0x4E4", "0x4E5", "0x4E6", "0x4E7", "0x4E8", "0x4E9", "0x4EA", "0x4EB", "0x4EC", "0x4ED", "0x4EE", "0x4EF" ,"0x4F0", "0x4F1", "0x4F2", "0x4F3", "0x4F4", "0x4F5", "0x4F6", "0x4F7", "0x4F8", "0x4F9", "0x4FA", "0x4FB", "0x4FC", "0x4FD", "0x4FE", "0x4FF"
|
||
#define CAN_ADDRESS_HEX_05XX = "0x500", "0x501", "0x502", "0x503", "0x504", "0x505", "0x506", "0x507", "0x508", "0x509", "0x50A", "0x50B", "0x50C", "0x50D", "0x50E", "0x50F", "0x510", "0x511", "0x512", "0x513", "0x514", "0x515", "0x516", "0x517", "0x518", "0x519", "0x51A", "0x51B", "0x51C", "0x51D", "0x51E", "0x51F", "0x520", "0x521", "0x522", "0x523", "0x524", "0x525", "0x526", "0x527", "0x528", "0x529", "0x52A", "0x52B", "0x52C", "0x52D", "0x52E", "0x52F", "0x530", "0x531", "0x532", "0x533", "0x534", "0x535", "0x536", "0x537", "0x538", "0x539", "0x53A", "0x53B", "0x53C", "0x53D", "0x53E", "0x53F", "0x540", "0x541", "0x542", "0x543", "0x544", "0x545", "0x546", "0x547", "0x548", "0x549", "0x54A", "0x54B", "0x54C", "0x54D", "0x54E", "0x54F", "0x550", "0x551", "0x552", "0x553", "0x554", "0x555", "0x556", "0x557", "0x558", "0x559", "0x55A", "0x55B", "0x55C", "0x55D", "0x55E", "0x55F" ,"0x560", "0x561", "0x562", "0x563", "0x564", "0x565", "0x566", "0x567", "0x568", "0x569", "0x56A", "0x56B", "0x56C", "0x56D", "0x56E", "0x56F", "0x570", "0x571", "0x572", "0x573", "0x574", "0x575", "0x576", "0x577", "0x578", "0x579", "0x57A", "0x57B", "0x57C", "0x57D", "0x57E", "0x57F", "0x580", "0x581", "0x582", "0x583", "0x584", "0x585", "0x586", "0x587", "0x588", "0x589", "0x58A", "0x58B", "0x58C", "0x58D", "0x58E", "0x58F" ,"0x590", "0x591", "0x592", "0x593", "0x594", "0x595", "0x596", "0x597", "0x598", "0x599", "0x59A", "0x59B", "0x59C", "0x59D", "0x59E", "0x59F", "0x5A0", "0x5A1", "0x5A2", "0x5A3", "0x5A4", "0x5A5", "0x5A6", "0x5A7", "0x5A8", "0x5A9", "0x5AA", "0x5AB", "0x5AC", "0x5AD", "0x5AE", "0x5AF", "0x5B0", "0x5B1", "0x5B2", "0x5B3", "0x5B4", "0x5B5", "0x5B6", "0x5B7", "0x5B8", "0x5B9", "0x5BA", "0x5BB", "0x5BC", "0x5BD", "0x5BE", "0x5BF" ,"0x5C0", "0x5C1", "0x5C2", "0x5C3", "0x5C4", "0x5C5", "0x5C6", "0x5C7", "0x5C8", "0x5C9", "0x5CA", "0x5CB", "0x5CC", "0x5CD", "0x5CE", "0x5CF", "0x5D0", "0x5D1", "0x5D2", "0x5D3", "0x5D4", "0x5D5", "0x5D6", "0x5D7", "0x5D8", "0x5D9", "0x5DA", "0x5DB", "0x5DC", "0x5DD", "0x5DE", "0x5DF", "0x5E0", "0x5E1", "0x5E2", "0x5E3", "0x5E4", "0x5E5", "0x5E6", "0x5E7", "0x5E8", "0x5E9", "0x5EA", "0x5EB", "0x5EC", "0x5ED", "0x5EE", "0x5EF" ,"0x5F0", "0x5F1", "0x5F2", "0x5F3", "0x5F4", "0x5F5", "0x5F6", "0x5F7", "0x5F8", "0x5F9", "0x5FA", "0x5FB", "0x5FC", "0x5FD", "0x5FE", "0x5FF"
|
||
#define CAN_ADDRESS_HEX_06XX = "0x600", "0x601", "0x602", "0x603", "0x604", "0x605", "0x606", "0x607", "0x608", "0x609", "0x60A", "0x60B", "0x60C", "0x60D", "0x60E", "0x60F", "0x610", "0x611", "0x612", "0x613", "0x614", "0x615", "0x616", "0x617", "0x618", "0x619", "0x61A", "0x61B", "0x61C", "0x61D", "0x61E", "0x61F", "0x620", "0x621", "0x622", "0x623", "0x624", "0x625", "0x626", "0x627", "0x628", "0x629", "0x62A", "0x62B", "0x62C", "0x62D", "0x62E", "0x62F", "0x630", "0x631", "0x632", "0x633", "0x634", "0x635", "0x636", "0x637", "0x638", "0x639", "0x63A", "0x63B", "0x63C", "0x63D", "0x63E", "0x63F", "0x640", "0x641", "0x642", "0x643", "0x644", "0x645", "0x646", "0x647", "0x648", "0x649", "0x64A", "0x64B", "0x64C", "0x64D", "0x64E", "0x64F", "0x650", "0x651", "0x652", "0x653", "0x654", "0x655", "0x656", "0x657", "0x658", "0x659", "0x65A", "0x65B", "0x65C", "0x65D", "0x65E", "0x65F" ,"0x660", "0x661", "0x662", "0x663", "0x664", "0x665", "0x666", "0x667", "0x668", "0x669", "0x66A", "0x66B", "0x66C", "0x66D", "0x66E", "0x66F", "0x670", "0x671", "0x672", "0x673", "0x674", "0x675", "0x676", "0x677", "0x678", "0x679", "0x67A", "0x67B", "0x67C", "0x67D", "0x67E", "0x67F", "0x680", "0x681", "0x682", "0x683", "0x684", "0x685", "0x686", "0x687", "0x688", "0x689", "0x68A", "0x68B", "0x68C", "0x68D", "0x68E", "0x68F" ,"0x690", "0x691", "0x692", "0x693", "0x694", "0x695", "0x696", "0x697", "0x698", "0x699", "0x69A", "0x69B", "0x69C", "0x69D", "0x69E", "0x69F", "0x6A0", "0x6A1", "0x6A2", "0x6A3", "0x6A4", "0x6A5", "0x6A6", "0x6A7", "0x6A8", "0x6A9", "0x6AA", "0x6AB", "0x6AC", "0x6AD", "0x6AE", "0x6AF", "0x6B0", "0x6B1", "0x6B2", "0x6B3", "0x6B4", "0x6B5", "0x6B6", "0x6B7", "0x6B8", "0x6B9", "0x6BA", "0x6BB", "0x6BC", "0x6BD", "0x6BE", "0x6BF" ,"0x6C0", "0x6C1", "0x6C2", "0x6C3", "0x6C4", "0x6C5", "0x6C6", "0x6C7", "0x6C8", "0x6C9", "0x6CA", "0x6CB", "0x6CC", "0x6CD", "0x6CE", "0x6CF", "0x6D0", "0x6D1", "0x6D2", "0x6D3", "0x6D4", "0x6D5", "0x6D6", "0x6D7", "0x6D8", "0x6D9", "0x6DA", "0x6DB", "0x6DC", "0x6DD", "0x6DE", "0x6DF", "0x6E0", "0x6E1", "0x6E2", "0x6E3", "0x6E4", "0x6E5", "0x6E6", "0x6E7", "0x6E8", "0x6E9", "0x6EA", "0x6EB", "0x6EC", "0x6ED", "0x6EE", "0x6EF" ,"0x6F0", "0x6F1", "0x6F2", "0x6F3", "0x6F4", "0x6F5", "0x6F6", "0x6F7", "0x6F8", "0x6F9", "0x6FA", "0x6FB", "0x6FC", "0x6FD", "0x6FE", "0x6FF"
|
||
#define CAN_ADDRESS_HEX_07XX = "0x700", "0x701", "0x702", "0x703", "0x704", "0x705", "0x706", "0x707", "0x708", "0x709", "0x70A", "0x70B", "0x70C", "0x70D", "0x70E", "0x70F", "0x710", "0x711", "0x712", "0x713", "0x714", "0x715", "0x716", "0x717", "0x718", "0x719", "0x71A", "0x71B", "0x71C", "0x71D", "0x71E", "0x71F", "0x720", "0x721", "0x722", "0x723", "0x724", "0x725", "0x726", "0x727", "0x728", "0x729", "0x72A", "0x72B", "0x72C", "0x72D", "0x72E", "0x72F", "0x730", "0x731", "0x732", "0x733", "0x734", "0x735", "0x736", "0x737", "0x738", "0x739", "0x73A", "0x73B", "0x73C", "0x73D", "0x73E", "0x73F", "0x740", "0x741", "0x742", "0x743", "0x744", "0x745", "0x746", "0x747", "0x748", "0x749", "0x74A", "0x74B", "0x74C", "0x74D", "0x74E", "0x74F", "0x750", "0x751", "0x752", "0x753", "0x754", "0x755", "0x756", "0x757", "0x758", "0x759", "0x75A", "0x75B", "0x75C", "0x75D", "0x75E", "0x75F" ,"0x760", "0x761", "0x762", "0x763", "0x764", "0x765", "0x766", "0x767", "0x768", "0x769", "0x76A", "0x76B", "0x76C", "0x76D", "0x76E", "0x76F", "0x770", "0x771", "0x772", "0x773", "0x774", "0x775", "0x776", "0x777", "0x778", "0x779", "0x77A", "0x77B", "0x77C", "0x77D", "0x77E", "0x77F", "0x780", "0x781", "0x782", "0x783", "0x784", "0x785", "0x786", "0x787", "0x788", "0x789", "0x78A", "0x78B", "0x78C", "0x78D", "0x78E", "0x78F" ,"0x790", "0x791", "0x792", "0x793", "0x794", "0x795", "0x796", "0x797", "0x798", "0x799", "0x79A", "0x79B", "0x79C", "0x79D", "0x79E", "0x79F", "0x7A0", "0x7A1", "0x7A2", "0x7A3", "0x7A4", "0x7A5", "0x7A6", "0x7A7", "0x7A8", "0x7A9", "0x7AA", "0x7AB", "0x7AC", "0x7AD", "0x7AE", "0x7AF", "0x7B0", "0x7B1", "0x7B2", "0x7B3", "0x7B4", "0x7B5", "0x7B6", "0x7B7", "0x7B8", "0x7B9", "0x7BA", "0x7BB", "0x7BC", "0x7BD", "0x7BE", "0x7BF" ,"0x7C0", "0x7C1", "0x7C2", "0x7C3", "0x7C4", "0x7C5", "0x7C6", "0x7C7", "0x7C8", "0x7C9", "0x7CA", "0x7CB", "0x7CC", "0x7CD", "0x7CE", "0x7CF", "0x7D0", "0x7D1", "0x7D2", "0x7D3", "0x7D4", "0x7D5", "0x7D6", "0x7D7", "0x7D8", "0x7D9", "0x7DA", "0x7DB", "0x7DC", "0x7DD", "0x7DE", "0x7DF", "0x7E0", "0x7E1", "0x7E2", "0x7E3", "0x7E4", "0x7E5", "0x7E6", "0x7E7", "0x7E8", "0x7E9", "0x7EA", "0x7EB", "0x7EC", "0x7ED", "0x7EE", "0x7EF" ,"0x7F0", "0x7F1", "0x7F2", "0x7F3", "0x7F4", "0x7F5", "0x7F6", "0x7F7", "0x7F8", "0x7F9", "0x7FA", "0x7FB", "0x7FC", "0x7FD", "0x7FE", "0x7FF"
|
||
#define CAN_ADDRESS_HEX = $CAN_ADDRESS_HEX_01XX, $CAN_ADDRESS_HEX_02XX, $CAN_ADDRESS_HEX_03XX, $CAN_ADDRESS_HEX_04XX, $CAN_ADDRESS_HEX_05XX, $CAN_ADDRESS_HEX_06XX, $CAN_ADDRESS_HEX_07XX, $invalid_x32768, $invalid_x16384, $invalid_x8192, $invalid_x4096, $invalid_x2048, $invalid_x256
|
||
|
||
;--------------------------------------------------
|
||
;Start Page 1
|
||
;Page 1 is all general settings. Note that some of these (algorithm and ignAlgorithm) MUST come before their use in the bitStringValue() calls in the fuel and ignition tables
|
||
;--------------------------------------------------
|
||
page = 1
|
||
aseTaperTime = scalar, U08, 0, "S", 0.1, 0.0, 0.0, 25.5, 1
|
||
aeColdPct = scalar, U08, 1, "%", 1.0, 0, 100, 255, 0 ;AE cold adjustment %
|
||
#if CELSIUS
|
||
aeColdTaperMin= scalar, U08, 2, "C", 1.0, -40, -40, 215, 0 ;AE cold adjustment, taper start clt (full adjustment)
|
||
#else
|
||
aeColdTaperMin= scalar, U08, 2, "F", 1.8, -22.23, -40, 419, 0 ;AE cold adjustment, taper start clt (full adjustment)
|
||
#endif
|
||
|
||
aeMode = bits, U08, 3, [0:1], "TPS", "MAP", "INVALID", "INVALID"
|
||
battVCorMode = bits, U08, 3, [2:2], "Whole PW", "Open Time only"
|
||
SoftLimitMode = bits, U08, 3, [3:3], "Fixed", "Relative "
|
||
useTachoSweep = bits, U08, 3, [4:4], "Off", "On"
|
||
aeApplyMode = bits, U08, 3, [5:5], "PW Multiplier", "PW Adder"
|
||
multiplyMAP = bits, U08, 3, [6:7], "Off", "Baro", "Fixed", "INVALID"
|
||
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], $pinLayouts
|
||
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", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
tachoDiv = bits, U08, 16, [6:7], "Normal", "Half", "INVALID", "INVALID"
|
||
tachoDuration = scalar, U08, 17, "ms", 1.0, 0.0, 1.0, 6.0, 0
|
||
maeThresh = scalar, U08, 18, "kPa/s", 1.0, 0.0, 0.0, 255, 0 ;MAP threshold for triggering AE
|
||
taeThresh = scalar, U08, 19, "%/s", 1.0, 0.0, 0.0, 255, 0 ;TPS threshold for triggering AE
|
||
aeTime = scalar, U08, 20, "ms", 10, 0.0, 0.0, 2550, 0
|
||
taeMinChange = scalar, U08, 21, "%", 0.5, 0, 0, 5.0, 1
|
||
maeMinChange = scalar, U08, 22, "kPa", 1.0, 0, 0, 10.0, 0
|
||
|
||
; Display (Options for what the display is showing)
|
||
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
|
||
alternate = bits, U08, 26, [0:0], "Simultaneous", "Alternating"
|
||
crkngAddCLTAdv= bits, U08, 26, [1:1], "No", "Yes"
|
||
includeAFR = bits, U08, 26, [2:2], "No", "Yes"
|
||
hardCutType = bits, U08, 26, [3:3], "Full", "Rolling"
|
||
ignAlgorithm = bits, U08, 26, [4:6], $loadSourceNames
|
||
indInjAng = bits, U08, 26, [7:7], "Disabled", "Enabled"
|
||
injOpen = scalar, U08, 27, "ms", 0.1, 0.0, 0.1, 25.5, 1
|
||
injAng = array, U16, 28, [4], "deg", 1.0, 0.0, 0.0, 720, 0
|
||
|
||
; Config1
|
||
mapSample = bits, U08, 36, [0:1], "Instantaneous", "Cycle Average", "Cycle Minimum", "Event Average"
|
||
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","5","6","INVALID","8","INVALID","INVALID","INVALID","INVALID","INVALID","INVALID","INVALID"
|
||
|
||
; Config2
|
||
algorithm = bits, U08, 37, [0:2], $loadSourceNames ;Has to be called algorithm for the req fuel calculator to work :(
|
||
fixAngEnable = bits, U08, 37, [3:3], "Off", "On"
|
||
nInjectors = bits, U08, 37, [4:7], "INVALID","1","2","3","4","5","6","INVALID","8","INVALID","INVALID","INVALID","INVALID","INVALID","INVALID","INVALID"
|
||
|
||
; Config3
|
||
engineType = bits, U08, 38, [0:0], "Even fire", "Odd fire"
|
||
flexEnabled = bits, U08, 38, [1:1], "Off", "On"
|
||
legacyMAP = bits, U08, 38, [2:2], "No", "Yes" ;Whether to use the older legacy MAP reading that had the pullup enabled
|
||
baroCorr = bits, U08, 38, [3:3], "Off", "On"
|
||
injLayout = bits, U08, 38, [4:5], "Paired", "Semi-Sequential", "INVALID", "Sequential"
|
||
perToothIgn = bits, U08, 38, [6:6], "No", "Yes"
|
||
dfcoEnabled = bits, U08, 38, [7:7], "Off", "On"
|
||
|
||
#if CELSIUS
|
||
aeColdTaperMax = scalar, U08, 39, "C", 1.0, -40, -40, 215, 0 ;AE cold adjustment, taper start clt (full adjustment)
|
||
#else
|
||
aeColdTaperMax = scalar, U08, 39, "F", 1.8, -22.23, -40, 419, 0 ;AE cold adjustment, taper end clt (no adjustment)
|
||
#endif
|
||
|
||
dutyLim = scalar, U08, 40, "%", 1.0, 0.0, 0.0, 95.0, 0
|
||
flexFreqLow = scalar, U08, 41, "Hz", 1.0, 0.0, 0.0, 250.0, 0
|
||
flexFreqHigh = scalar, U08, 42, "Hz", 1.0, 0.0, 0.0, 250.0, 0
|
||
|
||
boostMaxDuty = scalar, U08, 43, "%", 1.0, 0.0, 0.0, 100.0, 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, S08, 46, "kpa", 1.0, 0.0, -100, 127.0, 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, "deg", 1.0, 0.0, 0.0, 720, 0 ; * ( 2 byte)
|
||
oddfire3 = scalar, U16, 53, "deg", 1.0, 0.0, 0.0, 720, 0 ; * ( 2 byte)
|
||
oddfire4 = scalar, U16, 55, "deg", 1.0, 0.0, 0.0, 720, 0 ; * ( 2 byte)
|
||
|
||
idleUpPin = bits, U08, 57, [0:5], "Board Default", "INVALID", "INVALID", "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", "INVALID", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
idleUpPolarity= bits, U08, 57, [6:6], "Normal", "Inverted"
|
||
idleUpEnabled = bits, U08, 57, [7:7], "Off", "On"
|
||
idleUpAdder = scalar, U08, 58, "% / Steps", 1.0, 0.0, 0.0, 250.0, 0
|
||
aeTaperMin = scalar, U08, 59, "RPM", 100, 0.0, 1000, 10000, 0
|
||
aeTaperMax = scalar, U08, 60, "RPM", 100, 0.0, 2000, 10000, 0
|
||
|
||
iacCLminValue = scalar, U08, 61, "% / Steps", {idleRes}, 0.0, 0.0, {idleResMax}, 0 ; Minimum and maximum duty cycles when using closed loop idle
|
||
iacCLmaxValue = scalar, U08, 62, "% / Steps", {idleRes}, 0.0, 0.0, {idleResMax}, 0
|
||
boostMinDuty = scalar, U08, 63, "%", 1.0, 0.0, 0.0, 100.0, 0 ; Minimum and maximum duty cycles for boost control
|
||
|
||
baroMin = scalar, S08, 64, "kpa", 1.0, 0.0, -100, 127.0, 0
|
||
baroMax = scalar, U16, 65, "kpa", 1.0, 0.0, 0.0, 25500, 0
|
||
EMAPMin = scalar, S08, 67, "kpa", 1.0, 0.0, -100, 127.0, 0
|
||
EMAPMax = scalar, U16, 68, "kpa", 1.0, 0.0, 0.0, 25500, 0
|
||
|
||
fanWhenOff = bits, U08, 70, [0:0], "No", "Yes"
|
||
fanWhenCranking = bits, U08, 70, [1:1], "No", "Yes"
|
||
useDwellMap = bits, U08, 70, [2:2], "No", "Yes"
|
||
fanEnable = bits, U08, 70, [3:4], "Off", "On/Off", "PWM", "INVALID"
|
||
rtc_mode = bits, U08, 70, [5:6], "Off", "On-board", "INVALID", "INVALID"
|
||
incorporateAFR = bits, U08, 70, [7:7], "No", "Yes"
|
||
|
||
asePct = array, U08, 71, [4], "%", 1.0, 0.0, 0, 155, 0
|
||
aseCount = array, U08, 75, [4], "s", 1.0, 0.0, 0.0, 255, 0 ; Values for the afterstart enrichment curve
|
||
#if CELSIUS
|
||
aseBins = array, U08, 79, [4], "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
aseBins = array, U08, 79, [4], "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
primePulse = array, U08, 83, [4], "ms", 0.5, 0.0, 0.0, 127.5, 1
|
||
#if CELSIUS
|
||
primeBins = array, U08, 87, [4], "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
primeBins = array, U08, 87, [4], "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
CTPSPin = bits, U08, 91, [0:5], "Board Default", "INVALID", "INVALID", "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", "INVALID", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
CTPSPolarity = bits, U08, 91, [6:6], "Normal", "Inverted"
|
||
CTPSEnabled = bits, U08, 91, [7:7], "Off", "On"
|
||
idleAdvEnabled = bits, U08, 92, [0:1], "Off", "Added", "Switched", "INVALID"
|
||
idleAdvAlgorithm = bits, U08, 92, [2:2], "TPS", "CTPS"
|
||
;idleAdvDelay = bits, U08, 92, [3:7], "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", "INVALID", "INVALID"
|
||
idleAdvDelay = bits, U08, 92, [3:7], "0.0", "0.5", "1.0", "1.5", "2.0", "2.5", "3.0", "3.5", "4.0", "4.5", "5.0", "5.5", "6.0", "6.5", "7.0", "7.5", "8.0", "8.5", "9.0", "9.5", "10.0", "10.5", "11.0", "11.5", "12.0", "12.5", "13.0", "13.5", "14.0", "14.5", "INVALID", "INVALID"
|
||
idleAdvRPM = scalar, U08, 93, "rpm", 100, 0.0, 100, 25500, 0
|
||
idleAdvTPS = scalar, U08, 94, "%", 0.5, 0, 0, 100.0, 1
|
||
|
||
injAngRPM = array, U08, 95, [4], "RPM", 100, 0.0, 100, 10000, 0
|
||
idleTaperTime = scalar, U08, 99, "S", 0.1, 0.0, 0.0, 25.5, 1
|
||
dfcoDelay = scalar, U08, 100, "S", 0.1, 0.0, 0.0, 25.5, 1 ;Remainder of DFCO settings are in page 4
|
||
#if CELSIUS
|
||
dfcoMinCLT = scalar, U08, 101, "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
dfcoMinCLT = scalar, U08, 101, "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
|
||
;VSS settings
|
||
vssMode = bits, U08, 102, [0:1], "Off", "CAN/Serial/Analog", "Pulses per KM", "Pulses per mile"
|
||
;vssPullup = bits, U08, 102, [1:1], "Off", "On"
|
||
vssPin = bits, U08, 102, [2:7], "Board Default", "INVALID", "INVALID", "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", "INVALID", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
vssPulsesPerKm= scalar, U16, 103, "pulses", 1.0, 0.0, 0.0, 25500, 0
|
||
vssSmoothing = scalar, U08, 105, "%", 1.0, 0, 0, 255, 0
|
||
vssRatio1 = scalar, U16, 106, "km/h per 1000rpm", 0.1, 0, 0, 99.9, 1
|
||
vssRatio2 = scalar, U16, 108, "km/h per 1000rpm", 0.1, 0, 0, 99.9, 1
|
||
vssRatio3 = scalar, U16, 110, "km/h per 1000rpm", 0.1, 0, 0, 99.9, 1
|
||
vssRatio4 = scalar, U16, 112, "km/h per 1000rpm", 0.1, 0, 0, 99.9, 1
|
||
vssRatio5 = scalar, U16, 114, "km/h per 1000rpm", 0.1, 0, 0, 99.9, 1
|
||
vssRatio6 = scalar, U16, 116, "km/h per 1000rpm", 0.1, 0, 0, 99.9, 1
|
||
|
||
;Idle up output (AC Fan) settings
|
||
idleUpOutputEnabled = bits, U08, 118, [0:0], "Off", "On"
|
||
idleUpOutputInv = bits, U08, 118, [1:1], "No", "Yes"
|
||
idleUpOutputPin = bits, U08, 118, [2:7], "Board Default", "INVALID", "INVALID", "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", "INVALID", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
|
||
tachoSweepMaxRPM = scalar, U08, 119, "RPM", 100, 0.0, 100, 10000, 0
|
||
primingDelay = scalar, U08, 120, "S", 0.1, 0.0, 0.0, 25.5, 1
|
||
|
||
iacTPSlimit = scalar, U08, 121, "%", 0.5, 0, 0, 100.0, 1
|
||
iacRPMlimitHysteresis = scalar, U08, 122, "RPM", 10, 0, 10, 2500, 0
|
||
|
||
rtc_trim = scalar, S08, 123, "ppm", 1, 0, -127, +127, 0
|
||
idleAdvVss = scalar, U08, 124, "km/h", 1, 0.0, 0.0, 255, 0
|
||
mapSwitchPoint = scalar, U08, 125, "RPM", 100, 0.0, 0.0, 16320, 0
|
||
|
||
canBMWCluster = bits, U08, 126, [0:0], "Off", "On"
|
||
canVAGCluster = bits, U08, 126, [1:1], "Off", "On"
|
||
;These are reserved for future use, in case of more CAN broadcasting features are added
|
||
canWBO = bits, U08, 126, [2:3], "Off", "rusEFI WBO", "INVALID", "INVALID"
|
||
vssAuxCh = bits, U08, 126, [4:7], "Aux0", "Aux1", "Aux2", "Aux3", "Aux4", "Aux5", "Aux6", "Aux7", "Aux8", "Aux9", "Aux10", "Aux11", "Aux12", "Aux13", "Aux14", "Aux15"
|
||
decelAmount = scalar, U08, 127, "%", 1.0, 0.0, 0.0, 150.0, 0
|
||
|
||
;Page 2 is the fuel map and axis bins only
|
||
page = 2
|
||
; 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
|
||
fuelLoadBins = array, U08, 272, [ 16], { bitStringValue(algorithmUnits , algorithm) }, {fuelLoadRes}, 0.0, 0.0, {fuelLoadMax}, {fuelDecimalRes}
|
||
;fuelLoadBins = array, U08, 272, [ 16], { bitStringValue(algorithmUnits , algorithm) }, 2.0, 0.0, 0.0, { arrayValue(rpmBins , algorithm) }, 0
|
||
|
||
;--------------------------------------------------
|
||
;Start Ignition table (Page 3)
|
||
;--------------------------------------------------
|
||
page = 3
|
||
advTable1 = array, U08, 0,[16x16], "deg", 1.0, -40, -40, 70.0, 0
|
||
rpmBins2 = array, U08, 256,[ 16], "RPM", 100.0, 0.0, 100, 25500, 0
|
||
mapBins1 = array, U08, 272, [ 16], { bitStringValue(algorithmUnits , ignAlgorithm) }, {ignLoadRes}, 0.0, 0.0, {ignLoadMax}, {ignDecimalRes} ; This name has to be used in order for the table to show up in MLVs table. I can't find the regexs that make this work :(
|
||
|
||
;--------------------------------------------------
|
||
;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, S08, 2, "Deg", 1, 0, -64, 64, 0 ; Allow negative values here
|
||
CrankAng = scalar, S08, 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], "RISING", "FALLING"
|
||
TrigSpeed = bits, U08, 5,[1:1], "Crank Speed", "Cam Speed"
|
||
IgInv = bits, U08, 5,[2:2], "Going Low", "Going High"
|
||
TrigPattern= bits, U08, 5,[3:7], "Missing Tooth", "Basic Distributor", "Dual Wheel", "GM 7X", "4G63 / Miata / 3000GT", "GM 24X", "Jeep 2000", "Audi 135", "Honda D17", "Miata 99-05", "Mazda AU", "Non-360 Dual", "Nissan 360", "Subaru 6/7", "Daihatsu +1", "Harley EVO", "36-2-2-2", "36-2-1", "DSM 420a", "Weber-Marelli", "Ford ST170", "DRZ400", "Chrysler NGC", "Yamaha Vmax 1990+", "Renix", "Rover MEMS", "K6A", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
TrigEdgeSec= bits, U08, 6,[0:0], "RISING", "FALLING"
|
||
fuelPumpPin= bits , U08, 6,[1:6], "Board Default", "INVALID", "INVALID", "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", "INVALID", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
useResync = bits, U08, 6,[7:7], "No", "Yes"
|
||
sparkDur = scalar, U08, 7, "ms", 0.1, 0, 0, 25.5, 1 ; Spark duration
|
||
trigPatternSec = bits,U08, 8,[0:6], "Single tooth cam", "4-1 cam", "Poll level", "Rover 5-3-2 cam", "Toyota 3 Tooth", "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", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
PollLevelPol = bits, U08, 8,[7:7], "Low", "High",
|
||
|
||
;Reset Control
|
||
bootloaderCaps = scalar, U08, 9, "level", 1, 0, 0, 255, 0
|
||
#if resetcontrol_adv
|
||
resetControl = bits, U08, 10,[0:1], "Disabled", "Prevent When Running", "Prevent Always", "Serial Command"
|
||
#else
|
||
resetControl = bits, U08, 10,[0:1], "Disabled", "INVALID", "INVALID", "Serial Command"
|
||
#endif
|
||
resetControlPin = bits, U08, 10,[2:7], "Board Default", "INVALID", "INVALID", "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", "INVALID", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
|
||
SkipCycles = 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
|
||
boostType = bits, U08, 12, [0:0], "Open Loop", "Closed Loop"
|
||
useDwellLim = bits, U08, 12, [1:1], "Off", "On"
|
||
sparkMode = bits, U08, 12, [2:4], "Wasted Spark", "Single Channel", "Wasted COP", "Sequential", "Rotary", "INVALID", "INVALID", "INVALID"
|
||
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 ;running dwell variable railed to 8 - who needs more than 8ms?
|
||
numTeeth = scalar, U08, 15, "teeth", 1.0, 0.0, 0.0, 255, 0
|
||
missingTeeth = scalar, U08, 16, "teeth", 1.0, 0.0, 0.0, 255, 0
|
||
|
||
crankRPM = scalar, U08, 17, "rpm", 10, 0.0, 100, 1000, 0
|
||
tpsflood = scalar, U08, 18, "%", 0.5, 0.0, 0.0, 100.0, 1
|
||
|
||
;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, 125.0, 0
|
||
#else
|
||
iatRetBins = array, U08, 48, [ 6], "F", 1.8, 17.77, 32.00, 257.0, 0 ; No -40 degree offset here
|
||
#endif
|
||
iatRetRates = array, U08, 54, [ 6], "deg", 1.0, 0.0, 0.00, 30.0, 0
|
||
;Deceleration Fuel Cut Off (DFCO)
|
||
dfcoRPM = scalar, U08, 60, "RPM", 10.0, 0.0, 100, 2550, 0
|
||
dfcoHyster = scalar, U08, 61, "RPM", 2.0, 0.0, 100, 500.0, 0
|
||
dfcoTPSThresh= scalar, U08, 62, "%", 0.5, 0.0, 0, 100.0, 1
|
||
;Cranking ignition bypass
|
||
ignBypassEnable = bits, U08, 63, [0:0], "Off", "On"
|
||
ignBypassPin = bits, U08, 63, [1:6], "INVALID", "INVALID", "INVALID", "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", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
ignBypassHiLo = bits, U08, 63, [7:7], "LOW", "HIGH"
|
||
;Analog input filter levels (Note max values are 240 so that default values of 255 can be overwritten on bootup)
|
||
ADCFILTER_TPS = scalar, U08, 64, "%", 1.0, 0.0, 0, 240, 0
|
||
ADCFILTER_CLT = scalar, U08, 65, "%", 1.0, 0.0, 0, 240, 0
|
||
ADCFILTER_IAT = scalar, U08, 66, "%", 1.0, 0.0, 0, 240, 0
|
||
ADCFILTER_O2 = scalar, U08, 67, "%", 1.0, 0.0, 0, 240, 0
|
||
ADCFILTER_BAT = scalar, U08, 68, "%", 1.0, 0.0, 0, 240, 0
|
||
ADCFILTER_MAP = scalar, U08, 69, "%", 1.0, 0.0, 0, 240, 0
|
||
ADCFILTER_BARO = scalar, U08, 70, "%", 1.0, 0.0, 0, 240, 0
|
||
|
||
;CLT (Coolant temp) timing Advance/Retard
|
||
#if CELSIUS
|
||
cltAdvBins = array, U08, 71, [ 6], "C", 1.0, -40, -40, 102.0, 0
|
||
#else
|
||
cltAdvBins = array, U08, 71, [ 6], "F", 1.8, -22.23, -40, 215.0, 0 ; No -40 degree offset here
|
||
#endif
|
||
cltAdvValues = array, S08, 77, [ 6], "deg", 1.0, -15, -15, 15, 0
|
||
|
||
;MAP based acceleration enrichment
|
||
maeBins = array, U08, 83, [ 4], "kpa/s", 10.0, 0.0, 0.00, 2550.0, 0
|
||
maeRates = array, U08, 87, [ 4], "%", 1.0, 0.0, 0.00, 255.0, 0 ; 4 bytes
|
||
|
||
batVoltCorrect = scalar, S08, 91, "v", 0.1, 0.0, -2, 2, 1 ;Battery reading calibration value. Note: Signed value
|
||
|
||
;Baro fuel correction
|
||
baroFuelBins = array, U08, 92, [8], "kPa", 1.0, 0, 70, 120, 0 ; Bins for the Baro correction curve
|
||
baroFuelValues = array, U08, 100, [8], "%", 1.0, 0, 0, 255, 0 ; % Values for same
|
||
|
||
;Idle timing advance
|
||
idleAdvBins = array, U08, 108, [6], "RPM", 10.0, -50, -500, 500, 0
|
||
idleAdvValues = array, U08, 114, [6], "deg", 1.0, -15, -15, 50, 0
|
||
|
||
engineProtectMaxRPM = scalar, U08, 120, "rpm", 100, 0.0, 100, 25500, 0
|
||
|
||
vvt2CL0DutyAng = scalar, S16, 121, "deg", 1.0, 0.0, -360.0, 360.0, 0 ; * ( 2 bytes)
|
||
vvt2PWMdir = bits, U08, 123, [0:0], "Advance", "Retard"
|
||
inj4CylPairing = bits, U08, 123, [1:2], "1+3 & 2+4", "1+4 & 2+3", "INVALID", "INVALID"
|
||
dwellErrCorrect = bits, U08, 123, [3:3], "Off", "On"
|
||
unusedBits4_123 = bits, U08, 123, [4:7]
|
||
ANGLEFILTER_VVT = scalar, U08, 124, "%", 1.0, 0.0, 0, 100, 0
|
||
FILTER_FLEX = scalar, U08, 125, "%", 1.0, 0.0, 0, 240, 0
|
||
|
||
#if CELSIUS
|
||
vvtMinClt = scalar, U08, 126, "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
vvtMinClt = scalar, U08, 126, "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
vvtDelay = scalar, U08, 127, "S", 5.0, 0.0, 0, 1275, 0
|
||
|
||
;--------------------------------------------------
|
||
|
||
;Start AFR page
|
||
;--------------------------------------------------
|
||
page = 5
|
||
lambdaTable = array, U08, 0, [16x16], "Lambda", { 0.1 / stoich }, 0.0000, 0.00, 2.00, 3
|
||
afrTable = array, U08, lastOffset, [16x16], "AFR", 0.1, 0.0, 7, 25.5, 1
|
||
|
||
rpmBinsAFR = array, U08, 256,[ 16], "RPM", 100.0, 0.0, 100, 25500, 0
|
||
loadBinsAFR = array, U08, 272,[ 16], { bitStringValue(algorithmUnits , algorithm) }, {fuelLoadRes}, 0.0, 0.0, {fuelLoadMax}, {fuelDecimalRes}
|
||
|
||
;--------------------------------------------------
|
||
;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"
|
||
engineProtectType = 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, 419.0, 0
|
||
#endif
|
||
egoCount = scalar, U08, 5, "", 4.0, 0.0, 4.0, 255.0, 0 ; * ( 1 byte)
|
||
vvtMode = bits, U08, 6, [0:1], "On/Off", "Open Loop", "Closed loop", "INVALID"
|
||
vvtLoadSource = bits, U08, 6, [2:3], "MAP", "TPS", "INVALID", "INVALID"
|
||
vvtPWMdir = bits, U08, 6, [4:4], "Advance", "Retard"
|
||
vvtCLUseHold = bits, U08, 6, [5:5], "No", "Yes"
|
||
vvtCLAlterFuelTiming = bits, U08, 6, [6:6], "No", "Yes"
|
||
boostCutEnabled = bits, U08, 6, [7:7], "Off", "On"
|
||
egoLimit = scalar, U08, 7, "", 1, 0, 0, 16, 0
|
||
|
||
ego_min_afr = scalar, U08, 8, "AFR", 0.1 , 0, 7 , 25 , 1
|
||
ego_min_lambda = scalar, U08, lastOffset, "Lambda", {0.1 / stoich}, 0, {7 / stoich}, {25 / stoich}, 3
|
||
ego_max_afr = scalar, U08, 9, "AFR", 0.1 , 0, 7 , 25 , 1
|
||
ego_max_lambda = scalar, U08, lastOffset, "Lambda", {0.1 / stoich}, 0, {7 / stoich}, {25 / stoich}, 3
|
||
|
||
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, "%", 0.5, 0, 0, 100.0, 1
|
||
vvt1Pin = bits , U08, 13, [0:5], "Board Default", "INVALID", "INVALID", "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", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
useExtBaro = bits, U08, 13, [6:6], "No", "Yes"
|
||
boostMode = bits, U08, 13, [7:7], "Simple", "Full"
|
||
boostPin = bits, U08, 14, [0:5], "Board Default", "INVALID", "INVALID", "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", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
tachoMode = bits, U08, 14, [6:6], "Fixed Duration", "Match Dwell"
|
||
useEMAP = bits, U08, 14, [7:7], "No", "Yes"
|
||
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, 419, 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", "INVALID", "INVALID", "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", "INVALID", "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, S08, 50, "deg", 1.0, 0.0, -30, 40, 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, "%", 0.03125, 0.0, 0.0, 7.96, 2 ; * ( 1 byte)
|
||
idleKI = scalar, U08, 54, "%", 0.03125, 0.0, 0.0, 7.96, 2 ; * ( 1 byte)
|
||
idleKD = scalar, U08, 55, "%", 0.00781, 0.0, 0.0, 1.99, 3 ; * ( 1 byte)
|
||
boostLimit = scalar, U08, 56, "kPa", 2.0, 0.0, 0.0, 511.0, 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, [0:0], "Float" , "Pullup"
|
||
iacPWMrun = bits, U08, 60, [1:1], "No", "Yes"
|
||
fuelTrimEnabled= bits, U08, 60, [2:2], "No", "Yes"
|
||
flatSEnable = bits, U08, 60, [3:3], "No", "Yes"
|
||
; Baro Sensor pin
|
||
baroPin = bits, U08, 60, [4:7], "A0", "A1", "A2", "A3", "A4", "A5", "A6", "A7", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15"
|
||
|
||
; Flat shift
|
||
flatSSoftWin = scalar, U08, 61, "rpm", 100, 0.0, 100, 25500, 0
|
||
flatSRetard = scalar, S08, 62, "deg", 1.0, 0.0,-30.0, 80, 0
|
||
flatSArm = scalar, U08, 63, "rpm", 100, 0.0, 100, 25500, 0
|
||
|
||
iacCLValues = array, U08, 64, [10], "RPM", 10.0, 0.0, 0, 2550, 0
|
||
iacOLStepVal = array, U08, 74, [10], "Steps", 3, 0, 0, 765, 0
|
||
iacOLPWMVal = array, U08, 84, [10], "Duty %", 1.0, 0, 0, 100, 0
|
||
#if CELSIUS
|
||
iacBins = array, U08, 94, [10], "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
iacBins = array, U08, 94, [10], "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
iacCrankSteps= array, U08, 104, [4], "Steps", 3, 0, 0, 765, 0
|
||
iacCrankDuty = array, U08, 108, [4], "Duty %", 1.0, 0, 0, 100, 0
|
||
#if CELSIUS
|
||
iacCrankBins = array, U08, 112, [4], "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
iacCrankBins = array, U08, 112, [4], "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
|
||
iacAlgorithm = bits , U08, 116, [0:2], "None", "On/Off", "PWM Open loop", "PWM Closed loop", "Stepper Open Loop", "Stepper Closed Loop", "PWM Closed+Open loop", "Stepper Closed+Open loop"
|
||
iacStepTime = bits , U08, 116, [3:5], "INVALID","1", "2", "3", "4", "5", "6","INVALID"
|
||
iacChannels = bits, U08, 116, [6:6], "1", "2"
|
||
iacPWMdir = bits , U08, 116, [7:7], "Normal", "Reverse"
|
||
|
||
#if CELSIUS
|
||
iacFastTemp = scalar, U08, 117, "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
iacFastTemp = scalar, U08, 117, "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
|
||
iacStepHome = scalar, U08, 118, "Steps", 3, 0, 0, 765, 0
|
||
iacStepHyster= scalar, U08, 119, "Steps", 1, 0, 1.0, 10, 0
|
||
|
||
; Begin fan control variables
|
||
fanInv = bits, U08, 120, [0:0], "No", "Yes"
|
||
fanUnused = bits, U08, 120, [1:1], "Off", "On/Off"
|
||
fanPin = bits, U08, 120, [2:7], "Board Default", "INVALID", "INVALID", "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", "INVALID", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
#if CELSIUS
|
||
fanSP = scalar, U08, 121, "C", 1.0, -40, -40, 215.0, 0
|
||
fanHyster = scalar, U08, 122, "C", 1.0, 0.0, 0.0, 40, 0
|
||
#else
|
||
fanSP = scalar, U08, 121, "F", 1.8, -22.23, -40, 419.0, 0
|
||
fanHyster = scalar, U08, 122, "F", 1.0, 0.0, 0.0, 40, 0
|
||
#endif
|
||
fanFreq = scalar, U08 , 123, "Hz", 2.0, 0.0, 10, 511, 0
|
||
#if CELSIUS
|
||
fanPWMBins = array, U08, 124, [4], "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
fanPWMBins = array, U08, 124, [4], "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
|
||
;--------------------------------------------------
|
||
;Boost and vvt maps (Page 7)
|
||
;--------------------------------------------------
|
||
page = 7
|
||
boostTable = array, U08, 0,[8x8], { bitStringValue( boostTableLabels, boostType ) }, 2.0, 0.0, 0, {boostTableLimit}, 0
|
||
rpmBinsBoost = array, U08, 64,[ 8], "RPM", 100.0, 0.0, 100, 25500, 0
|
||
tpsBinsBoost = array, U08, 72,[ 8], "TPS", 0.5, 0.0, 0.0, 127.0, 1
|
||
vvtTable = array, U08, 80,[8x8], "%", 0.5, 0.0, 0, 100, 1
|
||
rpmBinsVVT = array, U08, 144,[ 8], "RPM", 100.0, 0.0, 100, 25500, 0
|
||
loadBinsVVT = array, U08, 152,[ 8], { bitStringValue(algorithmUnits , vvtLoadSource) }, {vvtLoadRes}, 0.0, 0.0, {vvtLoadMax}, {vvtDecimalRes}
|
||
;Fuel staging Table
|
||
stagingTable = array, U08, 160, [8x8], "%", 1.0, 0.0, 0.0, 100.0, 0
|
||
rpmBinsStaging= array, U08, 224, [ 8], "RPM", 100.0, 0.0, 100.0, 25500.0, 0
|
||
loadBinsStaging= array, U08, 232, [ 8], { bitStringValue(algorithmUnits , algorithm) }, {fuelLoadRes}, 0.0, 0.0, {fuelLoadMax}, {fuelDecimalRes}
|
||
|
||
;--------------------------------------------------
|
||
;Sequential fuel trim tables (Page 8)
|
||
;--------------------------------------------------
|
||
page = 8
|
||
fuelTrim1Table = array, U08, 0,[6x6], "%", 1.0, -128, -50, 50, 0
|
||
fuelTrim1rpmBins = array, U08, 36,[ 6], "RPM", 100.0, 0.0, 0, 25500, 0
|
||
fuelTrim1loadBins = array, U08, 42,[ 6], { bitStringValue(algorithmUnits , algorithm) }, {fuelLoadRes}, 0.0, 0.0, {fuelLoadMax}, {fuelDecimalRes}
|
||
|
||
fuelTrim2Table = array, U08, 48,[6x6], "%", 1.0, -128, -50, 50, 0
|
||
fuelTrim2rpmBins = array, U08, 84,[ 6], "RPM", 100.0, 0.0, 0, 25500, 0
|
||
fuelTrim2loadBins = array, U08, 90,[ 6], { bitStringValue(algorithmUnits , algorithm) }, {fuelLoadRes}, 0.0, 0.0, {fuelLoadMax}, {fuelDecimalRes}
|
||
|
||
fuelTrim3Table = array, U08, 96,[6x6], "%", 1.0, -128, -50, 50, 0
|
||
fuelTrim3rpmBins = array, U08, 132,[ 6], "RPM", 100.0, 0.0, 0, 25500, 0
|
||
fuelTrim3loadBins = array, U08, 138,[ 6], { bitStringValue(algorithmUnits , algorithm) }, {fuelLoadRes}, 0.0, 0.0, {fuelLoadMax}, {fuelDecimalRes}
|
||
|
||
fuelTrim4Table = array, U08, 144,[6x6], "%", 1.0, -128, -50, 50, 0
|
||
fuelTrim4rpmBins = array, U08, 180,[ 6], "RPM", 100.0, 0.0, 0, 25500, 0
|
||
fuelTrim4loadBins = array, U08, 186,[ 6], { bitStringValue(algorithmUnits , algorithm) }, {fuelLoadRes}, 0.0, 0.0, {fuelLoadMax}, {fuelDecimalRes}
|
||
|
||
fuelTrim5Table = array, U08, 192,[6x6], "%", 1.0, -128, -50, 50, 0
|
||
fuelTrim5rpmBins = array, U08, 228,[ 6], "RPM", 100.0, 0.0, 0, 25500, 0
|
||
fuelTrim5loadBins = array, U08, 234,[ 6], { bitStringValue(algorithmUnits , algorithm) }, {fuelLoadRes}, 0.0, 0.0, {fuelLoadMax}, {fuelDecimalRes}
|
||
|
||
fuelTrim6Table = array, U08, 240,[6x6], "%", 1.0, -128, -50, 50, 0
|
||
fuelTrim6rpmBins = array, U08, 276,[ 6], "RPM", 100.0, 0.0, 0, 25500, 0
|
||
fuelTrim6loadBins = array, U08, 282,[ 6], { bitStringValue(algorithmUnits , algorithm) }, {fuelLoadRes}, 0.0, 0.0, {fuelLoadMax}, {fuelDecimalRes}
|
||
|
||
fuelTrim7Table = array, U08, 288,[6x6], "%", 1.0, -128, -50, 50, 0
|
||
fuelTrim7rpmBins = array, U08, 324,[ 6], "RPM", 100.0, 0.0, 0, 25500, 0
|
||
fuelTrim7loadBins = array, U08, 330,[ 6], { bitStringValue(algorithmUnits , algorithm) }, {fuelLoadRes}, 0.0, 0.0, {fuelLoadMax}, {fuelDecimalRes}
|
||
|
||
fuelTrim8Table = array, U08, 336,[6x6], "%", 1.0, -128, -50, 50, 0
|
||
fuelTrim8rpmBins = array, U08, 372,[ 6], "RPM", 100.0, 0.0, 0, 25500, 0
|
||
fuelTrim8loadBins = array, U08, 378,[ 6], { bitStringValue(algorithmUnits , algorithm) }, {fuelLoadRes}, 0.0, 0.0, {fuelLoadMax}, {fuelDecimalRes}
|
||
|
||
;--------------------------------------------------
|
||
;CANBUS control and Axillary IO(Page 9)
|
||
;--------------------------------------------------
|
||
page = 9
|
||
enable_secondarySerial = bits, U08, 0, [0:0], "Disable", "Enable"
|
||
intcan_available = bits, U08, 0, [1:1], "Disable", "Enable"
|
||
enable_intcan = bits, U08, 0, [2:2], "Disable", "Enable"
|
||
secondarySerialProtocol = bits, U08, 0, [3:6], "Generic (Fixed List)". "Generic (ini File)". "CAN", "msDroid", "Real Dash", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
|
||
caninput_sel0a = bits, U08, 1, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel0b = bits, U08, 1, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel0extsourcea = bits, U08, 1, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel0extsourceb = bits, U08, 1, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel0extsourcec = bits, U08, 1, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel1a = bits, U08, 2, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel1b = bits, U08, 2, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel1extsourcea = bits, U08, 2, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel1extsourceb = bits, U08, 2, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel1extsourcec = bits, U08, 2, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel2a = bits, U08, 3, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel2b = bits, U08, 3, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel2extsourcea = bits, U08, 3, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel2extsourceb = bits, U08, 3, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel2extsourcec = bits, U08, 3, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel3a = bits, U08, 4, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel3b = bits, U08, 4, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel3extsourcea = bits, U08, 4, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel3extsourceb = bits, U08, 4, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel3extsourcec = bits, U08, 4, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel4a = bits, U08, 5, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel4b = bits, U08, 5, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel4extsourcea = bits, U08, 5, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel4extsourceb = bits, U08, 5, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel4extsourcec = bits, U08, 5, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel5a = bits, U08, 6, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel5b = bits, U08, 6, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel5extsourcea = bits, U08, 6, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel5extsourceb = bits, U08, 6, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel5extsourcec = bits, U08, 6, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel6a = bits, U08, 7, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel6b = bits, U08, 7, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel6extsourcea = bits, U08, 7, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel6extsourceb = bits, U08, 7, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel6extsourcec = bits, U08, 7, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel7a = bits, U08, 8, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel7b = bits, U08, 8, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel7extsourcea = bits, U08, 8, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel7extsourceb = bits, U08, 8, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel7extsourcec = bits, U08, 8, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel8a = bits, U08, 9, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel8b = bits, U08, 9, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel8extsourcea = bits, U08, 9, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel8extsourceb = bits, U08, 9, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel8extsourcec = bits, U08, 9, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel9a = bits, U08, 10, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel9b = bits, U08, 10, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel9extsourcea = bits, U08, 10, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel9extsourceb = bits, U08, 10, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel9extsourcec = bits, U08, 10, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel10a = bits, U08, 11, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel10b = bits, U08, 11, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel10extsourcea = bits, U08, 11, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel10extsourceb = bits, U08, 11, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel10extsourcec = bits, U08, 11, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel11a = bits, U08, 12, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel11b = bits, U08, 12, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel11extsourcea = bits, U08, 12, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel11extsourceb = bits, U08, 12, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel11extsourcec = bits, U08, 12, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel12a = bits, U08, 13, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel12b = bits, U08, 13, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel12extsourcea = bits, U08, 13, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel12extsourceb = bits, U08, 13, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel12extsourcec = bits, U08, 13, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel13a = bits, U08, 14, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel13b = bits, U08, 14, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel13extsourcea = bits, U08, 14, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel13extsourceb = bits, U08, 14, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel13extsourcec = bits, U08, 14, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel14a = bits, U08, 15, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel14b = bits, U08, 15, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel14extsourcea = bits, U08, 15, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel14extsourceb = bits, U08, 15, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel14extsourcec = bits, U08, 15, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_sel15a = bits, U08, 16, [0:1], "Off", "INVALID", "Analog_local", "Digital_local"
|
||
caninput_sel15b = bits, U08, 16, [2:3], "Off", "External Source", "Analog_local", "Digital_local"
|
||
caninput_sel15extsourcea = bits, U08, 16, [5:5], "Via Secondary Serial", "INVALID"
|
||
caninput_sel15extsourceb = bits, U08, 16, [6:6], "Via Secondary Serial", "Via Internal CAN"
|
||
caninput_sel15extsourcec = bits, U08, 16, [7:7], "INVALID", "Via Internal CAN"
|
||
|
||
caninput_source_can_address0 = bits, U16, 17, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address1 = bits, U16, 19, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address2 = bits, U16, 21, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address3 = bits, U16, 23, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address4 = bits, U16, 25, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address5 = bits, U16, 27, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address6 = bits, U16, 29, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address7 = bits, U16, 31, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address8 = bits, U16, 33, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address9 = bits, U16, 35, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address10 = bits, U16, 37, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address11 = bits, U16, 39, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address12 = bits, U16, 41, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address13 = bits, U16, 43, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address14 = bits, U16, 45, [0:15], $CAN_ADDRESS_HEX
|
||
caninput_source_can_address15 = bits, U16, 47, [0:15], $CAN_ADDRESS_HEX
|
||
|
||
caninput_source_start_byte0 = scalar, U08, 49, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte1 = scalar, U08, 50, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte2 = scalar, U08, 51, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte3 = scalar, U08, 52, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte4 = scalar, U08, 53, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte5 = scalar, U08, 54, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte6 = scalar, U08, 55, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte7 = scalar, U08, 56, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte8 = scalar, U08, 57, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte9 = scalar, U08, 58, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte10 = scalar, U08, 59, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte11 = scalar, U08, 60, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte12 = scalar, U08, 61, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte13 = scalar, U08, 62, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte14 = scalar, U08, 63, "", 1, 0, 0, 7, 0
|
||
caninput_source_start_byte15 = scalar, U08, 64, "", 1, 0, 0, 7, 0
|
||
|
||
caninput_source_num_bytes0 = bits, U16, 65, [0:0], "1", "2"
|
||
caninput_source_num_bytes1 = bits, U16, 65, [1:1], "1", "2"
|
||
caninput_source_num_bytes2 = bits, U16, 65, [2:2], "1", "2"
|
||
caninput_source_num_bytes3 = bits, U16, 65, [3:3], "1", "2"
|
||
caninput_source_num_bytes4 = bits, U16, 65, [4:4], "1", "2"
|
||
caninput_source_num_bytes5 = bits, U16, 65, [5:5], "1", "2"
|
||
caninput_source_num_bytes6 = bits, U16, 65, [6:6], "1", "2"
|
||
caninput_source_num_bytes7 = bits, U16, 65, [7:7], "1", "2"
|
||
caninput_source_num_bytes8 = bits, U16, 65, [8:8], "1", "2"
|
||
caninput_source_num_bytes9 = bits, U16, 65, [9:9], "1", "2"
|
||
caninput_source_num_bytes10 = bits, U16, 65, [10:10], "1", "2"
|
||
caninput_source_num_bytes11 = bits, U16, 65, [11:11], "1", "2"
|
||
caninput_source_num_bytes12 = bits, U16, 65, [12:12], "1", "2"
|
||
caninput_source_num_bytes13 = bits, U16, 65, [13:13], "1", "2"
|
||
caninput_source_num_bytes14 = bits, U16, 65, [14:14], "1", "2"
|
||
caninput_source_num_bytes15 = bits, U16, 65, [15:15], "1", "2"
|
||
caninputEndianess = bits, U08, 67, [0:0], "Big-Endian", "Little-Endian"
|
||
|
||
unused10_68 = scalar, U08, 68, "", 1, 0, 0, 255, 0
|
||
|
||
enable_intcandata_out = bits, U08, 69, [0:0], "Off", "On"
|
||
canoutput_sel0 = bits, U08, 70, [0:0], "Off", "On"
|
||
canoutput_sel1 = bits, U08, 71, [0:0], "Off", "On"
|
||
canoutput_sel2 = bits, U08, 72, [0:0], "Off", "On"
|
||
canoutput_sel3 = bits, U08, 73, [0:0], "Off", "On"
|
||
canoutput_sel4 = bits, U08, 74, [0:0], "Off", "On"
|
||
canoutput_sel5 = bits, U08, 75, [0:0], "Off", "On"
|
||
canoutput_sel6 = bits, U08, 76, [0:0], "Off", "On"
|
||
canoutput_sel7 = bits, U08, 77, [0:0], "Off", "On"
|
||
canoutput_param_group = array , U16, 78, [ 8], "", 1, 0, 0, 65535, 0
|
||
canoutput_param_start_byte0 = bits, U08, 94, [0:2], "0", "1", "2", "3", "4", "5", "6", "7"
|
||
canoutput_param_start_byte1 = bits, U08, 95, [0:2], "0", "1", "2", "3", "4", "5", "6", "7"
|
||
canoutput_param_start_byte2 = bits, U08, 96, [0:2], "0", "1", "2", "3", "4", "5", "6", "7"
|
||
canoutput_param_start_byte3 = bits, U08, 97, [0:2], "0", "1", "2", "3", "4", "5", "6", "7"
|
||
canoutput_param_start_byte4 = bits, U08, 98, [0:2], "0", "1", "2", "3", "4", "5", "6", "7"
|
||
canoutput_param_start_byte5 = bits, U08, 99, [0:2], "0", "1", "2", "3", "4", "5", "6", "7"
|
||
canoutput_param_start_byte6 = bits, U08, 100, [0:2], "0", "1", "2", "3", "4", "5", "6", "7"
|
||
canoutput_param_start_byte7 = bits, U08, 101, [0:2], "0", "1", "2", "3", "4", "5", "6", "7"
|
||
canoutput_param_num_bytes0 = bits, U08, 102, [0:1], "INVALID", "1", "2", "INVALID"
|
||
canoutput_param_num_bytes1 = bits, U08, 103, [0:1], "INVALID", "1", "2", "INVALID"
|
||
canoutput_param_num_bytes2 = bits, U08, 104, [0:1], "INVALID", "1", "2", "INVALID"
|
||
canoutput_param_num_bytes3 = bits, U08, 105, [0:1], "INVALID", "1", "2", "INVALID"
|
||
canoutput_param_num_bytes4 = bits, U08, 106, [0:1], "INVALID", "1", "2", "INVALID"
|
||
canoutput_param_num_bytes5 = bits, U08, 107, [0:1], "INVALID", "1", "2", "INVALID"
|
||
canoutput_param_num_bytes6 = bits, U08, 108, [0:1], "INVALID", "1", "2", "INVALID"
|
||
canoutput_param_num_bytes7 = bits, U08, 109, [0:1], "INVALID", "1", "2", "INVALID"
|
||
|
||
unused10_110 = scalar, U08, 110, "", 1, 0, 0, 255, 0
|
||
unused10_111 = scalar, U08, 111, "", 1, 0, 0, 255, 0
|
||
egoMAPMax = scalar, U08, 112, "kPa", 2.0, 0.0, 2.0, 511.0, 0
|
||
egoMAPMin = scalar, U08, 113, "kPa", 2.0, 0.0, 2.0, 511.0, 0
|
||
|
||
speeduino_tsCanId = bits, U08, 114, [0:3], $tsCanId_list
|
||
true_address = bits, U16, 115, [0:15], $CAN_ADDRESS_HEX
|
||
realtime_base_address = bits, U16, 117, [0:15], $CAN_ADDRESS_HEX
|
||
obd_address = bits, U16, 119, [0:15], $CAN_ADDRESS_HEX
|
||
|
||
Auxin0pina = bits, U08, 121, [0:5], $ANALOG_PIN
|
||
Auxin1pina = bits, U08, 122, [0:5], $ANALOG_PIN
|
||
Auxin2pina = bits, U08, 123, [0:5], $ANALOG_PIN
|
||
Auxin3pina = bits, U08, 124, [0:5], $ANALOG_PIN
|
||
Auxin4pina = bits, U08, 125, [0:5], $ANALOG_PIN
|
||
Auxin5pina = bits, U08, 126, [0:5], $ANALOG_PIN
|
||
Auxin6pina = bits, U08, 127, [0:5], $ANALOG_PIN
|
||
Auxin7pina = bits, U08, 128, [0:5], $ANALOG_PIN
|
||
Auxin8pina = bits, U08, 129, [0:5], $ANALOG_PIN
|
||
Auxin9pina = bits, U08, 130, [0:5], $ANALOG_PIN
|
||
Auxin10pina = bits, U08, 131, [0:5], $ANALOG_PIN
|
||
Auxin11pina = bits, U08, 132, [0:5], $ANALOG_PIN
|
||
Auxin12pina = bits, U08, 133, [0:5], $ANALOG_PIN
|
||
Auxin13pina = bits, U08, 134, [0:5], $ANALOG_PIN
|
||
Auxin14pina = bits, U08, 135, [0:5], $ANALOG_PIN
|
||
Auxin15pina = bits, U08, 136, [0:5], $ANALOG_PIN
|
||
|
||
Auxin0pinb = bits, U08, 137, [0:5], $DIGITAL_PIN
|
||
Auxin1pinb = bits, U08, 138, [0:5], $DIGITAL_PIN
|
||
Auxin2pinb = bits, U08, 139, [0:5], $DIGITAL_PIN
|
||
Auxin3pinb = bits, U08, 140, [0:5], $DIGITAL_PIN
|
||
Auxin4pinb = bits, U08, 141, [0:5], $DIGITAL_PIN
|
||
Auxin5pinb = bits, U08, 142, [0:5], $DIGITAL_PIN
|
||
Auxin6pinb = bits, U08, 143, [0:5], $DIGITAL_PIN
|
||
Auxin7pinb = bits, U08, 144, [0:5], $DIGITAL_PIN
|
||
Auxin8pinb = bits, U08, 145, [0:5], $DIGITAL_PIN
|
||
Auxin9pinb = bits, U08, 146, [0:5], $DIGITAL_PIN
|
||
Auxin10pinb = bits, U08, 147, [0:5], $DIGITAL_PIN
|
||
Auxin11pinb = bits, U08, 148, [0:5], $DIGITAL_PIN
|
||
Auxin12pinb = bits, U08, 149, [0:5], $DIGITAL_PIN
|
||
Auxin13pinb = bits, U08, 150, [0:5], $DIGITAL_PIN
|
||
Auxin14pinb = bits, U08, 151, [0:5], $DIGITAL_PIN
|
||
Auxin15pinb = bits, U08, 152, [0:5], $DIGITAL_PIN
|
||
|
||
iacStepperInv = bits, U08, 153, [0:0], "No", "Yes"
|
||
iacCoolTime = bits, U08, 153, [1:3], "0", "1", "2", "3", "4", "5", "6","INVALID"
|
||
|
||
boostByGearEnabled = bits, U08, 153, [4:5], "Off", "Multiplied %", "Constant limit", "INVALID"
|
||
|
||
blankfield = bits, U08, 153, [6:6], "",""
|
||
iacStepperPower = bits, U08, 153, [7:7], "When Active", "Always"
|
||
|
||
iacMaxSteps = scalar, U08, 154, "Steps", 3, 0, 0, {iacStepHome-3}, 0
|
||
idleAdvStartDelay = scalar, U08, 155, "S", 0.1, 0.0, 0.0, 25.5, 1
|
||
|
||
boostByGear1 = scalar, U08, 156, { bitStringValue(boostByGearLabels , boostByGearEnabled) }, 2.0, 0.0, 0.0, {boostTableLimit}, 0
|
||
boostByGear2 = scalar, U08, 157, { bitStringValue(boostByGearLabels , boostByGearEnabled) }, 2.0, 0.0, 0.0, {boostTableLimit}, 0
|
||
boostByGear3 = scalar, U08, 158, { bitStringValue(boostByGearLabels , boostByGearEnabled) }, 2.0, 0.0, 0.0, {boostTableLimit}, 0
|
||
boostByGear4 = scalar, U08, 159, { bitStringValue(boostByGearLabels , boostByGearEnabled) }, 2.0, 0.0, 0.0, {boostTableLimit}, 0
|
||
boostByGear5 = scalar, U08, 160, { bitStringValue(boostByGearLabels , boostByGearEnabled) }, 2.0, 0.0, 0.0, {boostTableLimit}, 0
|
||
boostByGear6 = scalar, U08, 161, { bitStringValue(boostByGearLabels , boostByGearEnabled) }, 2.0, 0.0, 0.0, {boostTableLimit}, 0
|
||
|
||
PWMFanDuty = array, U08, 162, [4], "%", 0.5, 0, 0, 100, 1
|
||
|
||
hardRevMode = bits, U08, 166, [0:1], "Off", "Fixed", "Coolant based", "INVALID"
|
||
coolantProtRPM = array, U08, 167, [6], "RPM", 100.0, 0.0, 100.0, 25500, 0
|
||
#if CELSIUS
|
||
coolantProtTemp = array, U08, 173, [6], "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
coolantProtTemp = array, U08, 173, [6], "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
|
||
unused10_179 = scalar, U08, 179, "", 1, 0, 0, 255, 0
|
||
|
||
dfcoTaperTime = scalar, U08, 180, "S", 0.1, 0.0, 0.0, 25.5, 1
|
||
dfcoTaperFuel = scalar, U08, 181, "%", 1.0, 0.0, 0, 255, 0
|
||
dfcoTaperAdvance = scalar, U08, 182, "deg", 1.0, 0.0, 0, 40, 0
|
||
dfcoTaperEnable = bits, U08, 183, [0:0], "Off", "On"
|
||
unused10_182 = bits, U08, 183, [1:7], ""
|
||
|
||
unused10_184 = scalar, U08, 184, "", 1, 0, 0, 255, 0
|
||
|
||
; AFR engine protection
|
||
afrProtectEnabled = bits, U08, 185, [0:1], "Off", "Fixed mode", "Table mode", "INVALID"
|
||
afrProtectMAP = scalar, U08, 186, "kPa", 2.0, 0.0, 0.0, 511.0, 0 ; 8 bit value, 1 byte
|
||
afrProtectRPM = scalar, U08, 187, "RPM", 100, 0.0, 100, 25500, 0 ; 8 bit value, 1 byte
|
||
afrProtectTPS = scalar, U08, 188, "%", 0.5, 0.0, 0.0, 100.0, 1 ; 8 bit value, 1 byte
|
||
afrProtectDeviationLambda = scalar, U08, 189, "Lambda", {0.1 / stoich}, 0.0, 0.00, 25.5, 3 ; 8 bit value, 1 byte
|
||
afrProtectDeviation = scalar, U08, lastOffset, "AFR", 0.1, 0.0, 0.0, 25.5, 1 ; 8 bit value, 1 byte
|
||
afrProtectCutTime = scalar, U08, 190, "seconds", 0.1, 0.0, 0.0, 2.5, 1 ; 8 bit value, 1 byte
|
||
afrProtectReactivationTPS = scalar, U08, 191, "%", 0.5, 0.0, 0.0, 100.0, 1 ; 8 bit value, 1 byte
|
||
|
||
page = 10
|
||
#if CELSIUS
|
||
crankingEnrichBins = array, U08, 0, [4], "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
crankingEnrichBins = array, U08, 0, [4], "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
crankingEnrichValues= array, U08, 4, [4], "%", 5.0, 0.0, 0, 1275, 0 ; Values for the cranking enrichment curve
|
||
|
||
rotaryType = bits , U08, 8, [0:1], "FC", "FD", "RX8", "INVALID"
|
||
stagingEnabled = bits , U08, 8, [2:2], "Off","On"
|
||
stagingMode = bits , U08, 8, [3:3], "Table","Automatic"
|
||
EMAPPin = bits, U08, 8, [4:7], "A0", "A1", "A2", "A3", "A4", "A5", "A6", "A7", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15"
|
||
|
||
rotarySplitValues = array, U08, 9, [8], "degrees", 1.0, 0.0, 0.0, 40, 0
|
||
rotarySplitBins = array, U08, 17, [8], { bitStringValue(algorithmUnits , ignAlgorithm) }, {ignLoadRes}, 0.0, 0.0, {ignLoadMax}, {ignDecimalRes}
|
||
|
||
boostSens = scalar, U16, 25, "", 1, 0, 0, 5000, 0
|
||
boostIntv = scalar, U08, 27, "ms", 1, 0, 0, 250, 0
|
||
stagedInjSizePri = scalar, U16, 28, "cc/min", 1, 0, 0, 1500, 0
|
||
stagedInjSizeSec = scalar, U16, 30, "cc/min", 1, 0, 0, 1500, 0
|
||
lnchCtrlTPS = scalar, U08, 32, "%TPS", 0.5, 0, 0, 100.0, 1
|
||
|
||
flexBoostBins = array, U08, 33, [6], "%", 1.0, 0.0, 0.0, 250.0, 0
|
||
; The boost range is obviously arbitrary since int16_t has ~32k in both directions
|
||
flexBoostAdj = array, S16, 39, [6], "kPa", 1.0, 0.0, -500.0, 500.0, 0
|
||
flexFuelBins = array, U08, 51, [6], "%", 1.0, 0.0, 0.0, 250.0, 0
|
||
flexFuelAdj = array, U08, 57, [6], "%", 1.0, 0.0, 0.0, 250.0, 0
|
||
flexAdvBins = array, U08, 63, [6], "%", 1.0, 0.0, 0.0, 250.0, 0
|
||
flexAdvAdj = array, U08, 69, [6], "Deg", 1.0, -40, -40, 215.0, 0
|
||
|
||
n2o_enable = bits , U08, 75, [0:1], "Off","1 Stage","2 stage", "INVALID"
|
||
n2o_arming_pin = bits , U08, 75, [2:7], $IO_Pins_no_def
|
||
#if CELSIUS
|
||
n2o_minCLT = scalar, U08, 76, "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
n2o_minCLT = scalar, U08, 76, "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
n2o_maxMAP = scalar, U08, 77, "kPa", 2.0, 0.0, 0.0, 511.0, 0
|
||
n2o_minTPS = scalar, U08, 78, "%TPS", 0.5, 0.0, 0.0, 100.0, 1
|
||
|
||
n2o_maxAFR = scalar, U08, 79, "AFR", 0.1 , 0, 0, 25.5 , 1
|
||
n2o_maxLambda = scalar, U08, lastOffset, "Lambda", {0.1 / stoich}, 0, 0, {25.5 / stoich}, 3
|
||
|
||
n2o_stage1_pin = bits , U08, 80, [0:5], $IO_Pins_no_def
|
||
n2o_pin_polarity = bits , U08, 80, [6:6], "HIGH", "LOW"
|
||
n2o_unused = bits , U08, 80, [7:7], "No", "Yes"
|
||
n2o_stage1_minRPM = scalar, U08, 81, "RPM", 100, 0.0, 1000, 10000, 0
|
||
n2o_stage1_maxRPM = scalar, U08, 82, "RPM", 100, 0.0, 1000, 10000, 0
|
||
n2o_stage1_adderMin = scalar, U08, 83, "ms", 0.1, 0, 0, 25.5, 1
|
||
n2o_stage1_adderMax = scalar, U08, 84, "ms", 0.1, 0, 0, 25.5, 1
|
||
n2o_stage1_retard = scalar, U08, 85, "Deg", 1.0, 0.0, 0.0, 40.0, 0
|
||
|
||
n2o_stage2_pin = bits , U08, 86, [0:5], $IO_Pins_no_def
|
||
n2o_stage2_unused = bits , U08, 86, [6:7], "No", "Yes", "INVALID", "INVALID"
|
||
n2o_stage2_minRPM = scalar, U08, 87, "RPM", 100, 0.0, 1000, 10000, 0
|
||
n2o_stage2_maxRPM = scalar, U08, 88, "RPM", 100, 0.0, 1000, 10000, 0
|
||
n2o_stage2_adderMin = scalar, U08, 89, "ms", 0.1, 0, 0, 32, 1
|
||
n2o_stage2_adderMax = scalar, U08, 90, "ms", 0.1, 0, 0, 32, 1
|
||
n2o_stage2_retard = scalar, U08, 91, "Deg", 1.0, 0.0, 0.0, 40.0, 0
|
||
|
||
; Knock settings
|
||
knock_mode = bits , U08, 92, [0:1], "Off","Digital","Analog", "INVALID"
|
||
knock_pin = bits , U08, 92, [2:7], "INVALID", "INVALID", "2", "3", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "18", "19", "20", "21", "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", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
|
||
knock_trigger = bits , U08, 93, [0:0], "HIGH", "LOW"
|
||
knock_pullup = bits , U08, 93, [1:1], "Off", "Internal pullup"
|
||
knock_limiterDisable= bits , U08, 93, [2:2], "No", "Yes"
|
||
knock_unused = bits , U08, 93, [3:4], "INVALID", "1", "2", "3"
|
||
|
||
;Knock detection / filters
|
||
knock_count = bits , U08, 93, [5:7], "INVALID", "1", "2", "3", "4", "5", "6", "7"
|
||
knock_threshold = scalar, U08, 94, "Volts", 0.1, 0.0, 0.0, 5.0, 1
|
||
knock_maxMAP = scalar, U08, 95, "kPa", 2.0, 0.0, 0.0, 511.0, 0
|
||
knock_maxRPM = scalar, U08, 96, "RPM", 100.0, 0.0, 0, 10000, 0
|
||
knock_window_rpms = array, U08, 97, [6], "RPM", 100.0, 0.0, 0, 10000, 0
|
||
knock_window_angle = array, U08, 103, [6], "deg", 1.0, -50, -50, 100, 0
|
||
knock_window_dur = array, U08, 109, [6], "deg", 1.0, 0.0, 0, 100, 0 ;Knock window duration
|
||
|
||
;Retard and recovery
|
||
knock_maxRetard = scalar, U08, 115, "Deg", 1.0, 0.0, 0.0, 50, 0
|
||
knock_firstStep = scalar, U08, 116, "Deg", 1.0, 0.0, 0.0, 50, 0
|
||
knock_stepSize = scalar, U08, 117, "Deg", 1.0, 0.0, 0.0, 50, 0
|
||
knock_stepTime = scalar, U08, 118, "Sec", 0.1, 0.0, 0.0, 2.5, 1
|
||
|
||
knock_duration = scalar, U08, 119, "Sec", 0.1, 0.0, 0.0, 2.5, 1 ;//Time after knock retard starts that it should start recovering
|
||
knock_recoveryStepTime = scalar, U08, 120, "Sec", 0.1, 0.0, 0.0, 2.5, 1
|
||
knock_recoveryStep = scalar, U08, 121, "Deg", 1.0, 0.0, 0.0, 50, 0
|
||
|
||
;Things for the 2nd fuel table
|
||
fuel2Algorithm = bits, U08, 122, [0:2], $loadSourceNames
|
||
fuel2Mode = bits, U08, 122, [3:5], "Off", "Multiplied %", "Added", "Switched - Conditional", "Switched - Input based","INVALID","INVALID","INVALID"
|
||
fuel2SwitchVariable = bits, U08, 122, [6:7], "RPM", "MAP", "TPS", "ETH%"
|
||
fuel2SwitchValue = scalar, U16, 123, { bitStringValue(fuel2SwitchUnits, fuel2SwitchVariable) }, {(fuel2SwitchVariable == 2) ? 0.5 : 1.0}, 0.0, 0.0, 9000, {(fuel2SwitchVariable == 2) ? 1 : 0}
|
||
fuel2InputPin = bits , U08, 125, [0:5], $IO_Pins_no_def
|
||
fuel2InputPolarity = bits , U08, 125, [6:6], "LOW", "HIGH"
|
||
fuel2InputPullup = bits , U08, 125, [7:7], "No", "Yes"
|
||
|
||
;All related to the closed loop VVT control
|
||
vvtCLholdDuty = scalar, U08, 126, "%", 0.5, 0.0, 0.0, 100.0, 1
|
||
vvtCLKP = scalar, U08, 127, "%", 0.03125, 0.0, 0.0, 7.96, 2 ; * ( 1 byte)
|
||
vvtCLKI = scalar, U08, 128, "%", 0.03125, 0.0, 0.0, 7.96, 2 ; * ( 1 byte)
|
||
vvtCLKD = scalar, U08, 129, "%", 0.00781, 0.0, 0.0, 1.99, 3 ; * ( 1 byte)
|
||
vvtCL0DutyAng = scalar, S16, 130, "deg", 1.0, 0.0, -360.0, 360.0, 0 ; * ( 2 bytes)
|
||
vvtCLMinAng = scalar, U08, 132, "deg", 0.5, 0.0, 0.0, 100.0, 0 ; * ( 1 byte)
|
||
vvtCLMaxAng = scalar, U08, 133, "deg", 0.5, 0.0, 0.0, 100.0, 0 ; * ( 1 byte)
|
||
|
||
crankingEnrichTaper = scalar, U08, 134, "s", 0.1, 0.0, 0.0, 25.5, 1
|
||
|
||
;Pressure transducers
|
||
fuelPressureEnable = bits, U08, 135, [0:0], "Off", "On"
|
||
oilPressureEnable = bits, U08, 135, [1:1], "Off", "On"
|
||
oilPressureProtEnbl = bits, U08, 135, [2:2], "Off", "On"
|
||
oilPressurePin = bits, U08, 135, [3:7], "A0", "A1", "A2", "A3", "A4", "A5", "A6", "A7", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "A16", "A17", "A18", "A19", "A20", "A21", "A22", INVALID, INVALID, INVALID, INVALID, INVALID, INVALID, INVALID, INVALID, INVALID
|
||
|
||
fuelPressurePin = bits, U08, 136, [0:4], "A0", "A1", "A2", "A3", "A4", "A5", "A6", "A7", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "A16", "A17", "A18", "A19", "A20", "A21", "A22", INVALID, INVALID, INVALID, INVALID, INVALID, INVALID, INVALID, INVALID, INVALID
|
||
|
||
#if pressure_bar
|
||
fuelPressureMin = scalar, S08, 137, "BAR", 0.0698, 0.0, -7.0, 8.9, 2 ;Note signed int
|
||
fuelPressureMax = scalar, U08, 138, "BAR", 0.0698, 0.0, 0.0, 17.8, 2
|
||
oilPressureMin = scalar, S08, 139, "BAR", 0.0698, 0.0, -7.0, 8.9, 2 ;Note signed int
|
||
oilPressureMax = scalar, U08, 140, "BAR", 0.0698, 0.0, 0.0, 17.8, 2
|
||
oilPressureProtMins = array, U08, 145, [ 4], "BAR", 0.0698, 0.0, 0.0, 17.8, 2
|
||
#else
|
||
fuelPressureMin = scalar, S08, 137, "psi", 1.0, 0.0, -100, 127, 0 ;Note signed int
|
||
fuelPressureMax = scalar, U08, 138, "psi", 1.0, 0.0, 0.0, 255, 0
|
||
oilPressureMin = scalar, S08, 139, "psi", 1.0, 0.0, -100, 127, 0 ;Note signed int
|
||
oilPressureMax = scalar, U08, 140, "psi", 1.0, 0.0, 0.0, 255, 0
|
||
oilPressureProtMins = array, U08, 145, [ 4], "psi", 1.0, 0.0, 0.0, 255, 0
|
||
#endif
|
||
oilPressureProtRPM = array, U08, 141, [ 4], "RPM", 100.0, 0.0, 100.0, 25500, 0
|
||
|
||
wmiEnabled = bits, U08, 149, [0:0], "Off", "On"
|
||
wmiMode = bits, U08, 149, [1:2], "Simple", "Proportional", "Openloop", "Closedloop"
|
||
|
||
wmiAdvEnabled = bits, U08, 149, [7:7], "Off", "On"
|
||
|
||
wmiTPS = scalar, U08, 150, "%TPS", 0.5, 0.0, 0.0, 100.0, 1
|
||
wmiRPM = scalar, U08, 151, "RPM", 100.0, 0.0, 0, 10000, 0
|
||
wmiMAP = scalar, U08, 152, "kPa", 2.0, 0.0, 0.0, 511.0, 0
|
||
wmiMAP2 = scalar, U08, 153, "kPa", 2.0, 0.0, 0.0, 511.0, 0
|
||
#if CELSIUS
|
||
wmiIAT = scalar, U08, 154, "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
wmiIAT = scalar, U08, 154, "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
wmiOffset = scalar, S08, 155, "ms", 1.0, 0.0, -12.7, 12.7, 0 ;Note signed int
|
||
|
||
wmiIndicatorEnabled = bits, U08, 156, [0:0], "Off", "On"
|
||
wmiIndicatorPin = bits, U08, 156, [1:6], "Board Default", $DIGITAL_PIN
|
||
wmiIndicatorPolarity = bits , U08, 156, [7:7], "Normal", "Inverted"
|
||
|
||
wmiEmptyEnabled = bits, U08, 157, [0:0], "Off", "On"
|
||
wmiEmptyPin = bits, U08, 157, [1:6], "Board Default", $DIGITAL_PIN
|
||
wmiEmptyPolarity = bits , U08, 157, [7:7], "Normal", "Inverted"
|
||
|
||
wmiEnabledPin = bits, U08, 158, [0:5], "Board Default", $DIGITAL_PIN
|
||
|
||
wmiAdvBins = array, U08, 159, [6], "kPa", 2.0, 0.0, 0.0, 511.0, 0
|
||
wmiAdvAdj = array, U08, 165, [6], "Deg", 1.0, -40, -40, 40.0, 0
|
||
|
||
vvtCLminDuty = scalar, U08, 171, "%", 0.5, 0.0, 0.0, 100.0, 1 ; Minimum and maximum duty cycles when using closed loop
|
||
vvtCLmaxDuty = scalar, U08, 172, "%", 0.5, 0.0, 0.0, 100.0, 1
|
||
|
||
vvt2Pin = bits , U08, 173, [0:5], "Board Default", "INVALID", "INVALID", "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", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID"
|
||
vvt2Enabled = bits, U08, 173, [6:6], "Off", "On"
|
||
TrigEdgeThrd = bits, U08, 173, [7:7], "RISING", "FALLING"
|
||
|
||
;Fuel temperature correction
|
||
#if CELSIUS
|
||
fuelTempBins = array, U08, 174, [6], "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
fuelTempBins = array, U08, 174, [6], "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
fuelTempValues = array, U08, 180, [6], "%", 1.0, 0.0, 0, 255, 0
|
||
|
||
;Things for the 2nd spark table
|
||
spark2Algorithm = bits, U08, 186, [0:2], $loadSourceNames
|
||
spark2Mode = bits, U08, 186, [3:5], "Off", "Multiplied %", "Added", "Switched - Conditional", "Switched - Input based","INVALID","INVALID","INVALID"
|
||
spark2SwitchVariable = bits, U08, 186, [6:7], "RPM", "MAP", "TPS", "ETH%"
|
||
spark2SwitchValue = scalar, U16, 187, { bitStringValue(fuel2SwitchUnits, spark2SwitchVariable) }, {(spark2SwitchVariable == 2) ? 0.5 : 1.0}, 0.0, 0.0, 9000, {(spark2SwitchVariable == 2) ? 1 : 0}
|
||
spark2InputPin = bits , U08, 189, [0:5], $IO_Pins_no_def
|
||
spark2InputPolarity = bits , U08, 189, [6:6], "LOW", "HIGH"
|
||
spark2InputPullup = bits , U08, 189, [7:7], "No", "Yes"
|
||
|
||
oilPressureProtTime = scalar, U08, 190, "seconds", 0.1, 0.0, 0.0, 25, 1
|
||
|
||
unused11_190_191 = array, U08, 191, [1], "RPM", 100.0, 0.0, 100, 25500, 0
|
||
|
||
;Page 11 is the fuel map and axis bins only
|
||
page = 11
|
||
; 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
|
||
veTable2 = array, U08, 0, [16x16],"%", 1.0, 0.0, 0.0, 255.0, 0
|
||
fuelRPM2Bins = array, U08, 256, [ 16], "RPM", 100.0, 0.0, 0.0, 25500.0, 0
|
||
fuelLoad2Bins = array, U08, 272, [ 16], { bitStringValue(algorithmUnits , fuel2Algorithm) }, {fuel2LoadRes}, 0.0, 0.0, { fuel2LoadMax }, {fuel2DecimalRes}
|
||
|
||
|
||
;--------------------------------------------------
|
||
;Water methanol injection and vvt2 maps (Page 12)
|
||
;--------------------------------------------------
|
||
page = 12
|
||
wmiTable = array, U08, 0,[8x8], "%",{wmiLoadRes}, 0.0, 0.0, {wmiLoadMax}, 1
|
||
rpmBinsWMI = array, U08, 64,[ 8], "RPM", 100.0, 0.0, 100, 25500, 0
|
||
mapBinsWMI = array, U08, 72,[ 8], "kPa", 2.0, 0.0, 0.0, 511.0, 0
|
||
vvt2Table = array, U08, 80,[8x8], "%", 0.5, 0.0, 0, 100, 1
|
||
rpmBinsVVT2 = array, U08, 144,[ 8], "RPM", 100.0, 0.0, 100, 25500, 0
|
||
loadBinsVVT2 = array, U08, 152,[ 8], { bitStringValue(algorithmUnits , vvtLoadSource) }, {vvtLoadRes}, 0.0, 0.0, {vvtLoadMax}, {vvtDecimalRes}
|
||
dwellTable = array, U08, 160,[4x4], "ms", 0.1, 0.0, 0.1, 8.0, 1
|
||
rpmBinsDwell = array, U08, 176,[ 4], "RPM", 100.0, 0.0, 100, 25500, 0
|
||
loadBinsDwell = array, U08, 180,[ 4], { bitStringValue(algorithmUnits , ignAlgorithm) }, {ignLoadRes}, 0.0, 0.0, {ignLoadMax}, {ignDecimalRes}
|
||
|
||
;Page 13 is the programmable outputs
|
||
page = 13
|
||
outputInverted0 = bits, U08, 0, [0:0], "Active high", "Active low"
|
||
outputInverted1 = bits, U08, 0, [1:1], "Active high", "Active low"
|
||
outputInverted2 = bits, U08, 0, [2:2], "Active high", "Active low"
|
||
outputInverted3 = bits, U08, 0, [3:3], "Active high", "Active low"
|
||
outputInverted4 = bits, U08, 0, [4:4], "Active high", "Active low"
|
||
outputInverted5 = bits, U08, 0, [5:5], "Active high", "Active low"
|
||
outputInverted6 = bits, U08, 0, [6:6], "Active high", "Active low"
|
||
outputInverted7 = bits, U08, 0, [7:7], "Active high", "Active low"
|
||
kindOfLimiting0 = bits, U08, 1, [0:0], "Minimum", "Maximum"
|
||
kindOfLimiting1 = bits, U08, 1, [1:1], "Minimum", "Maximum"
|
||
kindOfLimiting2 = bits, U08, 1, [2:2], "Minimum", "Maximum"
|
||
kindOfLimiting3 = bits, U08, 1, [3:3], "Minimum", "Maximum"
|
||
kindOfLimiting4 = bits, U08, 1, [4:4], "Minimum", "Maximum"
|
||
kindOfLimiting5 = bits, U08, 1, [5:5], "Minimum", "Maximum"
|
||
kindOfLimiting6 = bits, U08, 1, [6:6], "Minimum", "Maximum"
|
||
kindOfLimiting7 = bits, U08, 1, [7:7], "Minimum", "Maximum"
|
||
outputPin = array, U08, 2, [ 8], "", 1.0, 0.0, 0.0, 255.0, 0
|
||
outputPin0 = bits, U08, 2, [0:7], $comp_IO_Pins
|
||
outputPin1 = bits, U08, 3, [0:7], $comp_IO_Pins
|
||
outputPin2 = bits, U08, 4, [0:7], $comp_IO_Pins
|
||
outputPin3 = bits, U08, 5, [0:7], $comp_IO_Pins
|
||
outputPin4 = bits, U08, 6, [0:7], $comp_IO_Pins
|
||
outputPin5 = bits, U08, 7, [0:7], $comp_IO_Pins
|
||
outputPin6 = bits, U08, 8, [0:7], $comp_IO_Pins
|
||
outputPin7 = bits, U08, 9, [0:7], $comp_IO_Pins
|
||
outputDelay = array, U08, 10, [ 8], "S", 0.1, 0.0, 0.0, 25.5, 1
|
||
firstDataIn = array, U08, 18, [ 8], "", 1.0, 0.0, 0.0, 255.0, 0
|
||
firstDataIn0= bits, U08, 18, [0:7], $fullStatus_def
|
||
firstDataIn1= bits, U08, 19, [0:7], $fullStatus_def
|
||
firstDataIn2= bits, U08, 20, [0:7], $fullStatus_def
|
||
firstDataIn3= bits, U08, 21, [0:7], $fullStatus_def
|
||
firstDataIn4= bits, U08, 22, [0:7], $fullStatus_def
|
||
firstDataIn5= bits, U08, 23, [0:7], $fullStatus_def
|
||
firstDataIn6= bits, U08, 24, [0:7], $fullStatus_def
|
||
firstDataIn7= bits, U08, 25, [0:7], $fullStatus_def
|
||
secondDataIn = array, U08, 26, [ 8], "", 1.0, 0.0, 0.0, 255.0, 0
|
||
secondDataIn0= bits, U08, 26, [0:7], $fullStatus_def
|
||
secondDataIn1= bits, U08, 27, [0:7], $fullStatus_def
|
||
secondDataIn2= bits, U08, 28, [0:7], $fullStatus_def
|
||
secondDataIn3= bits, U08, 29, [0:7], $fullStatus_def
|
||
secondDataIn4= bits, U08, 30, [0:7], $fullStatus_def
|
||
secondDataIn5= bits, U08, 31, [0:7], $fullStatus_def
|
||
secondDataIn6= bits, U08, 32, [0:7], $fullStatus_def
|
||
secondDataIn7= bits, U08, 33, [0:7], $fullStatus_def
|
||
outputTimeLimit = array, U08, 34, [ 8], "S", 0.1, 0.0, 0.0, 25.5, 1
|
||
unused13_35_49 = array, U08, 42, [ 8], "%", 1.0, 0.0, 0.0, 100.0, 0
|
||
firstTarget = array, S16, 50, [ 8], "", 1.0, 0.0, -32768.0, 32768.0, 0
|
||
secondTarget = array, S16, 66, [ 8], "", 1.0, 0.0, -32768.0, 32768.0, 0
|
||
firstCompType0 = bits, U08, 82, [0:2], $comparator_def
|
||
secondCompType0 = bits, U08, 82, [3:5], $comparator_def
|
||
bitwise0 = bits, U08, 82, [6:7], $bitwise_def
|
||
firstCompType1 = bits, U08, 83, [0:2], $comparator_def
|
||
secondCompType1 = bits, U08, 83, [3:5], $comparator_def
|
||
bitwise1 = bits, U08, 83, [6:7], $bitwise_def
|
||
firstCompType2 = bits, U08, 84, [0:2], $comparator_def
|
||
secondCompType2 = bits, U08, 84, [3:5], $comparator_def
|
||
bitwise2 = bits, U08, 84, [6:7], $bitwise_def
|
||
firstCompType3 = bits, U08, 85, [0:2], $comparator_def
|
||
secondCompType3 = bits, U08, 85, [3:5], $comparator_def
|
||
bitwise3 = bits, U08, 85, [6:7], $bitwise_def
|
||
firstCompType4 = bits, U08, 86, [0:2], $comparator_def
|
||
secondCompType4 = bits, U08, 86, [3:5], $comparator_def
|
||
bitwise4 = bits, U08, 86, [6:7], $bitwise_def
|
||
firstCompType5 = bits, U08, 87, [0:2], $comparator_def
|
||
secondCompType5 = bits, U08, 87, [3:5], $comparator_def
|
||
bitwise5 = bits, U08, 87, [6:7], $bitwise_def
|
||
firstCompType6 = bits, U08, 88, [0:2], $comparator_def
|
||
secondCompType6 = bits, U08, 88, [3:5], $comparator_def
|
||
bitwise6 = bits, U08, 88, [6:7], $bitwise_def
|
||
firstCompType7 = bits, U08, 89, [0:2], $comparator_def
|
||
secondCompType7 = bits, U08, 89, [3:5], $comparator_def
|
||
bitwise7 = bits, U08, 89, [6:7], $bitwise_def
|
||
candID = array, U16, 90, [ 8], "", 1.0, 0.0, 0.0, 255.0, 0
|
||
unused12_106_115= array, U08, 106, [ 10], "%", 1.0, 0.0, 0.0, 255, 0
|
||
|
||
;RTC and onboard logging stuff
|
||
onboard_log_csv_separator = bits, U08, 116, [0:1], ";", ",", "tab", "space"
|
||
onboard_log_file_style = bits, U08, 116, [2:3], "Disabled", "CSV", "INVALID", "INVALID" ;Future maybe more file types.
|
||
onboard_log_file_rate = bits, U08, 116, [4:5], "1Hz", "4Hz", "10Hz", "30Hz"
|
||
onboard_log_filenaming = bits, U08, 116, [6:7], "Overwrite", "Date-time", "Sequential", "INVALID"
|
||
onboard_log_storage = bits, U08, 117, [0:1], "sd-card", "INVALID", "INVALID", "INVALID" ;In the future maybe an onboard spi flash can be used, or switch between SDIO vs SPI sd card interfaces.
|
||
onboard_log_trigger_boot = bits, U08, 117, [2:2], "Disabled", "On boot"
|
||
onboard_log_trigger_RPM = bits, U08, 117, [3:3], "Disabled", "Enabled"
|
||
onboard_log_trigger_prot = bits, U08, 117, [4:4], "Disabled", "Enabled"
|
||
onboard_log_trigger_Vbat = bits, U08, 117, [5:5], "Disabled", "Enabled"
|
||
onboard_log_trigger_Epin = bits, U08, 117, [6:7], "Disabled", "Enabled", "INVALID", "INVALID" ;In future add momentary on/off option
|
||
onboard_log_tr1_duration = scalar, U16, 118, "s", 1.000, 0.0, 0, 65000, 0
|
||
onboard_log_tr2_thr_on = scalar, U08, 120, "RPM", 100.0, 0.0, 0, 10000, 0
|
||
onboard_log_tr2_thr_off = scalar, U08, 121, "RPM", 100.0, 0.0, 0, 10000, 0
|
||
onboard_log_tr3_thr_RPM = bits, U08, 122, [0:0], "Disabled", "Enabled"
|
||
onboard_log_tr3_thr_MAP = bits, U08, 122, [1:1], "Disabled", "Enabled"
|
||
onboard_log_tr3_thr_Oil = bits, U08, 122, [2:2], "Disabled", "Enabled"
|
||
onboard_log_tr3_thr_AFR = bits, U08, 122, [3:3], "Disabled", "Enabled"
|
||
onboard_log_tr4_thr_on = scalar, U08, 123, "V", 0.1, 0.0, 0.0, 15.90, 2 ; * ( 1 byte)
|
||
onboard_log_tr4_thr_off = scalar, U08, 124, "V", 0.1, 0.0, 0.0, 14.90, 2 ; * ( 1 byte)
|
||
onboard_log_tr5_Epin_pin = bits , U08, 125, [0:5], $IO_Pins_no_def
|
||
unused13_125_2 = bits , U08, 125, [6:7], ";", ",", "tab", "space"
|
||
|
||
hwTestIgnDuration = scalar, U08, 126, "ms", 1.0, 0.0, 0.0, 10, 0
|
||
hwTestInjDuration = scalar, U08, 127, "ms", 1.0, 0.0, 0.0, 20, 0
|
||
|
||
;--------------------------------------------------
|
||
;Second ignition map (Page 14)
|
||
;--------------------------------------------------
|
||
page = 14
|
||
advTable2 = array, U08, 0,[16x16], "deg", 1.0, -40, { ign2ValuesMin }, { ign2ValuesMax }, 0
|
||
rpmBins3 = array, U08, 256,[ 16], "RPM", 100.0, 0.0, 100, 25500, 0
|
||
mapBins2 = array, U08, 272, [ 16], { bitStringValue(algorithmUnits , spark2Algorithm) }, {ign2LoadRes}, 0.0, 0.0, { ign2LoadMax }, {ign2DecimalRes} ; This name has to be used in order for the table to show up in MLVs table. I can't find the regexs that make this work :(
|
||
|
||
;-------------------------------------------------------------------------------
|
||
|
||
;--------------------------------------------------
|
||
;boost Duty lookup map (Page 15)
|
||
;--------------------------------------------------
|
||
page = 15
|
||
;boost Duty lookup table
|
||
boostTableDutyLookup = array, U08, 0, [8x8], "Duty Cycle %", 0.5, 0.0, 0, 100, 0
|
||
rpmBinsDutyLookup = array, U08, 64, [ 8], "RPM", 100.0, 0.0, 100, 25500, 0
|
||
loadBinsDutyLookup = array, U08, 72, [ 8], "kpa", 2.0, 0.0, 0.0, {fuelLoadMax}, 0
|
||
;add variables for improved closedloop boost control
|
||
boostControlEnable = bits, U08, 80, [0:0], "Baro", "Fixed"
|
||
unused15_1_1 = bits, U08, 80, [1:3], "False", "INVALID","INVALID", "INVALID","INVALID", "INVALID","INVALID", "INVALID"
|
||
unused15_1_2 = bits, U08, 80, [4:6], "False", "INVALID","INVALID", "INVALID","INVALID", "INVALID","INVALID", "INVALID"
|
||
unused15_1_3 = bits, U08, 80, [7:7], "False", "INVALID"
|
||
boostDCWhenDisabled = scalar, U08, 81, "%", 1, 0, 0, 100, 0
|
||
boostControlEnableThreshold = scalar, U08, 82, "kpa", 1, 0.0, 0.0, 255, 0
|
||
|
||
|
||
; Air conditioning control
|
||
airConEnable = bits, U08, 83, [0:0], "Off", "On"
|
||
airConCompPol = bits, U08, 83, [1:1], "Normal", "Inverted"
|
||
airConReqPol = bits, U08, 83, [2:2], "Normal", "Inverted"
|
||
airConTurnsFanOn = bits, U08, 83, [3:3], "No", "Yes"
|
||
airConFanEnabled = bits, U08, 83, [4:4], "Disabled", "Enabled"
|
||
airConFanPol = bits, U08, 83, [5:5], "Normal", "Inverted"
|
||
airConUnused1 = bits, U08, 83, [6:7], "0", "1", "2", "3"
|
||
airConCompPin = bits, U08, 84, [0:5], "Unused", "INVALID", "INVALID", "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", "INVALID", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
airConUnused2 = bits, U08, 84, [6:7], "0", "1", "2", "3"
|
||
airConReqPin = bits, U08, 85, [0:5], "Unused", "INVALID", "INVALID", "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", "INVALID", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
airConUnused3 = bits, U08, 85, [6:7], "0", "1", "2", "3"
|
||
airConTPSCut = scalar, U08, 86, "%", 0.5, 0.0, 0.0, 100.0, 1
|
||
airConMinRPM = scalar, U08, 87, "RPM", 10, 0.0, 0.0, 2550, 0
|
||
airConMaxRPM = scalar, U08, 88, "RPM", 100, 0.0, 0.0, 25500, 0
|
||
#if CELSIUS
|
||
airConClTempCut = scalar, U08, 89, "C", 1.0, -40, -40, 215, 0
|
||
#else
|
||
airConClTempCut = scalar, U08, 89, "F", 1.8, -22.23, -40, 419, 0
|
||
#endif
|
||
airConIdleSteps = scalar, U08, 90, "%/Steps", 1.0, 0.0, 0.0, 255, 0
|
||
airConTPSCutTime = scalar, U08, 91, "s", 0.1, 0.0, 0.0, 25.5, 1
|
||
airConCompOnDelay = scalar, U08, 92, "s", 0.1, 0.0, 0.0, 25.5, 1
|
||
airConAfterStartDelay = scalar, U08, 93, "s", 0.1, 0.0, 0.0, 25.5, 1
|
||
airConRPMCutTime = scalar, U08, 94, "s", 0.1, 0.0, 0.0, 25.5, 1
|
||
airConFanPin = bits, U08, 95, [0:5], "Unused", "INVALID", "INVALID", "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", "INVALID", "A8", "A9", "A10", "A11", "A12", "A13", "A14", "A15", "INVALID"
|
||
airConUnused4 = bits, U08, 95, [6:7], "0", "1", "2", "3"
|
||
airConIdleUpRPMAdder = scalar, U08, 96, "Added Target RPM", 10.0, 0.0, 0.0, 250.0, 0
|
||
airConPwmFanMinDuty = scalar, U08, 97, "%", 0.5, 0.0, 0.0, 100.0, 1
|
||
|
||
rollingProtRPMDelta = array, S08, 98, [4], "RPM", 10.0, 0, -1000, 0, 0
|
||
rollingProtCutPercent = array, U08, 102, [4], "%", 1.0, 0, 0, 100, 0
|
||
Unused15_106_255 = array, U08, 106, [150], "%", 1.0, 0.0, 0.0, 255, 0
|
||
|
||
;-------------------------------------------------------------------------------
|
||
|
||
[EventTriggers]
|
||
triggeredPageRefresh = 1, { vssRefresh > 0 }
|
||
|
||
[ConstantsExtensions]
|
||
requiresPowerCycle = nCylinders
|
||
requiresPowerCycle = pinLayout
|
||
requiresPowerCycle = injLayout
|
||
requiresPowerCycle = inj4CylPairing
|
||
requiresPowerCycle = twoStroke
|
||
requiresPowerCycle = engineType
|
||
requiresPowerCycle = alternate
|
||
requiresPowerCycle = fanPin
|
||
requiresPowerCycle = reqFuel
|
||
requiresPowerCycle = TrigEdge
|
||
requiresPowerCycle = TrigEdgeSec
|
||
requiresPowerCycle = numTeeth
|
||
requiresPowerCycle = missingTeeth
|
||
requiresPowerCycle = trigPatternSec
|
||
requiresPowerCycle = injOpen
|
||
requiresPowerCycle = IgInv
|
||
requiresPowerCycle = ignBypassEnable
|
||
requiresPowerCycle = fanInv
|
||
requiresPowerCycle = boostEnabled
|
||
requiresPowerCycle = vvtEnabled
|
||
; requiresPowerCycle = vvtChannels
|
||
requiresPowerCycle = boostFreq
|
||
requiresPowerCycle = vvtFreq
|
||
requiresPowerCycle = idleFreq
|
||
requiresPowerCycle = sparkMode
|
||
requiresPowerCycle = launchPin
|
||
requiresPowerCycle = launchEnable
|
||
requiresPowerCycle = launchHiLo
|
||
requiresPowerCycle = flexEnabled
|
||
requiresPowerCycle = vssMode
|
||
requiresPowerCycle = vssPin
|
||
requiresPowerCycle = oddfire2
|
||
requiresPowerCycle = oddfire3
|
||
requiresPowerCycle = oddfire4
|
||
requiresPowerCycle = iacCLminValue
|
||
requiresPowerCycle = iacCLmaxValue
|
||
requiresPowerCycle = useExtBaro
|
||
requiresPowerCycle = useEMAP
|
||
requiresPowerCycle = baroPin
|
||
requiresPowerCycle = rotaryType
|
||
requiresPowerCycle = stagedInjSizePri
|
||
requiresPowerCycle = stagedInjSizeSec
|
||
requiresPowerCycle = stagingEnabled
|
||
requiresPowerCycle = resetControl
|
||
requiresPowerCycle = resetControlPin
|
||
requiresPowerCycle = n2o_enable
|
||
requiresPowerCycle = n2o_arming_pin
|
||
requiresPowerCycle = n2o_pin_polarity
|
||
requiresPowerCycle = knock_mode
|
||
requiresPowerCycle = knock_pin
|
||
requiresPowerCycle = knock_trigger
|
||
requiresPowerCycle = knock_pullup
|
||
requiresPowerCycle = idleUpEnabled
|
||
requiresPowerCycle = idleUpOutputEnabled
|
||
requiresPowerCycle = CTPSEnabled
|
||
requiresPowerCycle = CTPSPin
|
||
requiresPowerCycle = CTPSPolarity
|
||
requiresPowerCycle = legacyMAP
|
||
requiresPowerCycle = fuel2InputPin
|
||
requiresPowerCycle = fuel2InputPolarity
|
||
requiresPowerCycle = wmiEnabled
|
||
requiresPowerCycle = wmiEmptyEnabled
|
||
requiresPowerCycle = wmiEmptyPin
|
||
requiresPowerCycle = wmiEmptyPolarity
|
||
requiresPowerCycle = wmiIndicatorEnabled
|
||
requiresPowerCycle = wmiIndicatorPin
|
||
requiresPowerCycle = wmiIndicatorPolarity
|
||
requiresPowerCycle = vvtCLminDuty
|
||
requiresPowerCycle = vvtCLmaxDuty
|
||
|
||
requiresPowerCycle = caninput_sel0a
|
||
requiresPowerCycle = caninput_sel0b
|
||
requiresPowerCycle = caninput_sel1a
|
||
requiresPowerCycle = caninput_sel1b
|
||
requiresPowerCycle = caninput_sel2a
|
||
requiresPowerCycle = caninput_sel2b
|
||
requiresPowerCycle = caninput_sel3a
|
||
requiresPowerCycle = caninput_sel3b
|
||
requiresPowerCycle = caninput_sel4a
|
||
requiresPowerCycle = caninput_sel4b
|
||
requiresPowerCycle = caninput_sel5a
|
||
requiresPowerCycle = caninput_sel5b
|
||
requiresPowerCycle = caninput_sel6a
|
||
requiresPowerCycle = caninput_sel6b
|
||
requiresPowerCycle = caninput_sel7a
|
||
requiresPowerCycle = caninput_sel7b
|
||
requiresPowerCycle = caninput_sel8a
|
||
requiresPowerCycle = caninput_sel8b
|
||
requiresPowerCycle = caninput_sel9a
|
||
requiresPowerCycle = caninput_sel9b
|
||
requiresPowerCycle = caninput_sel10a
|
||
requiresPowerCycle = caninput_sel10b
|
||
requiresPowerCycle = caninput_sel11a
|
||
requiresPowerCycle = caninput_sel11b
|
||
requiresPowerCycle = caninput_sel12a
|
||
requiresPowerCycle = caninput_sel12b
|
||
requiresPowerCycle = caninput_sel13a
|
||
requiresPowerCycle = caninput_sel13b
|
||
requiresPowerCycle = caninput_sel14a
|
||
requiresPowerCycle = caninput_sel14b
|
||
requiresPowerCycle = caninput_sel15a
|
||
requiresPowerCycle = caninput_sel15b
|
||
requiresPowerCycle = outputPin
|
||
|
||
requiresPowerCycle = airConEnable
|
||
requiresPowerCycle = airConCompPin
|
||
requiresPowerCycle = airConReqPin
|
||
requiresPowerCycle = airConFanPin
|
||
requiresPowerCycle = airConReqPol
|
||
requiresPowerCycle = airConCompPol
|
||
requiresPowerCycle = airConFanPol
|
||
requiresPowerCycle = airConFanEnabled
|
||
|
||
requiresPowerCycle = fuelPressureEnable
|
||
requiresPowerCycle = oilPressureEnable
|
||
requiresPowerCycle = fuelPressurePin
|
||
requiresPowerCycle = oilPressurePin
|
||
|
||
defaultValue = pinLayout, 1
|
||
defaultValue = TrigPattern, 0
|
||
defaultValue = useResync, 1
|
||
defaultValue = trigPatternSec, 0
|
||
defaultValue = sparkMode, 0
|
||
defaultValue = injAng, 355 355 355 355
|
||
defaultValue = injAngRPM, 500 2000 4500 6500
|
||
defaultValue = nInjectors, 4
|
||
defaultValue = dutyLim, 80
|
||
defaultValue = mapMin, 10
|
||
defaultValue = mapMax, 260
|
||
defaultValue = baroMin, 10
|
||
defaultValue = baroMax, 260
|
||
defaultValue = useEMAP, 0
|
||
defaultValue = EMAPMin, 10
|
||
defaultValue = EMAPMax, 260
|
||
defaultValue = mapSwitchPoint, 0
|
||
defaultValue = fpPrime, 3
|
||
defaultValue = TrigFilter, 0
|
||
defaultValue = ignCranklock,0
|
||
defaultValue = multiplyMAP, 0
|
||
defaultValue = includeAFR, 0
|
||
defaultValue = incorporateAFR, 0
|
||
defaultValue = stoich, 14.7
|
||
defaultValue = flexEnabled, 0
|
||
defaultValue = oddfire2, 0
|
||
defaultValue = oddfire3, 0
|
||
defaultValue = oddfire4, 0
|
||
defaultValue = flexFreqLow, 50
|
||
defaultValue = flexFreqHigh,150
|
||
defaultValue = fuelPumpPin, 0
|
||
defaultValue = fanPin, 0
|
||
defaultValue = iacFastTemp, 0
|
||
defaultValue = idleFreq, 160
|
||
defaultValue = iacStepHome, 99
|
||
defaultValue = iacStepHyster, 3
|
||
defaultValue = iacMaxSteps, 96
|
||
defaultValue = iacCLminValue,0
|
||
defaultValue = iacCLmaxValue,100
|
||
defaultValue = iacTPSlimit, 5
|
||
defaultValue = iacRPMlimitHysteresis, 200
|
||
defaultValue = boostMinDuty,0
|
||
defaultValue = boostMaxDuty,100
|
||
defaultValue = boostSens, 2000
|
||
defaultValue = boostIntv, 30
|
||
defaultValue = sparkDur, 1.0
|
||
defaultValue = fixAngEnable,0
|
||
defaultValue = n2o_enable, 0
|
||
defaultValue = speeduino_tsCanId, 0
|
||
defaultValue = true_address, 256
|
||
defaultValue = realtime_base_address, 336
|
||
defaultValue = stagingEnabled, 0
|
||
defaultValue = lnchCtrlTPS, 0
|
||
defaultValue = resetControl, 0
|
||
defaultValue = bootloaderCaps, 0
|
||
defaultValue = aeTaperMin, 1000
|
||
defaultValue = aeTaperMax, 5000
|
||
defaultValue = taeMinChange, 2
|
||
defaultValue = maeMinChange, 2
|
||
defaultValue = aeColdPct, 100
|
||
defaultValue = aeColdTaperMin, 0
|
||
defaultValue = aeColdTaperMax, 60
|
||
defaultValue = decelAmount, 100
|
||
defaultValue = aeMode, 0 ;Set aeMode to TPS
|
||
defaultValue = batVoltCorrect, 0
|
||
defaultValue = aeApplyMode, 0
|
||
defaultValue = legacyMAP, 0
|
||
defaultValue = battVCorMode, 1
|
||
defaultValue = idleAdvEnabled, 0 ;Idle advance control turned off
|
||
defaultValue = aseTaperTime, 0.0
|
||
defaultValue = idleTaperTime, 1.0
|
||
defaultValue = dfcoDelay, 0.1
|
||
defaultValue = dfcoRPM, 1500
|
||
defaultValue = dfcoHyster, 200
|
||
defaultValue = crankingEnrichTaper, 0.1
|
||
defaultValue = boostCutEnabled, 1
|
||
defaultValue = primingDelay, 0.5
|
||
defaultValue = vvtCLminDuty, 0
|
||
defaultValue = vvtCLmaxDuty, 80 ;80% is a completely arbitrary amount for the max duty cycle, but seems inline with most VVT documentation
|
||
defaultValue = vvtCL0DutyAng, 0
|
||
defaultValue = vvt2CL0DutyAng, 0
|
||
defaultValue = ANGLEFILTER_VVT, 0
|
||
defaultValue = idleAdvStartDelay, 0.2 ;0.2S for a quick gear change without change the table advance
|
||
defaultValue = boostByGearEnabled, 0
|
||
defaultValue = airConIdleUpRPMAdder, 100
|
||
defaultValue = airConPwmFanMinDuty, 80
|
||
#if CELSIUS
|
||
defaultValue = vvtMinClt, 70
|
||
defaultValue = fuelTempBins, 0 15 30 45 60 75
|
||
defaultValue = dfcoMinCLT, 70
|
||
#else
|
||
defaultValue = vvtMinClt, 160
|
||
defaultValue = fuelTempBins, 32 59 86 113 140 157
|
||
defaultValue = dfcoMinCLT, 158
|
||
#endif
|
||
defaultValue = vvtDelay, 60
|
||
defaultValue = fuelTempValues, 100 100 100 100 100 100
|
||
|
||
; AFR protection default values
|
||
defaultValue = afrProtectEnabled, 0
|
||
defaultValue = afrProtectMAP, 180
|
||
defaultValue = afrProtectRPM, 4000
|
||
defaultValue = afrProtectTPS, 80
|
||
defaultValue = afrProtectDeviationLambda, 0.10
|
||
defaultValue = afrProtectDeviation, 1.47
|
||
defaultValue = afrProtectCutTime, 0.8
|
||
defaultValue = afrProtectReactivationTPS, 20
|
||
|
||
;Default pins
|
||
defaultValue = fanPin, 0
|
||
defaultValue = vvt1Pin, 0
|
||
defaultValue = vvt2Pin, 0
|
||
defaultValue = launchPin, 0
|
||
defaultValue = boostPin, 0
|
||
defaultValue = fuelPumpPin, 0
|
||
defaultValue = tachoPin, 0
|
||
defaultValue = tachoDuration, 2
|
||
defaultValue = useTachoSweep, 0
|
||
defaultValue = tachoSweepMaxRPM, 6000
|
||
defaultValue = perToothIgn, 0
|
||
defaultValue = dwellErrCorrect, 0
|
||
defaultValue = resetControlPin, 0
|
||
|
||
;Default ADC filter values
|
||
defaultValue = ADCFILTER_TPS, 50
|
||
defaultValue = ADCFILTER_CLT, 180
|
||
defaultValue = ADCFILTER_IAT, 180
|
||
defaultValue = ADCFILTER_O2, 100
|
||
defaultValue = ADCFILTER_BAT, 128
|
||
defaultValue = ADCFILTER_MAP, 20 ;This is only used on Instantaneous MAP readings and is intentionally very weak to allow for faster response
|
||
defaultValue = ADCFILTER_BARO, 64
|
||
defaultValue = FILTER_FLEX, 75
|
||
|
||
; AirCon Default Values
|
||
defaultValue = airConEnable, 0
|
||
defaultValue = airConCompPol, 0
|
||
defaultValue = airConReqPol, 0
|
||
defaultValue = airConTurnsFanOn, 1
|
||
defaultValue = airConCompPin, 0
|
||
defaultValue = airConReqPin, 0
|
||
defaultValue = airConFanPin, 0
|
||
defaultValue = airConFanPol, 0
|
||
defaultValue = airConFanEnabled, 0
|
||
defaultValue = airConTPSCut, 65
|
||
defaultValue = airConMinRPM, 500
|
||
defaultValue = airConMaxRPM, 4700
|
||
defaultValue = airConClTempCut, 120
|
||
defaultValue = airConIdleSteps, 0
|
||
defaultValue = airConTPSCutTime, 5.00
|
||
defaultValue = airConCompOnDelay, 0.4
|
||
defaultValue = airConAfterStartDelay, 5.00
|
||
defaultValue = airConRPMCutTime, 5.00
|
||
|
||
;VSS Ratios and calibration need controller priority so they can be set with the command buttons
|
||
controllerPriority = vssPulsesPerKm
|
||
controllerPriority = vssRatio1
|
||
controllerPriority = vssRatio2
|
||
controllerPriority = vssRatio3
|
||
controllerPriority = vssRatio4
|
||
controllerPriority = vssRatio5
|
||
controllerPriority = vssRatio6
|
||
|
||
;These are the limits for each of the load algorithms (Refer to the PC Variables section)
|
||
;Order is: MAP TPS IMAP/EMAP ITB UNUSED UNUSED UNUSED UNUSED
|
||
defaultValue = algorithmLimits, 511 100 511 511 100 100 100 100
|
||
defaultValue = fuelLoadMax, 511
|
||
defaultValue = ignLoadMax, 511
|
||
defaultValue = fuel2LoadMax, 511
|
||
defaultValue = ign2LoadMax, 511
|
||
|
||
;SD / RTC related
|
||
defaultValue = rtc_mode, 0
|
||
defaultValue = onboard_log_file_rate, 4
|
||
defaultValue = onboard_log_filenaming, 0
|
||
defaultValue = onboard_log_storage, 0
|
||
defaultValue = onboard_log_trigger_boot, 0
|
||
defaultValue = onboard_log_trigger_RPM, 0
|
||
defaultValue = onboard_log_trigger_prot, 0
|
||
defaultValue = onboard_log_trigger_Vbat, 0
|
||
defaultValue = onboard_log_trigger_Epin, 0
|
||
defaultValue = onboard_log_tr1_duration, 60
|
||
defaultValue = onboard_log_tr2_thr_on, 600
|
||
defaultValue = onboard_log_tr2_thr_off,400
|
||
defaultValue = onboard_log_tr3_thr_RPM, 0
|
||
defaultValue = onboard_log_tr3_thr_MAP, 0
|
||
defaultValue = onboard_log_tr3_thr_Oil, 0
|
||
defaultValue = onboard_log_tr3_thr_AFR, 0
|
||
defaultValue = onboard_log_tr4_thr_on, 12.5
|
||
defaultValue = onboard_log_tr4_thr_off, 7.0
|
||
defaultValue = onboard_log_tr5_Epin_pin, 0
|
||
defaultValue = onboard_log_csv_separator, 0
|
||
|
||
;VSS related settings
|
||
defaultValue = vssRatio1, 10.0
|
||
defaultValue = vssRatio2, 16.0
|
||
defaultValue = vssRatio3, 22.0
|
||
defaultValue = vssRatio4, 28.0
|
||
defaultValue = vssRatio5, 34.0
|
||
defaultValue = vssRatio6, 40.0
|
||
defaultValue = vssPulsesPerKm, 3000
|
||
defaultValue = vssSmoothing, 50
|
||
|
||
;pinLayout = bits, U08, 15, [0:7], "Speeduino v0.1", "Speeduino v0.2", "Speeduino v0.3", "Speeduino v0.4", "INVALID", "INVALID", "01-05 MX5 PNP", "INVALID", "96-97 MX5 PNP", "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", "BMW PnP", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "INVALID", "NO2C", "UA4C", "INVALID", "INVALID", "INVALID", "DIY-EFI CORE4 v1.0", "INVALID", "INVALID", "INVALID", "INVALID", "dvjcodec Teensy RevA", "dvjcodec Teensy RevB", "INVALID", "INVALID", "INVALID", "DropBear", "INVALID", "INVALID", "INVALID", "INVALID", "Black STM32F407VET6 V0.1", "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"
|
||
defaultValue = boardFuelOutputs, 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 6 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 8 4 4 4 4 8 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4
|
||
defaultValue = boardIgnOutputs, 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 6 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 8 4 4 4 4 8 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4
|
||
defaultValue = boardHasRTC, 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 8 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
|
||
|
||
controllerPriority = bootloaderCaps
|
||
|
||
defaultValue = AUXin00Alias, Aux0
|
||
defaultValue = AUXin01Alias, Aux1
|
||
defaultValue = AUXin02Alias, Aux2
|
||
defaultValue = AUXin03Alias, Aux3
|
||
defaultValue = AUXin04Alias, Aux4
|
||
defaultValue = AUXin05Alias, Aux5
|
||
defaultValue = AUXin06Alias, Aux6
|
||
defaultValue = AUXin07Alias, Aux7
|
||
defaultValue = AUXin08Alias, Aux8
|
||
defaultValue = AUXin09Alias, Aux9
|
||
defaultValue = AUXin10Alias, Aux10
|
||
defaultValue = AUXin11Alias, Aux11
|
||
defaultValue = AUXin12Alias, Aux12
|
||
defaultValue = AUXin13Alias, Aux13
|
||
defaultValue = AUXin14Alias, Aux14
|
||
defaultValue = AUXin15Alias, Aux15
|
||
|
||
defaultValue = prgm_out00Alias, PrgmOut0
|
||
defaultValue = prgm_out01Alias, PrgmOut1
|
||
defaultValue = prgm_out02Alias, PrgmOut2
|
||
defaultValue = prgm_out03Alias, PrgmOut3
|
||
defaultValue = prgm_out04Alias, PrgmOut4
|
||
defaultValue = prgm_out05Alias, PrgmOut5
|
||
defaultValue = prgm_out06Alias, PrgmOut6
|
||
defaultValue = prgm_out07Alias, PrgmOut7
|
||
|
||
defaultValue = hwTestInjDuration, 8
|
||
defaultValue = hwTestIgnDuration, 4
|
||
|
||
defaultValue = rpmwarn, 3000
|
||
defaultValue = rpmdang, 5000
|
||
defaultValue = rpmhigh, 8000
|
||
|
||
defaultValue = mapwarn, 200
|
||
defaultValue = mapdang, 245
|
||
defaultValue = maphigh, 255
|
||
|
||
defaultValue = batlow, 11.8
|
||
defaultValue = bathigh, 15
|
||
|
||
defaultValue = rollingProtRPMDelta, -300 -200 -100 -50
|
||
defaultValue = rollingProtCutPercent, 50 65 80 95
|
||
|
||
defaultValue = egoMAPMax, 100
|
||
defaultValue = egoMAPMin, 26
|
||
|
||
#if LAMBDA
|
||
defaultValue = wueAFR, -0.136 -0.102 -0.082 -0.068 -0.054 -0.041 -0.027 -0.014 -0.007 0.000
|
||
#else
|
||
defaultValue = wueAFR, -2.0 -1.5 -1.2 -1.0 -0.8 -0.6 -0.4 -0.2 -0.1 0.0
|
||
#endif
|
||
|
||
[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 = engine_constants, "Engine Constants"
|
||
subMenu = injChars, "Injector Characteristics"
|
||
subMenu = triggerSettings, "Trigger Setup"
|
||
;subMenu = OLED, "OLED Setup"
|
||
subMenu = airdensity_curve, "IAT Density"
|
||
subMenu = baroFuel_curve, "Barometric Correction"
|
||
subMenu = reset_control, "Reset Control"
|
||
|
||
subMenu = std_separator
|
||
subMenu = gaugeLimits, "Gauge Limits"
|
||
|
||
subMenu = std_separator
|
||
subMenu = io_summary, "I/O Summary"
|
||
subMenu = std_separator
|
||
subMenu = prgm_out_config, "Programmable outputs"
|
||
|
||
menu = "&Tuning"
|
||
subMenu = std_realtime, "Realtime Display"
|
||
subMenu = accelEnrichments, "Acceleration Enrichment"
|
||
subMenu = egoControl, "AFR/O2", 3
|
||
groupMenu = "Engine Protection"
|
||
groupChildMenu = engineProtection, "Common Engine Protection"
|
||
groupChildMenu = revLimiterDialog, "Rev Limiters", { engineProtectType }
|
||
groupChildMenu = boostCut, "Boost Cut", { engineProtectType }
|
||
groupChildMenu = oilPressureProtection, "Oil Pressure", { engineProtectType }
|
||
groupChildMenu = afrProtect, "AFR Protection", { engineProtectType }
|
||
subMenu = flexFuel, "Flex Fuel", 2
|
||
subMenu = veTableDialog, "VE Table", 0
|
||
subMenu = sparkTbl, "Spark Table", 2
|
||
subMenu = afrTable1Tbl, "AFR Target Table", 5
|
||
subMenu = lambdaTable1Tbl, "Lambda Target Table", 5
|
||
subMenu = std_separator
|
||
subMenu = fuelTable2Dialog, "Second fuel Table", 11
|
||
subMenu = sparkTable2Dialog, "Second spark Table", 14
|
||
subMenu = std_separator
|
||
subMenu = inj_trimad, "Sequential fuel trim (1-4)", 9
|
||
subMenu = inj_trimad_B, "Sequential fuel trim (5-8)", 9, { nFuelChannels >= 5 }
|
||
subMenu = std_separator
|
||
subMenu = stagingTableDialog, "Staged Injection", 10, { nCylinders <= 4 || injType == 1 } ; Can't do staging on more than 4 cylinder engines unless TBI is used
|
||
subMenu = std_separator
|
||
subMenu = fuelTemp_curve, "Fuel Temp Correction", { flexEnabled }
|
||
|
||
menu = "&Spark"
|
||
subMenu = sparkSettings, "Spark Settings"
|
||
subMenu = sparkTbl, "Spark Table", 2
|
||
subMenu = dwellSettings, "Dwell settings"
|
||
subMenu = dwell_correction_curve, "Dwell Compensation"
|
||
subMenu = dwell_map, "Dwell Map", { useDwellMap }
|
||
subMenu = iat_retard_curve, "IAT Retard"
|
||
subMenu = clt_advance_curve, "Cold Advance"
|
||
;subMenu = knockSettings, "Knock Settings"
|
||
subMenu = rotary_ignition, "Rotary Ignition", { sparkMode == 4 }
|
||
|
||
menu = "&Startup/Idle"
|
||
subMenu = crankPW, "Cranking Settings"
|
||
subMenu = primePW, "Priming Pulsewidth"
|
||
subMenu = warmup, "Warmup Enrichment"
|
||
subMenu = ASE, "Afterstart Enrichment (ASE)"
|
||
subMenu = std_separator
|
||
subMenu = idleSettings, "Idle Control"
|
||
subMenu = iacClosedLoop_curve, "Idle - RPM targets", 7, { iacAlgorithm == 3 || iacAlgorithm == 5 || iacAlgorithm == 6 || iacAlgorithm == 7 || idleAdvEnabled >= 1 }
|
||
subMenu = iacPwm_curve, "Idle - PWM Duty Cycle", 7, { iacAlgorithm == 2 || iacAlgorithm == 6}
|
||
subMenu = iacPwmCrank_curve, "Idle - PWM Cranking Duty Cycle", 7, { iacAlgorithm == 2 || iacAlgorithm == 3 || iacAlgorithm == 6}
|
||
subMenu = iacStep_curve, "Idle - Stepper Motor", 7, { iacAlgorithm == 4 || iacAlgorithm == 7 }
|
||
subMenu = iacStepCrank_curve, "Idle - Stepper Motor Cranking", 7, { iacAlgorithm == 4 || iacAlgorithm == 5 || iacAlgorithm == 7 }
|
||
subMenu = std_separator
|
||
subMenu = idleUpSettings, "Idle Up Settings", { iacAlgorithm == 2 || iacAlgorithm == 3 || iacAlgorithm == 4 || iacAlgorithm == 5 || iacAlgorithm == 6 || iacAlgorithm == 7 }
|
||
subMenu = std_separator
|
||
subMenu = idleAdvanceSettings, "Idle Advance Settings"
|
||
|
||
menu = "&Accessories"
|
||
subMenu = fanSettings, "Thermo Fan"
|
||
subMenu = pwmFan, "PWM Fan Curve", { fanEnable == 2 }
|
||
subMenu = LaunchControl, "Launch Control / Flat Shift"
|
||
subMenu = fuelpump, "Fuel Pump"
|
||
subMenu = NitrousControl, "Nitrous"
|
||
subMenu = vssSettings, "VSS and Gear detection"
|
||
subMenu = airCon, "Air Conditioning Control"
|
||
subMenu = pressureSensors, "Fuel/Oil pressure"
|
||
subMenu = std_separator
|
||
subMenu = boostSettings, "Boost Control"
|
||
subMenu = boostLoad, "Boost Targets/Duty", 8, { boostEnabled }
|
||
subMenu = std_separator
|
||
subMenu = vvtSettings, "VVT Control"
|
||
subMenu = vvtTbl, "VVT Target/Duty", 8, { vvtEnabled }
|
||
subMenu = vvt2Tbl, "VVT2 Target/Duty", 8, { vvtEnabled && vvt2Enabled }
|
||
subMenu = std_separator
|
||
subMenu = wmiSettings, "WMI Control", { !vvt2Enabled }
|
||
subMenu = wmiTbl, "WMI duty cycle", 8, { !vvt2Enabled && wmiEnabled && wmiMode > 1 }
|
||
subMenu = std_separator
|
||
subMenu = tacho, "Tacho Output"
|
||
|
||
subMenu = std_separator
|
||
|
||
subMenu = can_serial3IO, "Canbus/Secondary Serial IO Interface"
|
||
subMenu = CanBcast, "CAN Broadcasting menu", { CANisAvailable }
|
||
subMenu = std_separator
|
||
subMenu = Canin_config, "External Auxillary Input Channel Configuration", {enable_secondarySerial || CANisAvailable }
|
||
subMenu = Auxin_config, "Local Auxillary Input Channel Configuration"
|
||
;subMenu = std_separator
|
||
;subMenu = Canout_config, "Canbus Output Configuration"
|
||
|
||
|
||
menuDialog = main
|
||
menu = "Tools"
|
||
subMenu = mapCal, "Calibrate Pressure Sensors"
|
||
subMenu = batCal, "Calibrate Voltage Reading"
|
||
subMenu = std_ms2gentherm, "Calibrate Temperature Sensors", 0
|
||
subMenu = std_ms2geno2, "Calibrate AFR Sensor", { egoType > 0 }
|
||
subMenu = sensorFilters, "Set analog sensor filters"
|
||
|
||
menu = "Data Logging"
|
||
#if mcu_teensy
|
||
subMenu = std_ms3SdConsole, "Browse / Import SD Card"
|
||
subMenu = rtc_settings, "Setup realtime clock"
|
||
subMenu = onboard_log_setup, "Setup onboard logger / SD"
|
||
#else
|
||
subMenu = std_ms3SdConsole, "Browse / Import SD Card", { arrayValue( array.boardHasRTC, pinLayout ) > 0 }
|
||
subMenu = rtc_settings, "Setup realtime clock", { arrayValue( array.boardHasRTC, pinLayout ) > 0 }
|
||
subMenu = onboard_log_setup, "Setup onboard logger / SD", { arrayValue( array.boardHasRTC, pinLayout ) > 0 }
|
||
#endif
|
||
|
||
|
||
menuDialog = main
|
||
menu = "3D &Tuning Maps"
|
||
subMenu = veTable1Map, "Fuel Table"
|
||
subMenu = sparkMap, "Spark Table", 3
|
||
subMenu = afrTable1Map, "AFR Target Table"
|
||
subMenu = lambdaTable1Map,"Lambda Target Table"
|
||
subMenu = fuel2Map, "Fuel Table 2", { fuel2Mode }
|
||
subMenu = spark2Map, "Spark Table 2", { spark2Mode }
|
||
subMenu = dwell_tblMap "Dwell Map", { useDwellMap }
|
||
subMenu = stagingMap "Fuel Staging", { stagingMode == 0 }
|
||
subMenu = boostMap, "Boost Duty / Target", { boostEnabled }
|
||
subMenu = boostDutyLookup "Boost Base Duty Closed Loop", { boostType == 1 }
|
||
subMenu = vvtMap "VVT Control", { vvtEnabled }
|
||
subMenu = vvt2Map "VVT 2 Control", { vvtEnabled && vvt2Enabled }
|
||
subMenu = wmiMapMap "WMI Control", { !vvtEnabled && wmiEnabled && wmiMode > 1 }
|
||
|
||
#if enablehardware_test
|
||
menuDialog = main
|
||
menu = "Hardware Testing"
|
||
subMenu = outputtest1, "Test Output Hardware"
|
||
subMenu = stm32cmd, "STM32 Commands"
|
||
;subMenu = rtc_settings, "Setup realtime clock"
|
||
#endif
|
||
|
||
menu = "Help"
|
||
subMenu = helpGeneral, "Speeduino Help"
|
||
;-------------------------------------------------------------------------------
|
||
|
||
[SettingContextHelp]
|
||
; constantName = "Help Text"
|
||
; These provide the context help in the dialog when these variables are used
|
||
nCylinders = "Cylinder count"
|
||
alternate = "Whether or not the injectors should be fired at the same time. This setting is ignored when Sequential is selected below, however it will still affect the req_fuel value."
|
||
engineType = "Engines with an equal number of degrees between all firings (This is most engines) should select Even fire. Some 2 and 6 cylinder engines are Odd fire however."
|
||
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"
|
||
mapSwitchPoint = "Below this RPM instantaneous map sample method is used, instead of selected one.\nSet 0 RPM to disable (Default)"
|
||
stoich = "The stoichiometric ration of the fuel being used. For flex fuel, choose the primary fuel"
|
||
injLayout = "The injector layout and timing to be used. Options are: \n 1. Paired - 2 injectors per output. Outputs active is equal to half the number of cylinders. Outputs are timed over 1 crank revolution. \n 2. Semi-sequential: Same as paired except that injector channels are mirrored (1&4, 2&3) meaning the number of outputs used are equal to the number of cylinders. Only valid for 4 cylinders or less. \n 3. Banked: 2 outputs only used. \n 4. Sequential: 1 injector per output and outputs used equals the number of cylinders. Injection is timed over full cycle. "
|
||
inj4CylPairing = "Which outputs will be paired when semi-sequential fuel injection is used (4 cylinder engines). Pairing depends on firing order"
|
||
|
||
TrigPattern = "The type of input trigger decoder to be used."
|
||
useResync = "If enabled, sync will be rechecked once every full cycle from the cam input. This is good for accuracy, however if your cam input is noisy then this can cause issues."
|
||
trigPatternSec = "Cam mode/type also known as Secondary Trigger Pattern."
|
||
PollLevelPol = "The level of the cam trigger input will be checked at tooth #1 and this defines if the level is supposed to be High or Low at 1st phase of the engine."
|
||
numTeeth = "Number of teeth on Primary Wheel."
|
||
TrigSpeed = "Primary trigger speed."
|
||
missingTeeth = "Number of Missing teeth on Primary Wheel."
|
||
TrigAng = "The Angle ATDC when tooth No:1 on the primary wheel passes the primary sensor. The range of this field is -360 to +360 degrees."
|
||
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"
|
||
SkipCycles = "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. If using a VR sensor select Rising for MAX9926 or LM based and Falling for DSC VR Conditioners.\nLeading.\nTrailing."
|
||
TrigEdgeSec = "The Trigger edge of the secondary (Cam) sensor. If using a VR sensor select Rising for MAX9926 or LM based and Falling for DSC VR Conditioners.\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. Note that your board needs to have same number of igntion outputs as cylinders to be able to run this"
|
||
IgInv = "Whether the spark fires when the ignition signal goes high or goes low. Nearly all ignition systems use 'Going Low' but please verify this as damage to coils can result from the incorrect selection. (NOTE: THIS IS NOT MEGASQUIRT. THIS SETTING IS USUALLY THE OPPOSITE OF WHAT THEY USE!)"
|
||
sparkDur = "The duration of the spark at full dwell. Typically around 1ms"
|
||
fixAngEnable = "If enabled, timing will be locked/fixed and the ignition map will be ignored. Note that this value will be overridden by the fixed cranking value when cranking"
|
||
FixAng = "Timing will be locked at this value if the above is enabled"
|
||
perToothIgn = "This ignition mode works by adjusting in progress ignition events each time a new RPM trigger pulse is received. This can improve timing accuracy significantly where supported."
|
||
dwellErrCorrect = "A basic closed loop adjustment will be made to the dwell time to account for variations due to accel/decel. This is generally only needed on lower resolution trigger arrangements"
|
||
|
||
crankRPM = "The cranking RPM threshold. When RPM is lower than this value (and above 0) the system will be considered to be cranking"
|
||
tpsflood = "Keep throttle over this value to disable the priming pulse and cranking fuel. Used to prevent flood or clear already flooded engine"
|
||
|
||
fanInv = ""
|
||
fanHyster = "The number of degrees of hysteresis to be used in controlling the fan. Recommended values are between 2 and 5"
|
||
fanWhenCranking = "Whether the fan should be disabled or continue running when the engine is cranking"
|
||
fanWhenOff = "Whether the fan will continue to run when the engine is turned off"
|
||
fanPin = "The Arduino pin that the fan control signal will output on. This is NOT necessarily the same as the connector pin on any particular board"
|
||
fanSP = "The trigger temperature for the fan. Fan will be enabled above this temp"
|
||
|
||
airConEnable = "Whether we are doing A/C control"
|
||
airConCompPol = "Normal should be used in most cases - where a logic HIGH output turns on the output power transistor, which is the ON state. Inverted makes logic LOW the ON state, in the rare case that turning off the transistor turns the compressor on, or you are using some sort of depletion mode FET."
|
||
airConReqPol = "Normal should be used in most cases - where the A/C button provides a ground when pressed. Inverted removes the internal pullup resistor, and makes +5V the ON signal instead of ground."
|
||
airConTurnsFanOn = "Whether the cooling fan turns on when the A/C compressor is running."
|
||
airConCompPin = "The Arduino pin that the A/C request compressor signal is output on. This is NOT necesarrily the same as the connector pin on any particlar board."
|
||
airConReqPin = "The Arduino pin that the A/C request control signal is input on. This is NOT necesarrily the same as the connector pin on any particlar board."
|
||
airConFanPin = "The Arduino pin that the A/C fan control signal is output on (if enabled). This is only needed if you have a stand-alone A/C fan, separate to the cooling fan (which can be enabled to come on with the A/C compressor). This is NOT necesarrily the same as the connector pin on any particlar board."
|
||
airConFanPol = "Normal should be used in most cases - where a logic HIGH output turns on the output power transistor, which is the ON state. Inverted makes logic LOW the ON state, in the rare case that turning off the transistor turns the fan on, or you are using some sort of depletion mode FET."
|
||
airConFanEnabled = "Enable/disable stand-alone A/C fan. This would be a separate fan that only comes on when the A/C compressor is engaged, and should not be needed if the main cooling fan comes on with the A/C."
|
||
airConTPSCut = "The TPS position at which the air compressor will be locked out and turn off. When TPS falls below this level (minus a 5% hysteresis), the A/C compressor will kick back in after the delay period (TPS Cut Time), provided the A/C request signal is still present."
|
||
airConMinRPM = "The minimum RPM at which we will allow the A/C compressor to run (this setting is in 10 RPM steps)."
|
||
airConMaxRPM = "The maximum RPM at which we will allow the A/C compressor to run (this setting is in 100 RPM steps)."
|
||
airConClTempCut = "The coolant temperature above which we will NOT allow the A/C compressor to run."
|
||
airConIdleSteps = "Increase the idle PWM (%) or stepper motor (steps) up by this amount when the A/C request is active. Note that some cars have a separate idle-up valve that switches on automatically in tandem with the A/C compressor. In this case, this setting might be set to zero."
|
||
airConTPSCutTime = "The TPS lockout time, for which the A/C compressor will not run after a high TPS condition has gone away. This prevents the compressor cutting in on gear changes if the car is being driven hard."
|
||
airConCompOnDelay = "The delay period between a successful A/C request signal, and the compressor kicking in. This gives the idle-up time to kick in before the compressor loads the engine."
|
||
airConAfterStartDelay = "The delay period after first starting the car, during which the A/C compressor will not run."
|
||
airConRPMCutTime = "The RPM lockout time, for which the A/C compressor will not run after a high or low RPM condition has gone away. This prevents the compressor cutting in on gear changes if the car is being driven hard, or cutting in to early after nearly stalling the engine."
|
||
airConIdleUpRPMAdder = "Increase the idle RPM target (as used by Idle Advance and Closed-Loop Idle) by this amount when the A/C request is active."
|
||
airConPwmFanMinDuty = "If you are using a PWM cooling fan, the fan duty will be clamped to this value or higher (based on the coolant temp./duty cycle table) when the A/C compressor is engaged."
|
||
|
||
vssPulsesPerKm = "The number of pulses on the VSS signal per KM/Mile when (pulses per KM/Mile) -mode is used.\nIn (CAN/Serial/Analog) -mode the Aux input value is divided by this number to get correct VSS. 0 = No dividing/disabled."
|
||
vssAuxCh = "Use the Auxilary Input Channel Configuration -menus to read VSS from desired source (CAN/Serial/Analog) and then select that Aux in channel here"
|
||
vssSmoothing = "A smoothing factor to help reduce noise in the VSS signal. Typical values are between 0 and 50"
|
||
|
||
aeTime = "The duration of the acceleration enrichment"
|
||
aseTaperTime = "Transition time to disable ASE"
|
||
iacChannels = "The number of output channels used for PWM valves. Select 1 for 2-wire valves or 2 for 3-wire valves."
|
||
iacStepTime = "Duration of each stepping pulse. Values that are too low can cause the motor to behave erratically or not at all. See the manual for suggested step times"
|
||
iacCoolTime = "Cool time between each step. Set to zero if you don't want any cooling at all"
|
||
|
||
iacStepHome = "Homing steps to perform on startup. Must be greater than the fully open steps value"
|
||
iacMaxSteps = "Maximum number of steps the IAC can be moved away from the home position. Should always be less than Homing steps."
|
||
iacStepHyster = "The minimum number of steps to move in any one go."
|
||
iacStepperInv = "Invert the step pulse polarity"
|
||
iacStepperPower = "Power the stepper motor only when performing a step (Default) or constantly. If unsure, choose Only When Active."
|
||
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"
|
||
iacPWMrun = "Determines if the idle valve runs before engine is cranked over. This can help starting the engine by letting more air in before the RPM sync is achieved."
|
||
iacCLminValue = "When using closed loop idle control, this is the minimum position value that the PID loop will allow. Combined with the maximum value, this specifies the working range of your idle valve"
|
||
iacCLmaxValue = "When using closed loop idle control, this is the maximum position value that the PID loop will allow. Combined with the minimum value, this specifies the working range of your idle valve"
|
||
iacTPSlimit = "When using OL+CL idle control, if the TPS is higher than this value closed loop idle resets the integral of the PID (To prevent RPM dips coming back to idle)"
|
||
iacRPMlimitHysteresis = "When using closed loop idle control, if the closed loop Target RPM + this value is higher than the actual RPM, closed loop idle resets the integral of the PID (To prevent RPM dips coming back to idle)"
|
||
iacFastTemp = "Below this temperature, the idle output will be high (On). Above this temperature, it will turn off."
|
||
idleUpPolarity = "Normal polarity is a ground switch where an earthed signal activates the Idle Up. The internal pullup will be enabled with Normal polarity. \n Inverted may be used if a 5v signal is used to enable the Idle Up."
|
||
CTPSPolarity = "Normal polarity is a ground switch where an earthed signal activates the closed throttle position. The internal pullup will be enabled with Normal polarity. \n Inverted may be used if a 5v signal is used to enable the closed throttle position."
|
||
idleUpAdder = "The amount (In either Duty Cycle % or Steps (Depending on the idle control method in use), that the idle control will increase by when Idle Up is active"
|
||
idleUpOutputEnabled = "Enable an output that is toggled by the idle up input pin. An example use is driving an AC fan relay."
|
||
idleUpOutputInv = "No = When the idle up pin is high the output is active (grounding), when the idle up pin is low the output is inactive. Yes = When the idle up pin is high the output is inactive, when the idle up pin is low the output is active (grounding)."
|
||
idleAdvEnabled = "Added setting adds curve values to current spark table values when user defined idle is active. \n Switched setting overrides spark table values and uses curve values for idle ignition timing."
|
||
idleAdvAlgorithm = "Use Throttle position sensor (TPS) or closed throttle position sensor (CTPS) to detect idle state."
|
||
idleAdvDelay = "The number of seconds after sync is achieved before the idle advance control begins"
|
||
idleAdvStartDelay = "The number of seconds after matching settings before the idle advance control begins"
|
||
|
||
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)"
|
||
|
||
aeColdPct = "Acceleration enrichment adjustment for cold engine. Cold adjustment % is tapered between start and end temperatures.\n100% = no adjustment."
|
||
aeColdTaperMin = "AE cold adjustment taper start temperature. When coolant is below this value, full cold adjustment is applied."
|
||
aeColdTaperMax = "AE cold adjustment taper end temperature. When coolant is above this value, no cold adjustment is applied."
|
||
maeThresh = "The minimum speed that MAP must change at to trigger AE. Typical values are 40-100kPa/s"
|
||
taeThresh = "The minimum speed that TPS must change at to trigger AE. Typical values are 40-100%/s"
|
||
taeMinChange = "The minimum absolute change in TPS in order to engage AE. Typical values are 0-3%"
|
||
maeMinChange = "The minimum absolute change in MAP in order to engage AE. Typical values are 0-5%"
|
||
decelAmount = "Reduces fuel compared to VE table during deceleration. 100% means no reduction in fuel amount and 0% means all fuel is cut during decel (Do not confuse this with DFCO). Recommended to use values between 100 and 70%. Default: 100%. Works with both TPS and MAP based AE."
|
||
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"
|
||
dfcoDelay = "Delay for activate DFCO."
|
||
dfcoMinCLT = "Minimum temperature to enable DFCO."
|
||
|
||
flexEnabled = "Turns on readings from the Flex sensor and enables the below adjustments"
|
||
flexFreqLow = "The frequency of the sensor at 0% ethanol (50Hz for standard GM/Continental sensor)"
|
||
flexFreqHigh = "The frequency of the sensor at 100% ethanol (150Hz for standard GM/Continental sensor)"
|
||
flexFuelAdj = "Fuel % to be used for the current ethanol % (Typically 100% @ 0%, 163% @ 100%)"
|
||
flexAdvAdj = "Additional advance (in degrees) for the current ethanol % (Typically 0 @ 0%, 10-20 @ 100%)"
|
||
flexBoostAdj = "Adjustment, in kPa, to the boost target for the current ethanol %. Negative values are allowed to lower boost at lower ethanol % if necessary."
|
||
|
||
n2o_arming_pin = "Pin that the nitrous arming/engagement switch is on."
|
||
n2o_pin_polarity = "Whether Nitrous is active (Armed) when the pin is LOW or HIGH. If LOW is selected, the internal pullup will be used."
|
||
|
||
flatSArm = "The RPM switch point that determines whether an engaged clutch is for launch control or flat shift. Below this figure, an engaged clutch is considered to be for launch, above this figure an active clutch input will be considered a flat shift. This should be set at least several hundred RPM above idle"
|
||
flatSSoftWin = "The number of RPM below the flat shift point where the softlimit will be applied (aka Soft limit window). Recommended values are 200-1000"
|
||
flatSRetard = "The absolute timing (BTDC) that will be used when within the soft limit window"
|
||
engineProtectType = "Whether the engine protect an rev limiter will cut the fuel, the ignition or both"
|
||
hardCutType = "How the cuts should be performed for rev/launch limits. Full cut will stop all fuel/ignition events, Rolling cut will step through all ignition outputs, only cutting a limited number per revolution"
|
||
SoftLimitMode = "Fixed: the soft limiter will retard the ignition advance to the specified value.\nRelative: current timing advance will be retarted by the specified amount"
|
||
hardRevLim = "A fixed hard rev limit is a single point that the fuel or ignition (or both) will be cut completely to reduce increasing RPMs"
|
||
engineProtectMaxRPM = "The RPM point above which engine protections will engage. At this RPM and below, engine protections will NOT be active"
|
||
|
||
; AFR Protection Help
|
||
afrProtectMAP = "Minimum manifold air pressure the AFR lean protection will activate"
|
||
afrProtectRPM = "Minimum RPM the AFR lean protection will activate"
|
||
afrProtectTPS = "Minimum current throttle position for the AFR lean protection to activate"
|
||
afrProtectDeviationLambda = "Fixed mode = A fixed maximum lambda value (e.g. 0.95)\n\nTable mode = A maximum deviation (e.g. 0.1) from current lambda using target table + specified deviation\n\nChanging this also changes Maximum AFR"
|
||
afrProtectDeviation = "Fixed mode = A fixed maximum AFR value (e.g. 14.0)\n\nTable mode = A maximum deviation (e.g. 1.5) from current AFR using target table + specified deviation\n\nChanging this also changes Maximum Lambda"
|
||
afrProtectCutTime = "Time delay before activating AFR protection when all conditions has been fulfilled"
|
||
afrProtectReactivationTPS = "Going below this throttle position (%) will deactivate this protection"
|
||
oilPressureProtTime = "Time delay before activating oil pressure protection when all conditions has been fulfilled"
|
||
|
||
fuel2InputPin = "The Arduino pin that is being used to trigger the second fuel table to be active"
|
||
fuel2InputPolarity = "Whether the 2nd fuel table should be active when input is high or low. This should be LOW for a typical ground switching input"
|
||
fuel2InputPullup = "Whether to use the built in PULLUP for the switching input. This should be Yes for a typical ground switching input"
|
||
|
||
cltAdvValues = "This curve can be used to advance ignition timing when engine is warming up. This can also be used to warm up the catalytic converters in cold start by retarding timing. Or even as safety feature to retard timing when engine is too hot to prevent knock."
|
||
|
||
fpPrime = "Duration to power fuel pump on to ensure fuel line pressure."
|
||
primingDelay = "Delay to priming after fuel pump is on, used to wait fuel line get pressurised correctly."
|
||
|
||
crankingEnrichTaper = "Taper time from cranking enrichment to ASE or run (after engine has started)."
|
||
|
||
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"
|
||
launchHiLo = "Whether the signal is High or Low when the clutch pedal is engaged. For a ground switching input (Most clutch switches), this should be LOW"
|
||
lnchPullRes = "Whether the internal pullup resistor is enabled or left floating. For a ground switching input (Most clutch switches), select Pullup. For a 0v-5v input, select Floating"
|
||
lnchCtrlTPS = "The minimum TPS percentage that launch control will engage at"
|
||
lnchSoftLim = "The RPM point that the launch control ignition timing adjustment will engage (When under launch conditions). Should be below the hard rev limit RPM"
|
||
lnchRetard = "When under launch conditions (Eg Clutch engaged) the ignition timing will be set to this when above the Soft rev limit. This will override any other ignition modifiers"
|
||
lnchHardLim = "The RPM point above which the fuel and/or ignition will be cut when launch is active (Eg Clutch engaged). See the Engine Protection dialog to set whether it is fuel, ignition or both that are cut."
|
||
lnchFuelAdd = "The additional fuel % that will be added during Soft and Hard launch conditions. Set to 0 for no fuel modifier."
|
||
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 received."
|
||
crkngAddCLTAdv = "Adds cold advance values to cranking angle."
|
||
|
||
multiplyMAP = "If enabled, the MAP reading is included directly into the pulsewidth calculation by multiplying the VE lookup value by either the MAP:Baro ratio or MAP/100.\n This results in a flatter VE table that can be easier to tune in some instances. The MAP/100 option is generally used for compatibility with fuel tables from other ECUs. MAP:Baro ratio is recommended for new tunes. \n VE table must be retuned when this value is changed."
|
||
legacyMAP = "Use the legacy method of reading the MAP sensor that was used prior to the 201905 firmware. This should ONLY be enabled if you are upgrading from a firmware earlier than this"
|
||
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."
|
||
incorporateAFR = "When enabled, the AFR stoich/AFR target -ratio is incorporated directly in the pulsewidth calculation. When enabled, AFR target table affects pulsewidth even with EGO disabled. VE table must be retuned when this value is changed."
|
||
useExtBaro = "By Default, Speeduino will measure barometric pressure upon startup. Optionally however, a 2nd pressure sensor can be used to perform live barometric readings whilst the system is on."
|
||
|
||
enable_secondarySerial = "This Enables the secondary serial port . Secondary serial is serial3 on mega2560 processor, and Serial2 on STM32 and Teensy processor"
|
||
secondarySerialProtocol = "The protocol or application to be attached to the secondary serial port"
|
||
intcan_available = "Enables the internal CANBUS interface. This is only available on STM32 and Teensy processors"
|
||
|
||
;speeduino_tsCanId = "This is the TsCanId that the Speeduino ECU will respond to. This should match the main controller CAN ID in project properties if it is connected directly to TunerStudio, Otherwise the device ID if connected via CAN passthrough"
|
||
true_address = "This is the 11bit Can address of the Speeduino ECU "
|
||
realtime_base_address = "This is the 11bit CAN address of the realtime data broadcast from the Speeduino ECU. This MUST be at least 0x16 greater than the true address"
|
||
;obd_address = "The 11bit Can address that the Speeduino ECU responds to for OBD2 diagnostic requests"
|
||
AUXin00Alias = "The Ascii alias assigned to Aux input channel 0"
|
||
AUXin01Alias = "The Ascii alias assigned to Aux input channel 1"
|
||
AUXin02Alias = "The Ascii alias assigned to Aux input channel 2"
|
||
AUXin03Alias = "The Ascii alias assigned to Aux input channel 3"
|
||
AUXin04Alias = "The Ascii alias assigned to Aux input channel 4"
|
||
AUXin05Alias = "The Ascii alias assigned to Aux input channel 5"
|
||
AUXin06Alias = "The Ascii alias assigned to Aux input channel 6"
|
||
AUXin07Alias = "The Ascii alias assigned to Aux input channel 7"
|
||
AUXin08Alias = "The Ascii alias assigned to Aux input channel 8"
|
||
AUXin09Alias = "The Ascii alias assigned to Aux input channel 9"
|
||
AUXin10Alias = "The Ascii alias assigned to Aux input channel 10"
|
||
AUXin11Alias = "The Ascii alias assigned to Aux input channel 11"
|
||
AUXin12Alias = "The Ascii alias assigned to Aux input channel 12"
|
||
AUXin13Alias = "The Ascii alias assigned to Aux input channel 13"
|
||
AUXin14Alias = "The Ascii alias assigned to Aux input channel 14"
|
||
AUXin15Alias = "The Ascii alias assigned to Aux input channel 15"
|
||
|
||
caninput_sel0a = "This Enables local analog/digital on input channel 0 "
|
||
caninput_sel1a = "This Enables local analog/digital on input channel 1 "
|
||
caninput_sel2a = "This Enables local analog/digital on input channel 2 "
|
||
caninput_sel3a = "This Enables local analog/digital on input channel 3 "
|
||
caninput_sel4a = "This Enables local analog/digital on input channel 4 "
|
||
caninput_sel5a = "This Enables local analog/digital on input channel 5 "
|
||
caninput_sel6a = "This Enables local analog/digital on input channel 6 "
|
||
caninput_sel7a = "This Enables local analog/digital on input channel 7 "
|
||
caninput_sel8a = "This Enables local analog/digital on input channel 8 "
|
||
caninput_sel9a = "This Enables local analog/digital on input channel 9 "
|
||
caninput_sel10a = "This Enables local analog/digital on input channel 10 "
|
||
caninput_sel11a = "This Enables local analog/digital on input channel 11 "
|
||
caninput_sel12a = "This Enables local analog/digital on input channel 12 "
|
||
caninput_sel13a = "This Enables local analog/digital on input channel 13 "
|
||
caninput_sel14a = "This Enables local analog/digital on input channel 14 "
|
||
caninput_sel15a = "This Enables local analog/digital on input channel 15 "
|
||
|
||
caninput_sel0b = "This Enables External CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 0 "
|
||
caninput_sel1b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 1 "
|
||
caninput_sel2b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 2 "
|
||
caninput_sel3b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 3 "
|
||
caninput_sel4b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 4 "
|
||
caninput_sel5b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 5 "
|
||
caninput_sel6b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 6 "
|
||
caninput_sel7b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 7 "
|
||
caninput_sel8b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 8 "
|
||
caninput_sel9b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 9 "
|
||
caninput_sel10b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 10 "
|
||
caninput_sel11b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 11 "
|
||
caninput_sel12b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 12 "
|
||
caninput_sel13b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 13 "
|
||
caninput_sel14b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 14 "
|
||
caninput_sel15b = "This Enables External/CAN data via the Secondary Serial CANBUS expansion module or local analog/digital on input channel 15 "
|
||
|
||
caninput_source_can_address0 = "The source 11bit CAN address of the data for channel 0"
|
||
caninput_source_can_address1 = "The source 11bit CAN address of the data for channel 1"
|
||
caninput_source_can_address2 = "The source 11bit CAN address of the data for channel 2"
|
||
caninput_source_can_address3 = "The source 11bit CAN address of the data for channel 3"
|
||
caninput_source_can_address4 = "The source 11bit CAN address of the data for channel 4"
|
||
caninput_source_can_address5 = "The source 11bit CAN address of the data for channel 5"
|
||
caninput_source_can_address6 = "The source 11bit CAN address of the data for channel 6"
|
||
caninput_source_can_address7 = "The source 11bit CAN address of the data for channel 7"
|
||
caninput_source_can_address8 = "The source 11bit CAN address of the data for channel 8 "
|
||
caninput_source_can_address9 = "The source 11bit CAN address of the data for channel 9"
|
||
caninput_source_can_address10 = "The source 11bit CAN address of the data for channel 10"
|
||
caninput_source_can_address11 = "The source 11bit CAN address of the data for channel 11"
|
||
caninput_source_can_address12 = "The source 11bit CAN address of the data for channel 12"
|
||
caninput_source_can_address13 = "The source 11bit CAN address of the data for channel 13"
|
||
caninput_source_can_address14 = "The source 11bit CAN address of the data for channel 14"
|
||
caninput_source_can_address15 = "The source 11bit CAN address of the data for channel 15"
|
||
caninput_source_start_byte0 = "The Starting byte the data begins at for channel 0"
|
||
caninput_source_start_byte1 = "The Starting byte the data begins at for channel 1"
|
||
caninput_source_start_byte2 = "The Starting byte the data begins at for channel 2"
|
||
caninput_source_start_byte3 = "The Starting byte the data begins at for channel 3"
|
||
caninput_source_start_byte4 = "The Starting byte the data begins at for channel 4"
|
||
caninput_source_start_byte5 = "The Starting byte the data begins at for channel 5"
|
||
caninput_source_start_byte6 = "The Starting byte the data begins at for channel 6"
|
||
caninput_source_start_byte7 = "The Starting byte the data begins at for channel 7"
|
||
caninput_source_start_byte8 = "The Starting byte the data begins at for channel 8"
|
||
caninput_source_start_byte9 = "The Starting byte the data begins at for channel 9"
|
||
caninput_source_start_byte10 = "The Starting byte the data begins at for channel 10"
|
||
caninput_source_start_byte11 = "The Starting byte the data begins at for channel 11"
|
||
caninput_source_start_byte12 = "The Starting byte the data begins at for channel 12"
|
||
caninput_source_start_byte13 = "The Starting byte the data begins at for channel 13"
|
||
caninput_source_start_byte14 = "The Starting byte the data begins at for channel 14"
|
||
caninput_source_start_byte15 = "The Starting byte the data begins at for channel 15"
|
||
caninput_source_num_bytes0 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes1 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes2 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes3 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes4 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes5 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes6 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes7 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes8 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes9 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes10 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes11 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes12 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes13 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes14 = "The number of bytes the data is made from starting at selected start byte number"
|
||
caninput_source_num_bytes15 = "The number of bytes the data is made from starting at selected start byte number"
|
||
|
||
cmdEnableTestMode = "Click this to enable test mode. This will not be available if the engine is running"
|
||
cmdStopTestMode = "Click this to disable test mode"
|
||
cmdtestinj1Pulsed = "This will pulse the outputs for the selected duration at a frequency of 30Hz"
|
||
cmdtestinj2Pulsed = "This will pulse the outputs for the selected duration at a frequency of 30Hz"
|
||
cmdtestinj3Pulsed = "This will pulse the outputs for the selected duration at a frequency of 30Hz"
|
||
cmdtestinj4Pulsed = "This will pulse the outputs for the selected duration at a frequency of 30Hz"
|
||
cmdtestinj5Pulsed = "This will pulse the outputs for the selected duration at a frequency of 30Hz"
|
||
cmdtestinj6Pulsed = "This will pulse the outputs for the selected duration at a frequency of 30Hz"
|
||
cmdtestinj7Pulsed = "This will pulse the outputs for the selected duration at a frequency of 30Hz"
|
||
cmdtestinj8Pulsed = "This will pulse the outputs for the selected duration at a frequency of 30Hz"
|
||
cmdtestspk1Pulsed = "This will pulse the outputs for the selected duration at a frequency of 30Hz"
|
||
cmdtestspk2Pulsed = "This will pulse the outputs for the selected duration at a frequency of 30Hz"
|
||
cmdtestspk3Pulsed = "This will pulse the outputs for the selected duration at a frequency of 30Hz"
|
||
cmdtestspk4Pulsed = "This will pulse the outputs for the selected duration at a frequency of 30Hz"
|
||
|
||
cmdtestinj1on = "The injector output will be turned on. DO NOT USE THIS WITH INJECTORS CONNECTED"
|
||
cmdtestinj2on = "The injector output will be turned on. DO NOT USE THIS WITH INJECTORS CONNECTED"
|
||
cmdtestinj3on = "The injector output will be turned on. DO NOT USE THIS WITH INJECTORS CONNECTED"
|
||
cmdtestinj4on = "The injector output will be turned on. DO NOT USE THIS WITH INJECTORS CONNECTED"
|
||
cmdtestinj5on = "The injector output will be turned on. DO NOT USE THIS WITH INJECTORS CONNECTED"
|
||
cmdtestinj6on = "The injector output will be turned on. DO NOT USE THIS WITH INJECTORS CONNECTED"
|
||
cmdtestinj7on = "The injector output will be turned on. DO NOT USE THIS WITH INJECTORS CONNECTED"
|
||
cmdtestinj8on = "The injector output will be turned on. DO NOT USE THIS WITH INJECTORS CONNECTED"
|
||
|
||
cmdtestspk1on = "The ignition output will be turned on. DO NOT USE THIS WITH COIL CONNECTED"
|
||
cmdtestspk2on = "The ignition output will be turned on. DO NOT USE THIS WITH COIL CONNECTED"
|
||
cmdtestspk3on = "The ignition output will be turned on. DO NOT USE THIS WITH COIL CONNECTED"
|
||
cmdtestspk4on = "The ignition output will be turned on. DO NOT USE THIS WITH COIL CONNECTED"
|
||
cmdtestspk5on = "The ignition output will be turned on. DO NOT USE THIS WITH COIL CONNECTED"
|
||
cmdtestspk6on = "The ignition output will be turned on. DO NOT USE THIS WITH COIL CONNECTED"
|
||
cmdtestspk7on = "The ignition output will be turned on. DO NOT USE THIS WITH COIL CONNECTED"
|
||
cmdtestspk8on = "The ignition output will be turned on. DO NOT USE THIS WITH COIL CONNECTED"
|
||
|
||
cmdFormatSD = "Click this to format the SD card" ;For some reason the command name cmdSDFormat appears to be a reserved word and will not work
|
||
|
||
ADCFILTER_TPS = "Recommended value: 50"
|
||
ADCFILTER_CLT = "Recommended value: 180"
|
||
ADCFILTER_IAT = "Recommended value: 180"
|
||
ADCFILTER_O2 = "Recommended value: 128"
|
||
ADCFILTER_BAT = "Recommended value: 128"
|
||
ADCFILTER_MAP = "This setting is only available when using the Instantaneous MAP sampling method. Recommended value: 20"
|
||
ADCFILTER_BARO = "This setting is only available when using an external Baro sensor. Recommended value: 64"
|
||
FILTER_FLEX = "Higher values provide more filtering, but slower Eth% and fuel temp response. Recommended value: 75"
|
||
|
||
boostIntv = "The closed loop control interval will run every this many ms. Generally values between 50% and 100% of the valve frequency work best"
|
||
boostByGearEnabled = "Open loop -> Constant limit in Duty cycle %\nClosed Loop -> Constant limit in kPa\nIn both cases the multiplied option simply takes a percentage of the values in the boost table"
|
||
vvtMode = "Selects method of VVT control.\nOn/Off = No PWM control and output is only on or off.\nOpen Loop = PWM control where duty is taken directly from VVT table.\nClosed Loop = PWM control where VVT table is Cam angle target map and output duty is PID controlled."
|
||
vvt2Enabled = "Secondary VVT output. Uses same frequency and control algorithm as primary VVT output."
|
||
vvtPWMdir = "This is used to invert VVT closed loop PID direction if needed."
|
||
vvt2PWMdir = "This is used to invert VVT2 closed loop PID direction if needed."
|
||
vvtCL0DutyAng = "This value is used to bring the VVT cam angle to 0-100 range in closed loop mode by subtracting this value from the raw cam angle reading."
|
||
vvt2CL0DutyAng = "This value is used to bring the VVT2 cam angle to 0-100 range in closed loop mode by subtracting this value from the raw cam angle reading."
|
||
vvtCLMinAng = "Safety limit for minimum expected cam angle value. If cam angle gets smaller or equal to this, it triggers VVT error state, closed loop adjustment is disabled and VVT output duty drops to 0%"
|
||
vvtCLMaxAng = "Safety limit for maximum expected cam angle value. If cam angle gets bigger than this, it triggers VVT error state, closed loop adjustment is disabled and VVT output duty drops to 0%"
|
||
ANGLEFILTER_VVT = "Can be used to smooth out cam angle readings if needed. Only supported on specific decoders that have cam angle reading capability"
|
||
vvtMinClt = "Minimum coolant temp to activate VVT"
|
||
vvtDelay = "Time to wait after reaching minimum coolant temp (additional time for oil warmup)"
|
||
wmiMode = "Simple mode - Output is turned on when preset boost level is reached. \nProportional Mode - Output PWM is proportionally controlled between two MAP values - MAP Value 1 = PWM:0% / MAP Value 2 = PWM:100% \nOpen loop - Output PWM follows 2D map value (RPM vs MAP) Cell value contains desired PWM% [range 0-100%] \nClosed loop - Output PWM follows injector duty cycle with 2D correction map applied (RPM vs MAP). Cell value contains correction value% [nom 100%]"
|
||
|
||
stagedInjSizePri= "Size of the primary injectors. The sum of the Pri and Sec injectors values MUST match the value used in the req_fuel calculation"
|
||
stagedInjSizeSec= "Size of the secondary injectors. The sum of the Pri and Sec injectors values MUST match the value used in the req_fuel calculation"
|
||
#if resetcontrol_adv
|
||
resetControl = "How to control the Arduino's automatic reset feature. NOTE: Some of these settings require modifying your hardware and replacing the Arduino bootloader. See the Wiki for more details.\n\nDisabled: Allow the Arduino to reset when a new serial connection is made.\n\nPrevent When Running: Hold the control pin high while the engine is running.\n\nPrevent Always: Always hold the control pin high.\n\nSerial Command: Normally hold the control pin high, but pull it low when the 'U' serial command is issued and reset upon receiving more data."
|
||
#else
|
||
resetControl = "If set to Serial Command, normally hold the control pin high but pull it low when the 'U' serial command is issued and reset upon receiving more data. The control pin should be connected to the Arduino's reset pin."
|
||
#endif
|
||
resetControlPin = "The Arduino pin used to control resets."
|
||
|
||
rtc_mode = "Enables the real time clock for time keeping"
|
||
onboard_log_file_style = "Sdcard datalogger can be Disabled, CSV=Comma separated values, Binary is a Binary format equal to the A comand style current status"
|
||
onboard_log_file_rate = "Rate at wich data is recorded to the logger storage"
|
||
onboard_log_filenaming = "[Overwrite] the file is over written every time the a new log is started, [Date-time] creates a new file in the format YYMMDD-HHMMSS every datalog start, [Seqential] numbers the filenames + 1 on every datalog start"
|
||
onboard_log_storage = "Only [sd-card] as datastorage is implemented at the moment, A FAT16 or FAT32 formatted sd card can be used"
|
||
onboard_log_trigger_boot = "[On boot] the logger is started immediately on boot of the board"
|
||
onboard_log_trigger_RPM = "[RPM] the logger is started when RPM is above the on threshold and stopped below the off threshold"
|
||
onboard_log_trigger_prot = "[engine protection] the logger is started one of the corresponding bits in the engine protection is set"
|
||
onboard_log_trigger_Vbat = "[Battery Voltage] the logger is started when the battery voltage is above the on threshold and stopped below the off threshold"
|
||
onboard_log_trigger_Epin = "[Ext pin [polling]] the logger is running for as long the chosen pin is high and stopped when it is low. When set to [Ext pin [toggle]] the logger is toggled on/off with a pulse on this chosen pin number"
|
||
onboard_log_tr1_duration = "When logging from boot is enabled, this is the duration the log will run for"
|
||
onboard_log_tr2_thr_on = "When the engine RPM is above this threshold the datalogger is started"
|
||
onboard_log_tr2_thr_off = "When the engine RPM is below this threshold the datalogger is stopped"
|
||
onboard_log_tr3_thr_RPM = "When the bits of the RPM engine protection function are set the datalogger is started when no set anymore the logger is stopped"
|
||
onboard_log_tr3_thr_MAP = "When the bits of the MAP engine protection function are set the datalogger is started when no set anymore the logger is stopped"
|
||
onboard_log_tr3_thr_Oil = "When the bits of the Oil engine protection function are set the datalogger is started when no set anymore the logger is stopped"
|
||
onboard_log_tr3_thr_AFR = "When the bits of the AFR engine protection function are set the datalogger is started when no set anymore the logger is stopped"
|
||
onboard_log_tr4_thr_on = "When the measured battery voltage is above this threshold the datalogger is started"
|
||
onboard_log_tr4_thr_off = "When the measured battery voltage is below this threshold the datalogger is stopped"
|
||
onboard_log_tr5_Epin_pin = "The pin to trigger the datalogger start/stop"
|
||
onboard_log_csv_separator = "Choose what character is used for the CSV separator between fields"
|
||
|
||
battVCorMode = "The Battery Voltage Correction value from the table below can either be applied on the whole injection Pulse Width value, or only on the Open Time value."
|
||
dwellTable = "Sets the dwell time in milliseconds based on RPM/load. This can be used to reduce stress/wear on ignition system where long dwell is not needed. And other areas can use longer dwell value if needed for stronger spark. Battery voltage correction is applied for these dwell values."
|
||
useDwellMap = "In normal operation mode this is set to No and speeduino will use fixed running dwell value. But if different dwell values are required across engine RPM/load range, this can be set to Yes and separate Dwell table defines running dwell value."
|
||
tachoMode = "The output mode for the tacho pulse. Fixed timing will produce a pulse that is always of the same duration, which works better with mode modern digital tachos. Dwell based output creates a pulse that is matched to the coil/s dwell time. If enabled the tacho pulse duration and timing is same as coil dwell and the number of pulses is same as number of ignition events. This can work better on some styles of tacho but note that the pulse duration might become problem on higher cylinder number engines."
|
||
canBMWCluster = "Enables CAN broadcasting for BMW E46, E39 and E38 instrument clusters with message ID's 0x316, 0x329 and 0x545"
|
||
canVAGCluster = "Enables CAN broadcasting for VAG instrument clusters with message ID's 0x280 and 0x5A0"
|
||
canWBO = "Enables to recive AFR via CAN for supported controllers"
|
||
caninputEndianess= "Byte ordering for values with two bytes."
|
||
|
||
boostControlEnable = "Set the trigger to enable/disable the closedloop boost controller. When set to: \n 'fixed': if the fuel load exceeds the threshold closedloop boost controller is enbaled.\n 'baro': if the fuel load exceeds the baro the controller is enabled (legacy) "
|
||
boostDCWhenDisabled = "When the closedloop boost controller is disabled by 'enable trigger', this is the Duty cycle set on the boost selenoid. Ususally this is 99% because it keeps the waste gate firmly closed until the threshold and builds boost as fast as possible (no wastegate leak)"
|
||
boostControlEnableThreshold = "When the 'Boost control enable trigger' is set to 'fixed', this value is used as threshold. Usually the value is set just below the wastgate pressure of the used turbo setup. For example 130kpa for a 0.3 bar wastegate actuator. Below this value the ECU has no control over the boost anyway."
|
||
|
||
dutyLim = "Sets the maximum allowed duty cycle of injectors. Duty cycle will be limited to this value reagardless of any other settings. If the value required is greater than 90 in order, it is recommended to consider using larger injectors."
|
||
injAng = "The angle at which the injection ends relative to each cylinders TDC. Eg Numbers greater than 360 will cause the injection to end with the inlet valve open, and values smaller than 360 will cause the injection to end with the inlet valve closed (Dependant on cam timings)."
|
||
airDenRates = "Corrects fuel based on intake air temperature / density. Values less than 100 remove fuel and values greater than 100 add fuel."
|
||
baroFuelValues = "Corrects the amount of fuel based on atmospheric pressure / altitude. Values less than 100 remove fuel and values greater than 100 add fuel."
|
||
ignAlgorithm = "Load source used for ignition table."
|
||
CrankAng = "Ignition angle used during cranking. This is usually equal to or less than the idle advance value to have a smooth start, but will vary according to each engine configuration."
|
||
dwellcrank = "Dwell used during engine cranking. This is usually slightly higher than the running dwell."
|
||
dwellrun = "The time that the ignition coil is charging when the engine is running. This is a critical setting and can result in damage to the ignition coil/s if set incorrectly!"
|
||
dwellRates = "Adjust the nominal dwell time based on the system voltage. Values less than 100 remove dwell time and values greater than 100 add dwell time."
|
||
primePulse = "Injection pulse to prime the fuel system on ECU powerup. High values when the engine is cold may help with starting."
|
||
idleTaperTime = "Duration of the transition from idle cranking table to idling table or PID idle."
|
||
wueRates = "Table for fuel enrichment when the engine is cold. Final enrichment value must be 100%."
|
||
iatRetRates = "Removes ignition timing based on intake air temperature to prevent detonation. Any number greater than 0 removes ignition timing."
|
||
iacCLValues = "Idle rpm targets used for PID and idling advance."
|
||
iacOLStepVal = "Table used for idle valve control."
|
||
iacOLPWMVal = "Table used for idle valve control."
|
||
iacCrankDuty = "Table used to control the idle valve during cranking."
|
||
iacCrankSteps = "Table used to control the idle valve during cranking."
|
||
|
||
egoMAPMax = "Only Correct below this MAP Value"
|
||
egoMAPMin = "Only Correct above this MAP Value"
|
||
|
||
[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 defined 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"
|
||
field = "!This is a critical setting!"
|
||
field = "Outputs WILL NOT work if incorrect board is selected"
|
||
field = "Board Layout", pinLayout
|
||
field = "Stoichiometric ratio", stoich
|
||
field = "Injector Layout", injLayout
|
||
field = "Injector Pairing", inj4CylPairing, {}, { injLayout != 0 && nCylinders == 4 }
|
||
field = "MAP Sample method", mapSample
|
||
field = "MAP Sample switch point", mapSwitchPoint, { mapSample >= 1 }
|
||
|
||
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 = ""
|
||
|
||
dialog = engine_constants_warning, ""
|
||
field = "!Warning: The board you have selected may not have enough channels for sequential fuel!", {}, {}, { injLayout == 3 && !sequentialFuelAvailable }
|
||
|
||
dialog = engine_constants, "", border
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Engine_Constants"
|
||
panel = engine_constants_warning, North
|
||
panel = engine_constants_west, West
|
||
panel = engine_constants_east, East
|
||
|
||
; Flex fuel stuff
|
||
dialog = flexFuelSettings, "", yAxis
|
||
field = "Flex Fuel Sensor ", flexEnabled
|
||
field = "Low (E0) ", flexFreqLow, { flexEnabled }
|
||
field = "High (E100) ", flexFreqHigh, { flexEnabled }
|
||
slider = "Flex sensor filter", FILTER_FLEX, horizontal, { flexEnabled }
|
||
|
||
dialog = flexFuelWest, ""
|
||
panel = flex_fuel_curve, { flexEnabled }
|
||
panel = flex_adv_curve, { flexEnabled }
|
||
|
||
dialog = flexFuelEast, ""
|
||
panel = flex_boost_curve, { flexEnabled && boostEnabled }
|
||
|
||
;dialog = flexCurves, "", indexCard
|
||
dialog = flexCurves, "", xAxis
|
||
panel = flexFuelWest, West
|
||
panel = flexFuelEast, East
|
||
|
||
dialog = flexFuel, "Fuel Sensor Settings", border
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Flex_Fuel"
|
||
;panel = flexFuelWest, West
|
||
panel = flexFuelSettings, North
|
||
panel = flexCurves, South
|
||
|
||
; Knock control settings
|
||
dialog = knock_windows, "Knock Windows", xAxis
|
||
panel = knock_window_angle_curve, West, { knock_mode }
|
||
panel = knock_window_duration_curve, East, { knock_mode }
|
||
|
||
dialog = knock_settings_west, "Settings", yAxis
|
||
field = "Knock Mode", knock_mode
|
||
field = "Knock Pin", knock_pin, { knock_mode }
|
||
field = "Knock active when pin is", knock_trigger, { knock_mode == 1 }
|
||
field = "Use pullup", knock_pullup, { knock_mode == 1 }
|
||
|
||
dialog = knock_settings_east, "Detection and Response"
|
||
field = "#Detection"
|
||
field = "Knock count required", knock_count, { knock_mode == 1}
|
||
field = "Knock threshold required", knock_threshold, { knock_mode == 2}
|
||
field = "Maximum MAP", knock_maxMAP, { knock_mode }
|
||
field = "Maximum RPM", knock_maxRPM, { knock_mode }
|
||
|
||
;Retard and recovery
|
||
field = "#Retard"
|
||
field = "Total retard", knock_maxRetard, { knock_mode }
|
||
field = "First step size", knock_firstStep, { knock_mode }
|
||
field = "Other step size", knock_stepSize, { knock_mode }
|
||
field = "Step time", knock_stepTime, { knock_mode }
|
||
|
||
field = "#Recovery"
|
||
field = "Retard duration", knock_duration, { knock_mode } ;Time before retard starts ending
|
||
field = "Recovery step time", knock_recoveryStepTime, { knock_mode } ;Time between each recovery step
|
||
field = "Recovery step size", knock_recoveryStep, { knock_mode }
|
||
|
||
dialog = knock_settings_top, "", xAxis
|
||
panel = knock_settings_west, West
|
||
panel = knock_settings_east, East
|
||
|
||
dialog = knockSettings, "", border
|
||
topicHelp = "http://speeduino.com/wiki/index.php/Knock"
|
||
panel = knock_settings_top, North
|
||
panel = knock_windows, South
|
||
|
||
dialog = vss_gear_1, "", xAxis
|
||
field = "Speed ratio 1", vssRatio1
|
||
commandButton = "Set Gear 1", cmdVSSratio1, { vssMode > 0 }
|
||
dialog = vss_gear_2, "", xAxis
|
||
field = "Speed ratio 2", vssRatio2
|
||
commandButton = "Set Gear 2", cmdVSSratio2, { vssMode > 0 }
|
||
dialog = vss_gear_3, "", xAxis
|
||
field = "Speed ratio 3", vssRatio3
|
||
commandButton = "Set Gear 3", cmdVSSratio3, { vssMode > 0 }
|
||
dialog = vss_gear_4, "", xAxis
|
||
field = "Speed ratio 4", vssRatio4
|
||
commandButton = "Set Gear 4", cmdVSSratio4, { vssMode > 0 }
|
||
dialog = vss_gear_5, "", xAxis
|
||
field = "Speed ratio 5", vssRatio5
|
||
commandButton = "Set Gear 5", cmdVSSratio5, { vssMode > 0 }
|
||
dialog = vss_gear_6, "", xAxis
|
||
field = "Speed ratio 6", vssRatio6
|
||
commandButton = "Set Gear 6", cmdVSSratio6, { vssMode > 0 }
|
||
|
||
dialog = vss_gear_detection, "Gear Detection", yAxis
|
||
field = "After setting 'Pulses per km/mile' above"
|
||
field = "Drive in each gear (any speed) and press appropriate button"
|
||
panel = vss_gear_1
|
||
panel = vss_gear_2
|
||
panel = vss_gear_3
|
||
panel = vss_gear_4
|
||
panel = vss_gear_5
|
||
panel = vss_gear_6
|
||
|
||
dialog = vss_calibration, "VSS Calibration"
|
||
field = "Pulses Per KM/VSS ratio", vssPulsesPerKm, { vssMode > 0 }
|
||
commandButton = "60km/h auto-calibrate", cmdVSS60kmh, { vssMode > 0 }
|
||
field = "Smoothing Factor", vssSmoothing, { vssMode > 0 }
|
||
|
||
dialog = vssSettings, "", yAxis
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/VSS"
|
||
field = "VSS Input Mode", vssMode
|
||
field = "VSS Pin", vssPin, { vssMode > 1 }
|
||
;field = "Use Pullup", vssPullup, { vssMode > 1 }
|
||
field = "VSS Aux in Channel", vssAuxCh, { vssMode == 1 }
|
||
|
||
panel = vss_calibration
|
||
panel = vss_gear_detection
|
||
|
||
dialog = tacho, "Tacho"
|
||
field = "Output pin", tachoPin
|
||
field = "Tacho pulse mode", tachoMode
|
||
field = "Output speed", tachoDiv, { tachoMode == 0 }
|
||
field = "Pulse duration", tachoDuration, { tachoMode == 0 }
|
||
field = "Tacho sweep on boot", useTachoSweep
|
||
field = "Tacho sweep Max RPM", tachoSweepMaxRPM, { useTachoSweep }
|
||
|
||
dialog = accelEnrichments_aeSettings, ""
|
||
field = "Enrichment mode", aeMode
|
||
field = "Enrichment method", aeApplyMode
|
||
field = "TPSdot Threshold", taeThresh, { aeMode == 0 }
|
||
field = "Min. TPS change", taeMinChange, { aeMode == 0 }
|
||
field = "MAPdot Threshold", maeThresh, { aeMode == 1 }
|
||
field = "Min. MAP change", maeMinChange, { aeMode == 1 }
|
||
field = "Accel Time", aeTime
|
||
field = "Taper Start RPM", aeTaperMin
|
||
field = "Taper End RPM", aeTaperMax
|
||
|
||
dialog = decelEnleanment, "Deceleration Enleanment"
|
||
field = "Fuel Amount", decelAmount
|
||
|
||
dialog = accelEnrichments_coldAdj, "Acceleration Enrichment cold adjustment"
|
||
field = "Cold adjustment", aeColdPct
|
||
field = "Cold adjustment taper start temperature", aeColdTaperMin
|
||
field = "Cold adjustment taper end temperature", aeColdTaperMax
|
||
|
||
dialog = accelEnrichments_south, "Deceleration Fuel Cutoff (DFCO)"
|
||
field = "Enabled", dfcoEnabled
|
||
field = "TPS Threshold", dfcoTPSThresh, { dfcoEnabled }
|
||
field = "Minimum engine temperature", dfcoMinCLT, { dfcoEnabled }
|
||
field = "Cutoff delay", dfcoDelay, { dfcoEnabled }
|
||
field = "Cutoff RPM", dfcoRPM, { dfcoEnabled }
|
||
field = "RPM Hysteresis", dfcoHyster, { dfcoEnabled }
|
||
field = "Enable cutoff taper", dfcoTaperEnable, { dfcoEnabled }
|
||
field = "Cutoff taper time", dfcoTaperTime, { dfcoEnabled && dfcoTaperEnable }
|
||
field = "Taper end fuel amount", dfcoTaperFuel, { dfcoEnabled && dfcoTaperEnable }
|
||
field = "Taper advance remove", dfcoTaperAdvance, { dfcoEnabled && dfcoTaperEnable }
|
||
|
||
dialog = accelEnrichments_north_south, ""
|
||
liveGraph = pump_ae_Graph, "AE Graph"
|
||
#if LAMBDA
|
||
graphLine = lambda
|
||
#else
|
||
graphLine = afr
|
||
#endif
|
||
graphLine = TPSdot, "%", -2000, 2000, auto, auto
|
||
graphLine = MAPdot, "%", -2000, 2000, auto, auto
|
||
|
||
dialog = accelEnrichments_north, "", xAxis
|
||
panel = time_accel_tpsdot_curve, { aeMode == 0 }
|
||
panel = time_accel_mapdot_curve, { aeMode == 1 }
|
||
|
||
dialog = accelEnrichments_center, "Acceleration Enrichment", xAxis
|
||
panel = accelEnrichments_aeSettings
|
||
panel = accelEnrichments_coldAdj
|
||
|
||
dialog = accelEnrichments, "Acceleration Enrichment"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Acceleration_Wizard"
|
||
panel = accelEnrichments_north, North
|
||
panel = accelEnrichments_north_south, Center
|
||
panel = accelEnrichments_center, Center
|
||
panel = decelEnleanment
|
||
panel = accelEnrichments_south, South
|
||
|
||
dialog = veTableDialog_north, ""
|
||
panel = veTable1Tbl
|
||
|
||
dialog = veTableDialog_south, ""
|
||
field = "Multiply VE value by MAP ratio", multiplyMAP
|
||
field = "Multiply by ratio of AFR to Target AFR", includeAFR, { egoType == 2 && !incorporateAFR || (incorporateAFR==includeAFR) }
|
||
field = "Multiply by ratio of stoich AFR/target AFR (incorporate AFR)", incorporateAFR, { !includeAFR || (incorporateAFR==includeAFR) }
|
||
|
||
dialog = veTableDialog, "VE Table"
|
||
panel = veTableDialog_north, North
|
||
panel = veTableDialog_south, South
|
||
|
||
dialog = fuelTable2Dialog_switch, "Switch Conditions", xAxis
|
||
field = "Use secondary table when:", fuel2SwitchVariable
|
||
field = "is greater than:", fuel2SwitchValue
|
||
|
||
dialog = fuelTable2Dialog_input, "Input Options", yAxis
|
||
field = "Use secondary table when pin", fuel2InputPin
|
||
field = "Is", fuel2InputPolarity
|
||
field = "Use internal pullup on pin", fuel2InputPullup, { fuel2InputPolarity == 0 }
|
||
|
||
dialog = fuelTable2Dialog_north, ""
|
||
field = "Secondary fuel table mode", fuel2Mode
|
||
field = "Load source", fuel2Algorithm, { fuel2Mode }
|
||
panel = fuelTable2Dialog_switch, { fuel2Mode == 3 }
|
||
panel = fuelTable2Dialog_input, { fuel2Mode == 4 }
|
||
|
||
dialog = fuelTable2Dialog_south, ""
|
||
panel = fuelTable2Tbl
|
||
|
||
dialog = fuelTable2Dialog, "Fuel Table 2"
|
||
panel = fuelTable2Dialog_north, North
|
||
panel = fuelTable2Dialog_south, South, { fuel2Mode }
|
||
|
||
dialog = sparkTable2Dialog_switch, "Switch Conditions", xAxis
|
||
field = "Use secondary table when:", spark2SwitchVariable
|
||
field = "is greater than:", spark2SwitchValue
|
||
|
||
dialog = sparkTable2Dialog_input, "Input Options", yAxis
|
||
field = "Use secondary table when pin", spark2InputPin
|
||
field = "Is", spark2InputPolarity
|
||
field = "Use internal pullup on pin", spark2InputPullup, { spark2InputPolarity == 0 }
|
||
|
||
dialog = sparkTable2Dialog_north, ""
|
||
field = "Secondary advance table mode", spark2Mode
|
||
field = "Load source", spark2Algorithm, { spark2Mode }
|
||
panel = sparkTable2Dialog_switch, { spark2Mode == 3 }
|
||
panel = sparkTable2Dialog_input, { spark2Mode == 4 }
|
||
|
||
dialog = sparkTable2Dialog_south, ""
|
||
panel = spark2Tbl
|
||
|
||
dialog = sparkTable2Dialog, "Spark Table 2"
|
||
panel = sparkTable2Dialog_north, North
|
||
panel = sparkTable2Dialog_south, South, { spark2Mode }
|
||
|
||
dialog = injAngleDialog, "Injector close angles"
|
||
panel = injector_timing_curve
|
||
|
||
dialog = injOpenTimeDialog, "Injector opening time"
|
||
field = "Injector Open Time", injOpen
|
||
field = "Battery Voltage Correction Mode", battVCorMode
|
||
panel = injector_voltage_curve
|
||
|
||
dialog = injChars, "Injector Characteristics"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Injector_Characteristics"
|
||
field = "Injector Duty Limit", dutyLim
|
||
panel = injOpenTimeDialog
|
||
panel = injAngleDialog
|
||
|
||
dialog = egoControl, ""
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/O2"
|
||
field = "Sensor Type", egoType
|
||
field = "WBO over CAN", canWBO, {}, { CANisAvailable && (egoType == 2) }
|
||
field = "#Please ensure you calibrate your O2 sensor in the Tools menu", {}, {}, { egoType && (canWBO == 0) }
|
||
field = "Algorithm", egoAlgorithm, { egoType }
|
||
field = "Ignition Events per Step", egoCount, { egoType && (egoAlgorithm < 3) }
|
||
field = "Controller Auth +/-", egoLimit, { egoType && (egoAlgorithm < 3) }
|
||
|
||
field = "Only correct above ", ego_min_afr, { egoType && (egoAlgorithm < 3) }
|
||
field = "and correct below ", ego_max_afr, { egoType && (egoAlgorithm < 3) }
|
||
field = "Only correct above ", ego_min_lambda, { egoType && (egoAlgorithm < 3) }
|
||
field = "and correct below ", ego_max_lambda, { 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 MAP", egoMAPMax, { egoType && (egoAlgorithm < 3) }
|
||
field = "Active Above MAP", egoMAPMin, { 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
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Thermo_fan"
|
||
displayOnlyField = !"No PWM Fan available on MCU", blankfield, {intcan_available == 0 && fanEnable == 2},{intcan_available == 0 && fanEnable == 2}
|
||
field = "Fan Mode", fanEnable
|
||
field = "Allow fan when off", fanWhenOff, { fanEnable }
|
||
field = "Allow fan when cranking", fanWhenCranking, { fanEnable }
|
||
field = "Fan output pin", fanPin, { fanEnable }
|
||
field = "Fan Output Inverted", fanInv, { fanEnable }
|
||
field = "Fan switching temperature", fanSP, { fanEnable == 1 }
|
||
field = "Fan hysteresis", fanHyster, { fanEnable == 1 }
|
||
field = "PWM fan frequency", fanFreq, { intcan_available && fanEnable == 2 }
|
||
|
||
dialog = pwmFan, "PWM Fan Curve",
|
||
panel = pwm_fan_curve,
|
||
|
||
dialog = airConIdleUp, "Idle Up When A/C Compressor On"
|
||
field = "Idle-Up Amount", airConIdleSteps, { airConEnable }
|
||
field = "Idle-Up RPM Adder", airConIdleUpRPMAdder, { airConEnable }
|
||
|
||
dialog = airConRPMLimit,"RPM Limiting"
|
||
field = "Min. RPM for A/C Operation", airConMinRPM, { airConEnable }
|
||
field = "Max. RPM for A/C Operation", airConMaxRPM, { airConEnable }
|
||
field = "Lockout time after high/low RPM", airConRPMCutTime, { airConEnable }
|
||
|
||
dialog = airConTPSLimit,"TPS Limiting"
|
||
field = "Cut A/C at TPS Position", airConTPSCut, { airConEnable }
|
||
field = "Lockout time after high TPS", airConTPSCutTime, { airConEnable }
|
||
|
||
dialog = airConCoolantTempLimit,"Coolant Temp. Limiting"
|
||
field = "Coolant A/C Cutout Temp.", airConClTempCut, { airConEnable }
|
||
|
||
dialog = airConFanSettings
|
||
field = "Run Engine Cooling Fan with A/C", airConTurnsFanOn, { airConEnable }
|
||
field = "Min. Duty for PWM Cooling Fan", airConPwmFanMinDuty, { airConEnable }
|
||
field = "Stand-Alone A/C Fan", airConFanEnabled, { airConEnable }
|
||
field = "Stand-Alone A/C Fan Output Pin", airConFanPin, { airConEnable && airConFanEnabled }
|
||
field = "Stand-Alone A/C Fan Output Polarity", airConFanPol, {airConEnable && airConFanEnabled }
|
||
|
||
dialog = airCon,"Air Conditioning"
|
||
field = "Air Conditioning Enable", airConEnable
|
||
field = "A/C Request Input Pin", airConReqPin, { airConEnable }
|
||
field = "A/C Compressor Output Pin", airConCompPin, { airConEnable }
|
||
field = "A/C Request Input Polarity", airConReqPol, { airConEnable }
|
||
field = "A/C Comp. Output Polarity", airConCompPol, { airConEnable }
|
||
field = "A/C Comp. On Delay (During Operation)", airConCompOnDelay, { airConEnable }
|
||
field = "A/C Initial Delay After Cranking", airConAfterStartDelay, { airConEnable }
|
||
panel = airConRPMLimit
|
||
panel = airConTPSLimit
|
||
panel = airConCoolantTempLimit
|
||
panel = airConFanSettings
|
||
panel = airConIdleUp
|
||
|
||
dialog = stepper_idle, "Stepper Idle"
|
||
field = "Step time (ms)", iacStepTime, { iacAlgorithm == 4 || iacAlgorithm == 5 || iacAlgorithm == 7 }
|
||
field = "Cool time (ms)", iacCoolTime, { iacAlgorithm == 4 || iacAlgorithm == 5 || iacAlgorithm == 7 }
|
||
field = "Home steps", iacStepHome, { iacAlgorithm == 4 || iacAlgorithm == 5 || iacAlgorithm == 7 }
|
||
field = "Minimum Steps", iacStepHyster, { iacAlgorithm == 4 || iacAlgorithm == 5 || iacAlgorithm == 7 }
|
||
field = "Don't exceed", iacMaxSteps, { iacAlgorithm == 4 || iacAlgorithm == 5 || iacAlgorithm == 7 }
|
||
field = "Stepper Inverted", iacStepperInv, { iacAlgorithm == 4 || iacAlgorithm == 5 || iacAlgorithm == 7 }
|
||
field = "Stepper Power", iacStepperPower, { iacAlgorithm == 4 || iacAlgorithm == 5 || iacAlgorithm == 7 }
|
||
|
||
dialog = pwm_idle, "PWM Idle"
|
||
field = "Number of outputs", iacChannels, { iacAlgorithm == 2 || iacAlgorithm == 3 || iacAlgorithm == 6 }
|
||
field = "Idle valve frequency", idleFreq, { iacAlgorithm == 2 || iacAlgorithm == 3 || iacAlgorithm == 6 }
|
||
field = "Idle valve direction", iacPWMdir, { iacAlgorithm == 2 || iacAlgorithm == 3 || iacAlgorithm == 6 }
|
||
field = "Run before start", iacPWMrun, { iacAlgorithm == 2 || iacAlgorithm == 3 || iacAlgorithm == 6 }
|
||
|
||
dialog = closedloop_idle, "Closed loop Idle"
|
||
displayOnlyField = "# !!! Please note that 1.0 means 100% !!!"
|
||
field = "P", idleKP, { iacAlgorithm == 3 || iacAlgorithm == 5 || iacAlgorithm == 6 || iacAlgorithm == 7 }
|
||
field = "I", idleKI, { iacAlgorithm == 3 || iacAlgorithm == 5 || iacAlgorithm == 6 || iacAlgorithm == 7 }
|
||
field = "D", idleKD, { iacAlgorithm == 3 || iacAlgorithm == 5 || iacAlgorithm == 6 || iacAlgorithm == 7 }
|
||
field = "Minimum valve value", iacCLminValue, { iacAlgorithm == 3 || iacAlgorithm == 5 || iacAlgorithm == 6 || iacAlgorithm == 7 }
|
||
field = "Maximum valve value", iacCLmaxValue, { iacAlgorithm == 3 || iacAlgorithm == 5 || iacAlgorithm == 6 || iacAlgorithm == 7 }
|
||
field = "Integral reset above TPS", iacTPSlimit, { iacAlgorithm == 6 || iacAlgorithm == 7 }
|
||
field = "Integral reset RPM Hysteresis", iacRPMlimitHysteresis, { iacAlgorithm == 6 || iacAlgorithm == 7 }
|
||
|
||
dialog = idleSettings, "Idle Settings"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Idle"
|
||
field = "Idle control type", iacAlgorithm
|
||
field = "Crank to run taper", idleTaperTime, { iacAlgorithm == 2 || iacAlgorithm == 4 || iacAlgorithm == 5 || iacAlgorithm == 7 }
|
||
field = "#Fast Idle"
|
||
field = "Fast idle temp", iacFastTemp, { iacAlgorithm == 1 }
|
||
panel = pwm_idle
|
||
panel = stepper_idle
|
||
panel = closedloop_idle
|
||
|
||
dialog = idleUpInputSettingsPanel, "Idle Up Input Settings", yAxis
|
||
field = "Idle Up Enabled", idleUpEnabled
|
||
field = "Idle Up Pin", idleUpPin, { idleUpEnabled }
|
||
field = "Idle Up Pin Polarity", idleUpPolarity, { idleUpEnabled }
|
||
field = "Idle Up Amount", idleUpAdder, { idleUpEnabled }
|
||
|
||
dialog = idleUpOutputSettingsPanel, "Idle Up Output Settings", yAxis
|
||
field = "Idle Up Output Enabled", idleUpOutputEnabled, { idleUpEnabled }
|
||
field = "Idle Up Output Inverted", idleUpOutputInv, { idleUpEnabled && idleUpOutputEnabled }
|
||
field = "Idle Up Output Pin", idleUpOutputPin, { idleUpEnabled && idleUpOutputEnabled }
|
||
|
||
dialog = idleUpSettings, "Idle Up Settings"
|
||
panel = idleUpInputSettingsPanel
|
||
panel = idleUpOutputSettingsPanel
|
||
|
||
dialog = fuelpump, "Fuel pump"
|
||
field = "Fuel pump pin", fuelPumpPin
|
||
field = "Fuel pump prime duration", fpPrime
|
||
|
||
dialog = crankingEnrichDialog, "Cranking Enrichment", yAxis
|
||
panel = cranking_enrich_curve
|
||
field = "#Note"
|
||
field = "Values are specified as modifiers to the normal fuelling. Eg 100% = No change."
|
||
|
||
dialog = crankingIgnOptions, "Cranking Timing", yAxis
|
||
field = "Cranking advance Angle", CrankAng, { ignCranklock == 0 }
|
||
field = "Add cold advance", crkngAddCLTAdv, { ignCranklock == 0 }
|
||
field = "Cranking bypass", ignBypassEnable
|
||
field = "Bypass output pin", ignBypassPin { ignBypassEnable }
|
||
field = "Fix cranking timing with trigger", ignCranklock, { TrigPattern == 1 || TrigPattern == 4 || TrigPattern == 10 || TrigPattern == 9 }
|
||
|
||
dialog = crankingOptions, "", yAxis
|
||
field = "Cranking RPM (Max)", crankRPM
|
||
field = "Flood Clear level", tpsflood
|
||
field = "Fuel pump prime duration", fpPrime
|
||
field = "Injectors priming delay", primingDelay
|
||
field = "Cranking enrichment taper time", crankingEnrichTaper
|
||
|
||
dialog = primePW, "Priming Pulsewidth"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Priming"
|
||
panel = priming_pw_curve
|
||
|
||
dialog = crankPW, "Cranking Settings", yAxis
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Cranking"
|
||
panel = crankingOptions, North
|
||
panel = crankingEnrichDialog, Center
|
||
panel = crankingIgnOptions, South
|
||
|
||
dialog = ASE_amount, "Enrichment amount (%)", yAxis
|
||
field = "Defines the fuel enrichment percentage after start."
|
||
field = "This is needed to keep engine running after start"
|
||
field = "Common values are 5% when engine is hot to 50% when engine is cold."
|
||
panel = afterstart_enrichment_curve
|
||
|
||
dialog = ASE_time, "Duration (s)", yAxis
|
||
field = "How long time the After Start Enrichment is applied in seconds."
|
||
field = "Usually this is varies from 1-2s when engine is hot up to 20s on a cold engine."
|
||
field = "Transition time to disable", aseTaperTime
|
||
panel = afterstart_enrichment_time
|
||
|
||
dialog = ASE, "Afterstart Enrichment(ASE)", yAxis
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/ASE"
|
||
field = "#Time and duration curves share common coolant values"
|
||
panel = ASE_amount
|
||
panel = ASE_time
|
||
|
||
dialog = triggerSettings,"Trigger Settings",4
|
||
topicHelp = "http://wiki.speeduino.com/en/decoders"
|
||
field = "Trigger Pattern", TrigPattern
|
||
field = "Primary base teeth", numTeeth, { TrigPattern == 0 || TrigPattern == 2 || TrigPattern == 11 || TrigPattern == 18 || TrigPattern == 19 || TrigPattern == 21 }
|
||
field = "Primary trigger speed", TrigSpeed, { TrigPattern == 0 || TrigPattern == 2 }
|
||
field = "Missing teeth", missingTeeth, { TrigPattern == 0 }
|
||
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", SkipCycles
|
||
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 { TrigPattern != 4 && TrigPattern != 22 } ;4G63 uses both edges ;NGC uses both edges
|
||
field = "Secondary trigger edge", TrigEdgeSec, { (TrigPattern == 0 && TrigSpeed == 0 && trigPatternSec != 2) || TrigPattern == 2 || TrigPattern == 9 || TrigPattern == 12 || TrigPattern == 18 || TrigPattern == 19 || TrigPattern == 20 || TrigPattern == 21 || TrigPattern == 24 || TrigPattern == 25 } ;Missing tooth, dual wheel and Miata 9905, weber-marelli, ST170, DRZ400 Renix, Rover MEMS, K6A
|
||
field = "Level for 1st phase", PollLevelPol, { (TrigPattern == 0 && TrigSpeed == 0 && trigPatternSec == 2) }
|
||
field = "Missing Tooth Secondary type", trigPatternSec, { (TrigPattern == 0&& TrigSpeed == 0) || TrigPattern == 25 }
|
||
field = "Trigger Filter", TrigFilter, { TrigPattern != 13 }
|
||
field = "Re-sync every cycle", useResync, { TrigPattern == 2 || TrigPattern == 4 || TrigPattern == 7 || TrigPattern == 12 || TrigPattern == 9 || TrigPattern == 13 || TrigPattern == 18 || TrigPattern == 19 || TrigPattern == 21 } ;Dual wheel, 4G63, Audi 135, Nissan 360, Miata 99-05, weber-marelli. DRZ400
|
||
|
||
dialog = lockSparkSettings, "Locked timing"
|
||
field = "Enabled Fixed/Locked timing", fixAngEnable
|
||
field = "Fixed Angle", FixAng, { fixAngEnable }
|
||
field = "#Note: During cranking the fixed/locked timing angle is overridden by the Cranking advance angle value above"
|
||
|
||
dialog = newIgnitionMode, "Per tooth ignition events"
|
||
field = "This option is will generally improve accuracy on most compatible triggers"
|
||
field = "However if timing issues are encountered, please disable this"
|
||
field = "Enable per tooth timing", perToothIgn
|
||
field = "Dwell error correction", dwellErrCorrect,{ perToothIgn }
|
||
|
||
|
||
dialog = sparkSettings,"Spark Settings",4
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Spark_Settings"
|
||
field = "!Warning: The board you have selected may not have enough channels for sequential ignition!", {}, {}, { sparkMode == 3 && !sequentialIgnitionAvailable }
|
||
field = "Ignition load source", ignAlgorithm
|
||
field = "Spark output mode", sparkMode
|
||
field = "Cranking advance Angle", CrankAng
|
||
field = "Spark Outputs triggers", IgInv
|
||
panel = lockSparkSettings
|
||
panel = newIgnitionMode, { 1 }, {TrigPattern == 0 || TrigPattern == 1 || TrigPattern == 2 || TrigPattern == 3 || TrigPattern == 4 || TrigPattern == 9 || TrigPattern == 12 || TrigPattern == 13 || TrigPattern == 16 || TrigPattern == 18 || TrigPattern == 19 || TrigPattern == 22 || TrigPattern == 24 || TrigPattern == 25 || TrigPattern == 26 } ;Only works for missing tooth, distributor, dual wheel, GM 7X, 4g63, Miata 99-05, nissan 360, Subaru 6/7, 420a, weber-marelli, NGC Renix, K6A
|
||
|
||
dialog = dwellSettings, "Dwell Settings", 4
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Dwell"
|
||
field = " Cranking dwell", dwellcrank
|
||
field = " Use dwell map", useDwellMap
|
||
field = " Running dwell", dwellrun, { useDwellMap == 0 }
|
||
field = " Spark duration", sparkDur
|
||
;field = " Dwell scale for repeated spark", ignRptScale, { crankIgnOutRpt }
|
||
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 = idleAdvanceSettings_east
|
||
field = "Idle advance mode", idleAdvEnabled
|
||
field = "Idle detect mode", idleAdvAlgorithm, { idleAdvEnabled >= 1 }
|
||
field = "Delay before idle control starts (s)",idleAdvDelay, { idleAdvEnabled >= 1 }
|
||
field = "Active Below RPM", idleAdvRPM, { idleAdvEnabled >= 1 }
|
||
field = "Active Below TPS", idleAdvTPS, { idleAdvEnabled >= 1 && idleAdvAlgorithm == 0 }
|
||
field = "Active Below VSS", idleAdvVss, { idleAdvEnabled >= 1 && vssMode > 0 }
|
||
field = "Activate after", idleAdvStartDelay, { idleAdvEnabled >= 1 }
|
||
field = "Closed Throttle Sensor Enabled", CTPSEnabled, { idleAdvEnabled >= 1 && idleAdvAlgorithm == 1 }
|
||
field = "Closed Throttle Sensor Pin", CTPSPin, { idleAdvEnabled >= 1 && idleAdvAlgorithm == 1 && CTPSEnabled == 1 }
|
||
field = "Closed Throttle Sensor Pin Polarity", CTPSPolarity, { idleAdvEnabled >= 1 && idleAdvAlgorithm == 1 && CTPSEnabled == 1 }
|
||
|
||
dialog = idleAdvanceSettings,"Idle Advance Settings", xAxis
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/IdleAdvance"
|
||
panel = idleAdvanceSettings_east
|
||
panel = idle_advance_curve, { idleAdvEnabled >= 1 }
|
||
panel = iacClosedLoop_curve, { iacAlgorithm == 3 || iacAlgorithm == 5 || iacAlgorithm == 6 || iacAlgorithm == 7|| idleAdvEnabled >= 1 }
|
||
|
||
|
||
dialog = rotary_ignition, "Rotary Ignition", 4
|
||
field = "Ignition Configuration", rotaryType
|
||
panel = rotaryTrailing_curve
|
||
|
||
dialog = boostCut, "Boost Cut",
|
||
field = "Enable Boost limit", boostCutEnabled
|
||
field = "Boost Limit", boostLimit, { boostCutEnabled }
|
||
|
||
dialog = boostByGear, "Boost by Gear"
|
||
field = "Enable Boost by Gear", boostByGearEnabled
|
||
field = "Gear 1 ", boostByGear1, { boostByGearEnabled }
|
||
field = "Gear 2 ", boostByGear2, { boostByGearEnabled }
|
||
field = "Gear 3 ", boostByGear3, { boostByGearEnabled }
|
||
field = "Gear 4 ", boostByGear4, { boostByGearEnabled }
|
||
field = "Gear 5 ", boostByGear5, { boostByGearEnabled }
|
||
field = "Gear 6 ", boostByGear6, { boostByGearEnabled }
|
||
|
||
dialog = boostBaseDC, "Closed loop initial duty"
|
||
field = "Base duty cycle to be used for a given boost target", {}, { boostType == 2 }
|
||
panel = boostDCLupTbl, { boostEnabled && boostType == 1 }
|
||
|
||
dialog = boostDCTarget, "Primary Boost table"
|
||
field = "In open loop mode, the values in this table are duty cycle %", {}, {}, { boostType == 0 }
|
||
field = "In closed loop mode, the values in this table are boost targets in kPa", {}, {}, { boostType == 1 }
|
||
panel = boostTbl
|
||
|
||
dialog = boostLoad, ""
|
||
field = "Mode", boostType
|
||
panel = boostDCTarget
|
||
panel = boostBaseDC, { boostType == 1 }
|
||
|
||
dialog = coolantProtection, "Coolant Based Rev Limit"
|
||
panel = coolant_prot_curve, { hardRevMode == 2 }
|
||
|
||
dialog = revLimiterDialog, "Rev Limiter"
|
||
field = "Rev Limiter"
|
||
field = "!Soft limiter only available with ignition cut", {}, {}, { engineProtectType == 2 }
|
||
field = "Soft rev limit", SoftRevLim, { engineProtectType == 1 || engineProtectType == 3 } ;Only available for the protection modes that include ignition.
|
||
field = "Soft limiter mode", SoftLimitMode, { engineProtectType == 1 || engineProtectType == 3 } ;Only available for the protection modes that include ignition.
|
||
field = "Soft limit timing", SoftLimRetard, { engineProtectType == 1 || engineProtectType == 3 } ;Only available for the protection modes that include ignition.
|
||
field = "Soft limit max time", SoftLimMax, { engineProtectType == 1 || engineProtectType == 3 } ;Only available for the protection modes that include ignition.
|
||
field = "Hard limiter mode", hardRevMode
|
||
field = "Fixed Rev limit", hardRevLim, { hardRevMode == 1 }
|
||
panel = coolantProtection, { hardRevMode == 2 }
|
||
|
||
dialog = oilPressureProtection, "Oil Pressure"
|
||
field = "Oil Pressure Protection", oilPressureProtEnbl, { oilPressureEnable }
|
||
field = "Oil Pressure cut delay", oilPressureProtTime, { oilPressureEnable && oilPressureProtEnbl }
|
||
panel = oil_pressure_prot_curve, { oilPressureEnable && oilPressureProtEnbl }
|
||
|
||
; AFR engine protection dialog
|
||
dialog = afrProtect, "AFR Protection", yAxis
|
||
field = "AFR protection is used to prevent engine from running lean"
|
||
field = "#Note: This function requires wideband sensor and proper AFR table"
|
||
field = ""
|
||
field = "Enable AFR protection ", afrProtectEnabled, {egoType == 2}
|
||
field = "Minimum manifold air pressure ", afrProtectMAP, {afrProtectEnabled}
|
||
field = "Minimum engine RPM ", afrProtectRPM, {afrProtectEnabled}
|
||
field = "Minimum throttle position ", afrProtectTPS, {afrProtectEnabled}
|
||
field = "Maximum lambda ", afrProtectDeviationLambda, {afrProtectEnabled}, {afrProtectEnabled == 0 || afrProtectEnabled == 1}
|
||
field = "Maximum lambda deviation ", afrProtectDeviationLambda, {afrProtectEnabled}, {afrProtectEnabled == 2}
|
||
field = "Maximum AFR ", afrProtectDeviation, {afrProtectEnabled}, {afrProtectEnabled == 0 || afrProtectEnabled == 1}
|
||
field = "Maximum AFR deviation ", afrProtectDeviation, {afrProtectEnabled}, {afrProtectEnabled == 2}
|
||
field = "Time before cut ", afrProtectCutTime, {afrProtectEnabled}
|
||
field = ""
|
||
field = "Reactivate below throttle ", afrProtectReactivationTPS, {afrProtectEnabled}
|
||
|
||
indicatorPanel = protectIndicatorPanel, 1, { 1 }
|
||
indicator = { engineProtectStatus}, "Engine Protect OFF", "Engine Protect ON", green, black, red, black
|
||
indicator = { engineProtectRPM }, "Rev Limiter Off", "Rev Limiter ON", green, black, red, black
|
||
indicator = { engineProtectMAP }, "Boost Limit OFF", "Boost Limit ON", green, black, red, black
|
||
indicator = { engineProtectOil }, "Oil Pres. Protect OFF","Oil Pres. Protect ON",green, black, red, black
|
||
indicator = { engineProtectAFR }, "AFR Protect OFF", "AFR Protect ON", green, black, red, black
|
||
indicator = { engineProtectCoolant }, "Coolant Protect OFF", "Coolant Protect ON", green, black, red, black
|
||
|
||
dialog = engineProtectionWest, "Engine Protection"
|
||
field = "Protection RPM Limit ('Limp Home')", engineProtectMaxRPM, { engineProtectType }
|
||
panel = protectIndicatorPanel, { engineProtectType }
|
||
|
||
dialog = engineProtection, "Hard Limit Configuration", yAxis
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Rev_Limits"
|
||
field = "Protection Cut", engineProtectType
|
||
;field = "!It is recommended to use Spark Cut on non-sequential fuel configurations", {}, {}, { engineProtectType > 1 && injLayout != 3 }
|
||
field = "Cut method", hardCutType, { engineProtectType > 0 } ;Only available for the protection modes that include ignition.
|
||
panel = rolling_prot_curve, { hardCutType == 1 }
|
||
panel = engineProtectionWest
|
||
|
||
dialog = clutchInput, "Clutch input"
|
||
field = "Clutch Input Pin", launchPin, { launchEnable || flatSEnable }
|
||
field = "Clutch enabled when signal is",launchHiLo, { launchEnable || flatSEnable }
|
||
field = "Clutch Pullup Resistor", lnchPullRes, { launchEnable || flatSEnable }
|
||
field = "Launch / Flat Shift switch RPM",flatSArm, { launchEnable || flatSEnable }
|
||
|
||
dialog = LaunchControl, "Launch Control / Flat shift", 6
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Launch_Flatshift"
|
||
panel = clutchInput
|
||
; Launch control
|
||
field = "Launch Control"
|
||
field = "Enable Launch", launchEnable
|
||
field = "TPS threshold", lnchCtrlTPS, { 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 }
|
||
|
||
; Flat shift
|
||
field = "Flat Shift"
|
||
field = "Enable flat shift", flatSEnable
|
||
field = "Soft rev window", flatSSoftWin, { flatSEnable }
|
||
field = "Soft limit absolute timing", flatSRetard, { flatSEnable }
|
||
|
||
dialog = NitrousStage1, "Stage 1"
|
||
field = "Nitrous Output Pin", n2o_stage1_pin
|
||
field = "Minimum Engage RPM", n2o_stage1_minRPM
|
||
field = "Maximum Engage RPM", n2o_stage1_maxRPM
|
||
field = "Fuel adder @ Min RPM", n2o_stage1_adderMin
|
||
field = "Fuel adder @ Max RPM", n2o_stage1_adderMax
|
||
field = "Ignition retard when active", n2o_stage1_retard
|
||
|
||
dialog = NitrousStage2, "Stage 2"
|
||
field = "Nitrous Output Pin", n2o_stage2_pin
|
||
field = "Minimum Engage RPM", n2o_stage2_minRPM
|
||
field = "Maximum Engage RPM", n2o_stage2_maxRPM
|
||
field = "Fuel adder @ Min RPM", n2o_stage2_adderMin
|
||
field = "Fuel adder @ Max RPM", n2o_stage2_adderMax
|
||
field = "Ignition retard when active", n2o_stage2_retard
|
||
|
||
dialog = NitrousMain, "Settings"
|
||
field = "Nitrous Mode", n2o_enable
|
||
field = "Arming Pin", n2o_arming_pin, { n2o_enable > 0 }
|
||
field = "Nitrous is armed when pin is", n2o_pin_polarity,{ n2o_enable > 0 }
|
||
field = "Minimum CLT", n2o_minCLT, { n2o_enable > 0 }
|
||
field = "Minimum TPS", n2o_minTPS, { n2o_enable > 0 }
|
||
field = "Maximum MAP", n2o_maxMAP, { n2o_enable > 0 }
|
||
field = "Leanest AFR", n2o_maxAFR, { n2o_enable > 0 }
|
||
field = "Leanest Lambda", n2o_maxLambda, { n2o_enable > 0 }
|
||
|
||
dialog = NitrousControl, "Nitrous"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Nitrous_Control"
|
||
panel = NitrousMain, North
|
||
panel = NitrousStage1, West, { n2o_enable > 0 }
|
||
panel = NitrousStage2, East, { n2o_enable > 1 }
|
||
|
||
dialog = batCal, "Calibrate voltage reading"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Sensor_Calibration"
|
||
slider = "Battery Voltage reading offset", batVoltCorrect, horizontal
|
||
|
||
dialog = mapCal, "Calibrate MAP"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Sensor_Calibration"
|
||
field = "#MAP Sensor"
|
||
settingSelector = "Common Pressure Sensors"
|
||
settingOption = "MPX4115/MPXxx6115A/KP234", mapMin=10, mapMax=121 ; https://www.nxp.com/docs/en/data-sheet/MPX4115.pdf Vout = VCC * (0.009*P - 0.095)
|
||
settingOption = "MPX4250A/MPXA4250A", mapMin=10, mapMax=260 ; https://www.nxp.com/docs/en/data-sheet/MPX4250A.pdf Vout = VCC x (P x 0.004 – 0.04)
|
||
settingOption = "GM 1-BAR", mapMin=10, mapMax=105 ; https://speeduino.com/wiki/index.php/File:GM_Table.gif
|
||
settingOption = "GM 2-BAR", mapMin=9, mapMax=208 ; https://speeduino.com/wiki/index.php/File:GM_Table.gif
|
||
settingOption = "GM 3-BAR", mapMin=1, mapMax=315 ; VOUT = VS*(.00318*P-.00353)
|
||
settingOption = "MPXH6300A", mapMin=1, mapMax=315 ; https://www.nxp.com/docs/en/data-sheet/MPXH6300A.pdf VOUT = VS*(.00318*P-.00353)
|
||
settingOption = "MPX5700A", mapMin=-31, mapMax=746 ; https://www.nxp.com/docs/en/data-sheet/MPX5700.pdf Vout = VS*(0.0012858*P+0.04)
|
||
settingOption = "MPXH6400A", mapMin=3, mapMax=416 ; https://www.nxp.com/docs/en/data-sheet/MPXH6400A.pdf VOUT = VS x (0.002421xP–0.00842)
|
||
settingOption = "Denso 079800", mapMin=0, mapMax=173 ; http://speeduino.com/forum/viewtopic.php?f=18&t=510&p=7023#p7021
|
||
settingOption = "VW/Audi/Porsche 250kPa", mapMin=26, mapMax=250 ; http://speeduino.com/forum/viewtopic.php?p=17502#p17502
|
||
settingOption = "Bosch 3 Bar TMAP", mapMin=-6, mapMax=323
|
||
settingOption = "MPX4100A", mapMin=14, mapMax=109 ; https://www.nxp.com/docs/en/data-sheet/MPX4100A.pdf Vout = VS (P x 0.01059 - 0.1518)
|
||
|
||
field = "kPa At 0.0 Volts", mapMin
|
||
field = "kPa At 5.0 Volts", mapMax
|
||
field = "Use legacy MAP reading",legacyMAP
|
||
|
||
field = "#Baro Sensor"
|
||
field = "Use external Baro sensor", useExtBaro
|
||
field = "Analog pin to use for ext. Baro sensor", baroPin, { useExtBaro }
|
||
|
||
settingSelector = "Common Pressure Sensors", { useExtBaro }
|
||
settingOption = "MPX4115/MPXxx6115A/KP234", baroMin=10, baroMax=121 ; https://www.nxp.com/docs/en/data-sheet/MPX4115.pdf Vout = VCC * (0.009*P - 0.095)
|
||
settingOption = "MPX4250A/MPXA4250A", baroMin=10, baroMax=260 ; https://www.nxp.com/docs/en/data-sheet/MPX4250A.pdf Vout = VCC x (P x 0.004 – 0.04)
|
||
settingOption = "GM 1-BAR", baroMin=10, baroMax=105 ; https://speeduino.com/wiki/index.php/File:GM_Table.gif
|
||
settingOption = "GM 2-BAR", baroMin=9, baroMax=208 ; https://speeduino.com/wiki/index.php/File:GM_Table.gif
|
||
settingOption = "GM 3-BAR", baroMin=1, baroMax=315 ; VOUT = VS*(.00318*P-.00353)
|
||
settingOption = "MPXH6300A", baroMin=1, baroMax=315 ; https://www.nxp.com/docs/en/data-sheet/MPXH6300A.pdf VOUT = VS*(.00318*P-.00353)
|
||
settingOption = "MPX5700A", baroMin=-31, baroMax=746 ; https://www.nxp.com/docs/en/data-sheet/MPX5700.pdf Vout = VS*(0.0012858*P+0.04)
|
||
settingOption = "MPXH6400A", baroMin=3, baroMax=416 ; https://www.nxp.com/docs/en/data-sheet/MPXH6400A.pdf VOUT = VS x (0.002421xP–0.00842)
|
||
settingOption = "Denso 079800", baroMin=0, baroMax=173 ; http://speeduino.com/forum/viewtopic.php?f=18&t=510&p=7023#p7021
|
||
settingOption = "VW/Audi/Porsche 250kPa", baroMin=26, baroMax=250 ; http://speeduino.com/forum/viewtopic.php?p=17502#p17502
|
||
settingOption = "Bosch 3 Bar TMAP", baroMin=-6, baroMax=323
|
||
settingOption = "MPX4100A", baroMin=14, baroMax=109 ; https://www.nxp.com/docs/en/data-sheet/MPX4100A.pdf Vout = VS (P x 0.01059 - 0.1518)
|
||
|
||
field = "kPa At 0.0 Volts", baroMin, { useExtBaro }
|
||
field = "kPa At 5.0 Volts", baroMax, { useExtBaro }
|
||
|
||
field = "#EMAP Sensor"
|
||
field = "Use EMAP sensor", useEMAP
|
||
field = "Analog pin to use", EMAPPin, { useEMAP }
|
||
|
||
settingSelector = "Common Pressure Sensors", { useEMAP }
|
||
settingOption = "MPX4115/MPXxx6115A/KP234", EMAPMin=10, EMAPMax=118 ; https://www.nxp.com/docs/en/data-sheet/MPX4115.pdf
|
||
settingOption = "MPX4250A/MPXA4250A", EMAPMin=10, EMAPMax=260 ; https://www.nxp.com/docs/en/data-sheet/MPX4250A.pdf Vout = VCC x (P x 0.004 – 0.04)
|
||
settingOption = "GM 1-BAR", EMAPMin=10, EMAPMax=105 ; https://speeduino.com/wiki/index.php/File:GM_Table.gif
|
||
settingOption = "GM 2-BAR", EMAPMin=9, EMAPMax=208 ; https://speeduino.com/wiki/index.php/File:GM_Table.gif
|
||
settingOption = "GM 3-BAR", EMAPMin=1, EMAPMax=315 ; VOUT = VS*(.00318*P-.00353)
|
||
settingOption = "MPXH6300A", EMAPMin=1, EMAPMax=315 ; https://www.nxp.com/docs/en/data-sheet/MPXH6300A.pdf VOUT = VS*(.00318*P-.00353)
|
||
settingOption = "MPX5700A", EMAPMin=-31, EMAPMax=746 ; https://www.nxp.com/docs/en/data-sheet/MPX5700.pdf Vout = VS*(0.0012858*P+0.04)
|
||
settingOption = "MPXH6400A", EMAPMin=3, EMAPMax=416 ; https://www.nxp.com/docs/en/data-sheet/MPXH6400A.pdf VOUT = VS x (0.002421xP–0.00842)
|
||
settingOption = "Denso 079800", EMAPMin=0, EMAPMax=173 ; http://speeduino.com/forum/viewtopic.php?f=18&t=510&p=7023#p7021
|
||
settingOption = "VW/Audi/Porsche 250kPa", EMAPMin=26, EMAPMax=250 ; http://speeduino.com/forum/viewtopic.php?p=17502#p17502
|
||
settingOption = "MPX4100A", EMAPMin=14, EMAPMax=109 ; https://www.nxp.com/docs/en/data-sheet/MPX4100A.pdf Vout = VS (P x 0.01059 - 0.1518)
|
||
|
||
field = "kPa At 0.0 Volts", EMAPMin, { useEMAP }
|
||
field = "kPa At 5.0 Volts", EMAPMax, { useEMAP }
|
||
|
||
dialog = sensorFilters, "Analog sensor filters"
|
||
field = "The values here set the amount of filtering to apply to each analog input"
|
||
field = "Higher values result in stronger filtering, but slower response times for readings"
|
||
field = "#Most setups will NOT require changes to the default filter values"
|
||
field = ""
|
||
slider = "Throttle Position sensor", ADCFILTER_TPS, horizontal
|
||
slider = "Coolant sensor", ADCFILTER_CLT, horizontal
|
||
slider = "Inlet Air Temp sensor", ADCFILTER_IAT, horizontal
|
||
slider = "O2 sensor", ADCFILTER_O2, horizontal
|
||
slider = "Battery voltage", ADCFILTER_BAT, horizontal
|
||
slider = "MAP sensor", ADCFILTER_MAP, horizontal
|
||
slider = "Baro sensor", ADCFILTER_BARO, horizontal, { useExtBaro > 0 }
|
||
|
||
dialog = fuelPressureSettings
|
||
field = "Enabled", fuelPressureEnable
|
||
field = "Pin", fuelPressurePin, { fuelPressureEnable }
|
||
settingSelector = "Common Sensors", { fuelPressureEnable }
|
||
#if pressure_bar
|
||
settingOption = "0-10 BAR", fuelPressureMin=-1.25, fuelPressureMax=11.25 ; regular sensors give 0.5V to 4.5V for 0 bar to rated bar. Formula Vout = P x 4 / P_rated + 0.5
|
||
settingOption = "0-100 PSI", fuelPressureMin=-0.1, fuelPressureMax=7.1 ; these are just converted psi to bar. Kept because most off-shelf are in PSI
|
||
settingOption = "0-150 PSI", fuelPressureMin=-1.25, fuelPressureMax=11.58
|
||
#else
|
||
settingOption = "0-100 PSI", fuelPressureMin=-3, fuelPressureMax=103 ; Vout = VCC x (P x .97 / 200 + 0.5)
|
||
settingOption = "0-150 PSI", fuelPressureMin=-18, fuelPressureMax=168 ; Vout = VCC x (P x 0.8 / 150 + 0.1) https://aftermarketindustries.com.au/image/cache/data/aftermarket%20industries%20fuel%20pressure%20sensor%20data%202-500x500.png
|
||
#endif
|
||
field = "Pressure at 0v", fuelPressureMin, { fuelPressureEnable }
|
||
field = "Pressure at 5v", fuelPressureMax, { fuelPressureEnable }
|
||
|
||
dialog = fuelPressureDialog, "Fuel Pressure", xAxis
|
||
#if pressure_bar
|
||
gauge = fuelPressureBarGauge
|
||
#else
|
||
gauge = fuelPressureGauge
|
||
#endif
|
||
panel = fuelPressureSettings
|
||
|
||
dialog = oilPressureSettings
|
||
field = "Enabled", oilPressureEnable
|
||
field = "Pin", oilPressurePin, { oilPressureEnable }
|
||
settingSelector = "Common Sensors", { oilPressureEnable }
|
||
#if pressure_bar
|
||
settingOption = "0-10 BAR", oilPressureMin=-1.25, oilPressureMax=11.25 ; regular sensors give 0.5V to 4.5V for 0 bar to rated bar. Formula Vout = P x 4 / P_rated + 0.5
|
||
settingOption = "0-100 PSI", oilPressureMin=-0.1, oilPressureMax=7.1 ; these are just converted psi to bar. Kept because most off-shelf are in PSI
|
||
settingOption = "0-150 PSI", oilPressureMin=-1.25, oilPressureMax=11.58
|
||
#else
|
||
settingOption = "0-100 PSI", oilPressureMin=-3, oilPressureMax=103 ; Vout = VCC x (P x .97 / 200 + 0.5)
|
||
settingOption = "0-150 PSI", oilPressureMin=-18, oilPressureMax=168 ; Vout = VCC x (P x 0.8 / 150 + 0.1) https://aftermarketindustries.com.au/image/cache/data/aftermarket%20industries%20fuel%20pressure%20sensor%20data%202-500x500.png
|
||
#endif
|
||
field = "Pressure at 0v", oilPressureMin, { oilPressureEnable }
|
||
field = "Pressure at 5v", oilPressureMax, { oilPressureEnable }
|
||
|
||
dialog = oilPressureDialog, "Oil Pressure", xAxis
|
||
#if pressure_bar
|
||
gauge = oilPressureBarGauge
|
||
#else
|
||
gauge = oilPressureGauge
|
||
#endif
|
||
panel = oilPressureSettings
|
||
|
||
dialog = pressureSensors, "Pressure Transducers"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Sensor_Calibration"
|
||
panel = fuelPressureDialog
|
||
panel = oilPressureDialog
|
||
|
||
dialog = boostSettings, "Boost Control"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Boost_Control"
|
||
field = "Boost Control Enabled", boostEnabled
|
||
field = "Boost control type", boostType, { boostEnabled }
|
||
field = "Boost output pin", boostPin, { boostEnabled }
|
||
field = "Boost solenoid freq.", boostFreq, { boostEnabled }
|
||
|
||
field = "Valve minimum duty cycle", boostMinDuty, { boostEnabled && boostType == 1 }
|
||
field = "Valve maximum duty cycle", boostMaxDuty, { boostEnabled && boostType == 1 }
|
||
panel = boostCut
|
||
panel = boostByGear, { boostEnabled && vssMode > 0 }
|
||
field = "Closed Loop settings"
|
||
field = "Control mode", boostMode, { boostEnabled && boostType == 1 }
|
||
field = "Boost control enable trigger", boostControlEnable { boostEnabled && boostType == 1 }
|
||
field = "Valve duty when below threshold", boostDCWhenDisabled { boostEnabled && boostType == 1 }
|
||
field = "Boost control enable threshold", boostControlEnableThreshold { boostEnabled && boostControlEnable && boostType == 1 }
|
||
slider = "Sensitivity", boostSens, horizontal, { boostEnabled && boostType == 1 }
|
||
field = "Control interval", boostIntv, { boostEnabled && boostType == 1 }
|
||
field = "P", boostKP, { boostEnabled && boostMode && boostType == 1 }
|
||
field = "I", boostKI, { boostEnabled && boostMode && boostType == 1 }
|
||
field = "D", boostKD, { boostEnabled && boostMode && boostType == 1 }
|
||
|
||
dialog = vvt2, "Second VVT output"
|
||
field = "!VVT2 PWM is shared with WMI. The 2 cannot be used at the same time.", {}, {}, { wmiEnabled }
|
||
field = "VVT2 Control Enabled", vvt2Enabled, { !wmiEnabled }
|
||
field = "VVT2 output pin", vvt2Pin, { vvt2Enabled }
|
||
field = "VVT2 Trigger edge", TrigEdgeThrd, { vvt2Enabled }
|
||
field = "Increased duty direction",vvt2PWMdir, { vvt2Enabled && vvtMode == 2 }
|
||
field = "VVT2 Cam angle @ 0% duty",vvt2CL0DutyAng, { vvt2Enabled && vvtMode == 2 }
|
||
|
||
|
||
dialog = vvtClosedLoop, "Closed loop"
|
||
field = "Increased duty direction", vvtPWMdir
|
||
field = "Hold duty used", vvtCLUseHold
|
||
field = "Hold duty", vvtCLholdDuty, { vvtCLUseHold }
|
||
field = "Adjust fuel timing", vvtCLAlterFuelTiming
|
||
field = "Cam angle @ 0% duty", vvtCL0DutyAng
|
||
field = "Minimum Cam angle", vvtCLMinAng
|
||
field = "Maximum Cam angle", vvtCLMaxAng
|
||
field = ""
|
||
displayOnlyField = "# !!! Please note that 1.0 means 100% !!!"
|
||
field = "Proportional Gain", vvtCLKP
|
||
field = "Integral Gain", vvtCLKI
|
||
field = "Differential Gain", vvtCLKD
|
||
field = "Minimum valve duty", vvtCLminDuty, { vvtEnabled && vvtMode == 2 }
|
||
field = "Maximum valve duty", vvtCLmaxDuty, { vvtEnabled && vvtMode == 2 }
|
||
|
||
|
||
dialog = vvtSettings, "VVT Control"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/VVT"
|
||
field = "VVT Control Enabled", vvtEnabled
|
||
field = "VVT Minimum CLT", vvtMinClt, { vvtEnabled }
|
||
field = "VVT Delay", vvtDelay, { vvtEnabled }
|
||
field = "VVT Mode", vvtMode, { vvtEnabled }
|
||
field = "#Note: Closed loop is currently experimental and available on Miata and missing tooth patterns ONLY", {}, {}, { vvtMode == 2 }
|
||
field = "Load source", vvtLoadSource, { vvtEnabled }
|
||
field = "VVT output pin", vvt1Pin, { vvtEnabled }
|
||
field = "VVT solenoid freq.", vvtFreq, { vvtEnabled }
|
||
slider = "VVT angle filter ", ANGLEFILTER_VVT,horizontal, { vvtEnabled }
|
||
panel = vvtClosedLoop, { vvtEnabled && vvtMode == 2 }
|
||
panel = vvt2, { vvtEnabled }
|
||
|
||
dialog = wmiSettings, "WMI Control"
|
||
field = "!WMI PWM is shared with VVT2. The 2 cannot be used at the same time.", {}, {}, { vvt2Enabled }
|
||
field = "WMI Control Enabled", wmiEnabled, { !vvt2Enabled }
|
||
field = "WMI Mode", wmiMode, { wmiEnabled }
|
||
field = "WMI min TPS", wmiTPS, { wmiEnabled }
|
||
field = "WMI min RPM", wmiRPM , { wmiEnabled }
|
||
field = "WMI min MAP", wmiMAP, { wmiEnabled }
|
||
field = "WMI max MAP", wmiMAP2, { wmiEnabled && wmiMode == 1}
|
||
field = "WMI min IAT", wmiIAT, { wmiEnabled }
|
||
field = "WMI offset", wmiOffset, { wmiEnabled && wmiMode == 3}
|
||
field = ""
|
||
field = "WMI PWM output pin", vvt2Pin, { wmiEnabled }
|
||
field = "!WMI PWM frequency is the same as VVT. The 2 cannot be set independently.", {}, {}, { vvt2Enabled }
|
||
field = "WMI PWM freq.", vvtFreq, { wmiEnabled }
|
||
field = ""
|
||
field = "WMI enabled output pin", wmiEnabledPin, { wmiEnabled }
|
||
field = ""
|
||
field = "WMI tank empty input", wmiEmptyEnabled, { wmiEnabled }
|
||
field = "WMI tank empty pin", wmiEmptyPin, { wmiEnabled }
|
||
field = "WMI tank empty polarity",wmiEmptyPolarity, { wmiEnabled }
|
||
field = ""
|
||
field = "WMI tank indicator output", wmiIndicatorEnabled, { wmiEnabled }
|
||
field = "WMI tank indicator pin", wmiIndicatorPin, { wmiEnabled }
|
||
field = "WMI tank indicator polarity",wmiIndicatorPolarity, { wmiEnabled }
|
||
field = ""
|
||
field = "Ignition advance correction", wmiAdvEnabled, { wmiEnabled }
|
||
panel = wmi_adv_curve, { wmiEnabled && wmiAdvEnabled }
|
||
|
||
dialog = warmup, "Warmup Enrichment (WUE) - Percent Multiplier"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Warmup"
|
||
panel = warmup_curve
|
||
|
||
;Fuel trim composite dialog
|
||
dialog = inj_trim1TblTitle, "Channel #1"
|
||
panel = fuelTrimTable1Tbl, { fuelTrimEnabled && nCylinders >= 2 }
|
||
dialog = inj_trim2TblTitle, "Channel #2"
|
||
panel = fuelTrimTable2Tbl, { fuelTrimEnabled && nCylinders >= 2 }
|
||
dialog = inj_trim3TblTitle, "Channel #3"
|
||
panel = fuelTrimTable3Tbl, { fuelTrimEnabled && nCylinders >= 3 }
|
||
dialog = inj_trim4TblTitle, "Channel #4"
|
||
panel = fuelTrimTable4Tbl, { fuelTrimEnabled && nCylinders >= 4 }
|
||
dialog = inj_trim5TblTitle, "Channel #5"
|
||
panel = fuelTrimTable5Tbl, { fuelTrimEnabled && nCylinders >= 5 }
|
||
dialog = inj_trim6TblTitle, "Channel #6"
|
||
panel = fuelTrimTable6Tbl, { fuelTrimEnabled && nCylinders >= 6 }
|
||
dialog = inj_trim7TblTitle, "Channel #7"
|
||
panel = fuelTrimTable7Tbl, { fuelTrimEnabled && nCylinders >= 7 }
|
||
dialog = inj_trim8TblTitle, "Channel #8"
|
||
panel = fuelTrimTable8Tbl, { fuelTrimEnabled && nCylinders >= 8 }
|
||
|
||
dialog = inj_trimadt, "", xAxis
|
||
panel = inj_trim1TblTitle
|
||
panel = inj_trim2TblTitle
|
||
dialog = inj_trimadb, "", xAxis
|
||
panel = inj_trim3TblTitle
|
||
panel = inj_trim4TblTitle
|
||
dialog = inj_trimadt_B, "", xAxis
|
||
panel = inj_trim5TblTitle
|
||
panel = inj_trim6TblTitle
|
||
dialog = inj_trimadb_B, "", xAxis
|
||
panel = inj_trim7TblTitle
|
||
panel = inj_trim8TblTitle
|
||
|
||
dialog = inj_trim_enable, ""
|
||
field = "Individual fuel trim enabled", fuelTrimEnabled, { injLayout == 3 && nCylinders <= nFuelChannels }
|
||
|
||
dialog = inj_trimad,"Injector Cyl 1-4 Trims", yAxis
|
||
panel = inj_trim_enable, North
|
||
panel = inj_trimadt, Center
|
||
panel = inj_trimadb, South
|
||
|
||
dialog = inj_trimad_B,"Injector Cyl 5-8 Trims", yAxis
|
||
panel = inj_trim_enable, North
|
||
panel = inj_trimadt_B, Center
|
||
panel = inj_trimadb_B, South
|
||
|
||
;;Injector staging
|
||
dialog = stagingTableDialog_north, ""
|
||
field = "Staging enabled", stagingEnabled
|
||
field = "Staging mode", stagingMode
|
||
field = "Size of primary injectors", stagedInjSizePri, { stagingEnabled }
|
||
field = "Size of secondary injectors", stagedInjSizeSec, { stagingEnabled }
|
||
|
||
dialog = stagingTableDialog_south, ""
|
||
panel = stagingTbl, { stagingMode == 0 }
|
||
|
||
dialog = stagingTableDialog, "Staged injection"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Staged_Injection"
|
||
panel = stagingTableDialog_north, North
|
||
panel = stagingTableDialog_south, South
|
||
|
||
dialog = outputtest_warningmessage, ""
|
||
field = "!WARNING! USE AT YOUR OWN RISK. INCORRECT USE WILL DAMAGE YOUR HARDWARE!"
|
||
field = "Do not attempt to use this page whilst your engine is running!"
|
||
field = "Forcing the Injector or Spark outputs could cause flooding of your engine or permanent damage to ignition coils!"
|
||
|
||
|
||
dialog = enableoutputtestbuttons, "Enable Test Controls", xAxis
|
||
;commandButton = "Label Text", command, { Enabled Condition }, optionalFlags
|
||
|
||
; The rem > 0 expression is just for testing.. It works when the arduino is on the Stim with rpm.
|
||
; a status bit there would be the expected real expression
|
||
commandButton = "Enable Test Mode", cmdEnableTestMode,{!testenabled && !testactive }
|
||
|
||
; if clickOnCloseIfEnabled is set, then the command assigned to this button will be run on the
|
||
; dialog close, but only if the enable condition is true
|
||
; valid click flags are:
|
||
; clickOnCloseIfEnabled - the command will be sent on dialog close if active condition is true
|
||
; clickOnCloseIfDisabled - the command will be sent on dialog close if active condition is false
|
||
; clickOnClose - the command will be sent on dialog close always
|
||
commandButton = "Stop Test Mode", cmdStopTestMode,{testactive}, clickOnCloseIfEnabled
|
||
|
||
dialog = outputtestinj1, "Injector CH1", yAxis
|
||
commandButton = "Off", cmdtestinj1off,{testactive}
|
||
commandButton = "On - Pulsed", cmdtestinj1Pulsed,{!testenabled && testactive}
|
||
commandButton = "On - 100% DC", cmdtestinj1on,{!testenabled && testactive}
|
||
dialog = outputtestinj2, "Injector CH2", yAxis
|
||
commandButton = "Off", cmdtestinj2off,{testactive && nFuelChannels >= 2 }
|
||
commandButton = "On - Pulsed", cmdtestinj2Pulsed,{!testenabled && testactive && nFuelChannels >= 2 }
|
||
commandButton = "On - 100% DC", cmdtestinj2on,{ !testenabled && testactive && nFuelChannels >= 2 }
|
||
dialog = outputtestinj3, "Injector CH3", yAxis
|
||
commandButton = "Off", cmdtestinj3off,{ testactive && nFuelChannels >= 3 }
|
||
commandButton = "On - Pulsed", cmdtestinj3Pulsed,{!testenabled && testactive && nFuelChannels >= 3 }
|
||
commandButton = "On - 100% DC", cmdtestinj3on,{ !testenabled && testactive && nFuelChannels >= 3 }
|
||
dialog = outputtestinj4, "Injector CH4", yAxis
|
||
commandButton = "Off", cmdtestinj4off,{ testactive && nFuelChannels >= 4 }
|
||
commandButton = "On - Pulsed", cmdtestinj4Pulsed,{!testenabled && testactive && nFuelChannels >= 4 }
|
||
commandButton = "On - 100% DC", cmdtestinj4on ,{ !testenabled && testactive && nFuelChannels >= 4 }
|
||
dialog = outputtestinj5, "Injector CH5", yAxis
|
||
commandButton = "Off", cmdtestinj5off,{ testactive && nFuelChannels >= 5 }
|
||
commandButton = "On - Pulsed", cmdtestinj5Pulsed,{!testenabled && testactive && nFuelChannels >= 5 }
|
||
commandButton = "On - 100% DC", cmdtestinj5on,{ !testenabled && testactive && nFuelChannels >= 5 }
|
||
dialog = outputtestinj6, "Injector CH6", yAxis
|
||
commandButton = "Off", cmdtestinj6off,{ testactive && nFuelChannels >= 6 }
|
||
commandButton = "On - Pulsed", cmdtestinj6Pulsed,{!testenabled && testactive && nFuelChannels >= 6 }
|
||
commandButton = "On - 100% DC", cmdtestinj6on ,{ !testenabled && testactive && nFuelChannels >= 6 }
|
||
dialog = outputtestinj7, "Injector CH7", yAxis
|
||
commandButton = "Off", cmdtestinj7off,{ testactive && nFuelChannels >= 7 }
|
||
commandButton = "On - Pulsed", cmdtestinj7Pulsed,{!testenabled && testactive && nFuelChannels >= 7 }
|
||
commandButton = "On - 100% DC", cmdtestinj7on,{ !testenabled && testactive && nFuelChannels >= 7 }
|
||
dialog = outputtestinj8, "Injector CH8", yAxis
|
||
commandButton = "Off", cmdtestinj8off,{ testactive && nFuelChannels >= 8 }
|
||
commandButton = "On - Pulsed", cmdtestinj8Pulsed,{!testenabled && testactive && nFuelChannels >= 8 }
|
||
commandButton = "On - 100% DC", cmdtestinj8on ,{ !testenabled && testactive && nFuelChannels >= 8 }
|
||
|
||
dialog = outputtest_injectors_south, "Injector Driver Output Test", xAxis
|
||
panel = outputtestinj1
|
||
panel = outputtestinj2
|
||
panel = outputtestinj3
|
||
panel = outputtestinj4
|
||
panel = outputtestinj5
|
||
panel = outputtestinj6
|
||
panel = outputtestinj7
|
||
panel = outputtestinj8
|
||
|
||
dialog = outputtest_injectors, "Injector Driver Output Test", yAxis
|
||
field = "Test pulse duration", hwTestInjDuration, {testactive}
|
||
panel = outputtest_injectors_south
|
||
|
||
dialog = outputtestspk1, "Spark CH1 ", yAxis
|
||
commandButton = "Off", cmdtestspk1off,{testactive}
|
||
commandButton = "On - Pulsed", cmdtestspk1Pulsed,{!testenabled && testactive}
|
||
commandButton = "On - 100% DC", cmdtestspk1on,{!testenabled && testactive}
|
||
dialog = outputtestspk2, "Spark CH2", yAxis
|
||
commandButton = "Off", cmdtestspk2off,{testactive && nIgnChannels >= 2 }
|
||
commandButton = "On - Pulsed", cmdtestspk2Pulsed,{!testenabled && testactive && nIgnChannels >= 2 }
|
||
commandButton = "On - 100% DC", cmdtestspk2on,{ !testenabled && testactive && nIgnChannels >= 2 }
|
||
dialog = outputtestspk3, "Spark CH3", yAxis
|
||
commandButton = "Off", cmdtestspk3off,{testactive && nIgnChannels >= 3 }
|
||
commandButton = "On - Pulsed", cmdtestspk3Pulsed,{!testenabled && testactive && nIgnChannels >= 3 }
|
||
commandButton = "On - 100% DC", cmdtestspk3on,{ !testenabled && testactive && nIgnChannels >= 3 }
|
||
dialog = outputtestspk4, "Spark CH4", yAxis
|
||
commandButton = "Off", cmdtestspk4off,{testactive && nIgnChannels >= 4 }
|
||
commandButton = "On - Pulsed", cmdtestspk4Pulsed,{!testenabled && testactive && nIgnChannels >= 4}
|
||
commandButton = "On - 100% DC", cmdtestspk4on,{ !testenabled && testactive && nIgnChannels >= 4 }
|
||
dialog = outputtestspk5, "Spark CH5", yAxis
|
||
commandButton = "Off", cmdtestspk5off,{testactive && nIgnChannels >= 5 }
|
||
commandButton = "On - Pulsed", cmdtestspk5Pulsed,{!testenabled && testactive && nIgnChannels >= 5}
|
||
commandButton = "On - 100% DC", cmdtestspk5on,{ !testenabled && testactive && nIgnChannels >= 5 }
|
||
dialog = outputtestspk6, "Spark CH6", yAxis
|
||
commandButton = "Off", cmdtestspk6off,{testactive && nIgnChannels >= 6 }
|
||
commandButton = "On - Pulsed", cmdtestspk6Pulsed,{!testenabled && testactive && nIgnChannels >= 6}
|
||
commandButton = "On - 100% DC", cmdtestspk6on,{ !testenabled && testactive && nIgnChannels >= 6 }
|
||
dialog = outputtestspk7, "Spark CH7", yAxis
|
||
commandButton = "Off", cmdtestspk7off,{testactive && nIgnChannels >= 7 }
|
||
commandButton = "On - Pulsed", cmdtestspk7Pulsed,{!testenabled && testactive && nIgnChannels >= 7}
|
||
commandButton = "On - 100% DC", cmdtestspk7on,{ !testenabled && testactive && nIgnChannels >= 7 }
|
||
dialog = outputtestspk8, "Spark CH8", yAxis
|
||
commandButton = "Off", cmdtestspk8off,{testactive && nIgnChannels >= 8 }
|
||
commandButton = "On - Pulsed", cmdtestspk8Pulsed,{!testenabled && testactive && nIgnChannels >= 8}
|
||
commandButton = "On - 100% DC", cmdtestspk8on,{ !testenabled && testactive && nIgnChannels >= 8 }
|
||
|
||
dialog = outputtest_spark_south, "Spark Driver Output Test", xAxis
|
||
panel = outputtestspk1
|
||
panel = outputtestspk2
|
||
panel = outputtestspk3
|
||
panel = outputtestspk4
|
||
panel = outputtestspk5
|
||
panel = outputtestspk6
|
||
panel = outputtestspk7
|
||
panel = outputtestspk8
|
||
|
||
dialog = outputtest_spark, "Spark Driver Output Test", yAxis
|
||
field = "Test pulse duration", hwTestIgnDuration, {testactive}
|
||
panel = outputtest_spark_south
|
||
|
||
dialog = outputtest1,"Test Output Hardware"
|
||
topicHelp = "http://wiki.speeduino.com/en/Hardware_testing_page"
|
||
panel = enableoutputtestbuttons
|
||
panel = outputtest_injectors
|
||
panel = outputtest_spark
|
||
;panel = outputtest_io2
|
||
panel = outputtest_warningmessage
|
||
|
||
dialog = stm32cmd, "STM32 Commands", yAxis
|
||
commandButton = "Reboot to system", cmdstm32reboot
|
||
commandButton = "Reboot to bootloader", cmdstm32bootloader
|
||
|
||
dialog = CanBcast, "CAN Broadcasting menu"
|
||
field = "BMW Instrument Cluster Broadcast", canBMWCluster
|
||
field = "VAG Instrument Cluster Broadcast", canVAGCluster
|
||
|
||
dialog = Auxin_north
|
||
displayOnlyField = !"Secondary Serial DISABLED", blankfield, {enable_secondarySerial == 0},{enable_secondarySerial == 0}
|
||
displayOnlyField = #"Internal CANBUS ENABLED", blankfield, {enable_intcan && intcan_available},{enable_intcan && intcan_available}
|
||
displayOnlyField = !"Internal CANBUS DISABLED", blankfield, {enable_intcan == 0 && intcan_available},{enable_intcan == 0 && intcan_available}
|
||
displayOnlyField = !"Internal CANBUS NOT AVAILABLE to MCU", blankfield, {enable_intcan == 1 && intcan_available == 0},{enable_intcan == 1 && intcan_available == 0}
|
||
displayOnlyField = !"Internal CANBUS NOT AVAILABLE to MCU", blankfield, {enable_intcan == 0 && intcan_available == 0},{enable_intcan == 0 && intcan_available == 0}
|
||
field = " If Secondary Serial or Internal CANBUS is DISABLED then any input channel assigned to that external source will NOT function"
|
||
|
||
dialog = selectionOfEdianness. , "Endianness", yAxis
|
||
field = "", caninputEndianess {(enable_intcan && intcan_available)}
|
||
|
||
dialog = canAuxinput_alias, "", yAxis
|
||
field = "Input Alias"
|
||
field = "", AUXin00Alias , {(caninput_sel0a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel0b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin01Alias , {(caninput_sel1a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel1b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin02Alias , {(caninput_sel2a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel2b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin03Alias , {(caninput_sel3a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel3b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin04Alias , {(caninput_sel4a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel4b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin05Alias , {(caninput_sel5a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel5b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin06Alias , {(caninput_sel6a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel6b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin07Alias , {(caninput_sel7a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel7b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin08Alias , {(caninput_sel8a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel8b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin09Alias , {(caninput_sel9a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel9b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin10Alias , {(caninput_sel10a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel10b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin11Alias , {(caninput_sel11a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel11b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin12Alias , {(caninput_sel12a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel12b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin13Alias , {(caninput_sel13a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel13b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin14Alias , {(caninput_sel14a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel14b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin15Alias , {(caninput_sel15a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel15b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
|
||
dialog = caninput_sel, ""
|
||
;CAN inputs
|
||
field = " CAN Input Channel on/off"
|
||
field = "CAN Input 0", caninput_sel0a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 0", caninput_sel0b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 1", caninput_sel1a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 1", caninput_sel1b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 2", caninput_sel2a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 2", caninput_sel2b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 3", caninput_sel3a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 3", caninput_sel3b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 4", caninput_sel4a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 4", caninput_sel4b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 5", caninput_sel5a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 5", caninput_sel5b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 6", caninput_sel6a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 6", caninput_sel6b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 7", caninput_sel7a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 7", caninput_sel7b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 8", caninput_sel8a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 8", caninput_sel8b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 9", caninput_sel9a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 9", caninput_sel9b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 10", caninput_sel10a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 10", caninput_sel10b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 11", caninput_sel11a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 11", caninput_sel11b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 12", caninput_sel12a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 12", caninput_sel12b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 13", caninput_sel13a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 13", caninput_sel13b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 14", caninput_sel14a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 14", caninput_sel14b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "CAN Input 15", caninput_sel15a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "CAN Input 15", caninput_sel15b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
|
||
dialog = caninput_parameter_group, "", yAxis
|
||
field = " Source CAN Address"
|
||
field = "", caninput_source_can_address0, { (caninput_sel0a == 1 || caninput_sel0b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address1, { (caninput_sel1a == 1 || caninput_sel1b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address2, { (caninput_sel2a == 1 || caninput_sel2b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address3, { (caninput_sel3a == 1 || caninput_sel3b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address4, { (caninput_sel4a == 1 || caninput_sel4b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address5, { (caninput_sel5a == 1 || caninput_sel5b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address6, { (caninput_sel6a == 1 || caninput_sel6b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address7, { (caninput_sel7a == 1 || caninput_sel7b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address8, { (caninput_sel8a == 1 || caninput_sel8b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address9, { (caninput_sel9a == 1 || caninput_sel9b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address10, { (caninput_sel10a == 1 || caninput_sel10b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address11, { (caninput_sel11a == 1 || caninput_sel11b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address12, { (caninput_sel12a == 1 || caninput_sel12b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address13, { (caninput_sel13a == 1 || caninput_sel13b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address14, { (caninput_sel14a == 1 || caninput_sel14b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_can_address15, { (caninput_sel15a == 1 || caninput_sel15b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
|
||
dialog = caninput_parameter_start_byte, "", yAxis
|
||
field = " source data start byte"
|
||
field = "", caninput_source_start_byte0, { (caninput_sel0a == 1 || caninput_sel0b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte1, { (caninput_sel1a == 1 || caninput_sel1b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte2, { (caninput_sel2a == 1 || caninput_sel2b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte3, { (caninput_sel3a == 1 || caninput_sel3b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte4, { (caninput_sel4a == 1 || caninput_sel4b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte5, { (caninput_sel5a == 1 || caninput_sel5b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte6, { (caninput_sel6a == 1 || caninput_sel6b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte7, { (caninput_sel7a == 1 || caninput_sel7b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte8, { (caninput_sel8a == 1 || caninput_sel8b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte9, { (caninput_sel9a == 1 || caninput_sel9b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte10, { (caninput_sel10a == 1 || caninput_sel10b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte11, { (caninput_sel11a == 1 || caninput_sel11b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte12, { (caninput_sel12a == 1 || caninput_sel12b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte13, { (caninput_sel13a == 1 || caninput_sel13b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte14, { (caninput_sel14a == 1 || caninput_sel14b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_start_byte15, { (caninput_sel15a == 1 || caninput_sel15b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
|
||
dialog = caninput_parameter_num_byte, "", yAxis
|
||
field = "Input Parameter Number of Bytes"
|
||
field = "", caninput_source_num_bytes0, { (caninput_sel0a == 1 || caninput_sel0b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes1, { (caninput_sel1a == 1 || caninput_sel1b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes2, { (caninput_sel2a == 1 || caninput_sel2b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes3, { (caninput_sel3a == 1 || caninput_sel3b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes4, { (caninput_sel4a == 1 || caninput_sel4b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes5, { (caninput_sel5a == 1 || caninput_sel5b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes6, { (caninput_sel6a == 1 || caninput_sel6b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes7, { (caninput_sel7a == 1 || caninput_sel7b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes8, { (caninput_sel8a == 1 || caninput_sel8b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes9, { (caninput_sel9a == 1 || caninput_sel9b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes10, { (caninput_sel10a == 1 || caninput_sel10b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes11, { (caninput_sel11a == 1 || caninput_sel11b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes12, { (caninput_sel12a == 1 || caninput_sel12b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes13, { (caninput_sel13a == 1 || caninput_sel13b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes14, { (caninput_sel14a == 1 || caninput_sel14b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
field = "", caninput_source_num_bytes15, { (caninput_sel15a == 1 || caninput_sel15b == 1) && (enable_secondarySerial || (enable_intcan && intcan_available)) }
|
||
|
||
dialog = caninput_serial_can, "", yAxis
|
||
field = "Serial/CAN"
|
||
field = "", caninput_sel0extsourcea, {(caninput_sel0a == 1 || caninput_sel0b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel0extsourceb, {(caninput_sel0a == 1 || caninput_sel0b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel0extsourcec, {(caninput_sel0a == 1 || caninput_sel0b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel1extsourcea, {(caninput_sel1a == 1 || caninput_sel1b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel1extsourceb, {(caninput_sel1a == 1 || caninput_sel1b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel1extsourcec, {(caninput_sel1a == 1 || caninput_sel1b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel2extsourcea, {(caninput_sel2a == 1 || caninput_sel2b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel2extsourceb, {(caninput_sel2a == 1 || caninput_sel2b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel2extsourcec, {(caninput_sel2a == 1 || caninput_sel2b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel3extsourcea, {(caninput_sel3a == 1 || caninput_sel3b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel3extsourceb, {(caninput_sel3a == 1 || caninput_sel3b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel3extsourcec, {(caninput_sel3a == 1 || caninput_sel3b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel4extsourcea, {(caninput_sel4a == 1 || caninput_sel4b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel4extsourceb, {(caninput_sel4a == 1 || caninput_sel4b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel4extsourcec, {(caninput_sel4a == 1 || caninput_sel4b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel5extsourcea, {(caninput_sel5a == 1 || caninput_sel5b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel5extsourceb, {(caninput_sel5a == 1 || caninput_sel5b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel5extsourcec, {(caninput_sel5a == 1 || caninput_sel5b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel6extsourcea, {(caninput_sel6a == 1 || caninput_sel6b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel6extsourceb, {(caninput_sel6a == 1 || caninput_sel6b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel6extsourcec, {(caninput_sel6a == 1 || caninput_sel6b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel7extsourcea, {(caninput_sel7a == 1 || caninput_sel7b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel7extsourceb, {(caninput_sel7a == 1 || caninput_sel7b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel7extsourcec, {(caninput_sel7a == 1 || caninput_sel7b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel8extsourcea, {(caninput_sel8a == 1 || caninput_sel8b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel8extsourceb, {(caninput_sel8a == 1 || caninput_sel8b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel8extsourcec, {(caninput_sel8a == 1 || caninput_sel8b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel9extsourcea, {(caninput_sel9a == 1 || caninput_sel9b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel9extsourceb, {(caninput_sel9a == 1 || caninput_sel9b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel9extsourcec, {(caninput_sel9a == 1 || caninput_sel9b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel10extsourcea, {(caninput_sel10a == 1 || caninput_sel10b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel10extsourceb, {(caninput_sel10a == 1 || caninput_sel10b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel10extsourcec, {(caninput_sel10a == 1 || caninput_sel10b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel11extsourcea, {(caninput_sel11a == 1 || caninput_sel11b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel11extsourceb, {(caninput_sel11a == 1 || caninput_sel11b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel11extsourcec, {(caninput_sel11a == 1 || caninput_sel11b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel12extsourcea, {(caninput_sel12a == 1 || caninput_sel12b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel12extsourceb, {(caninput_sel12a == 1 || caninput_sel12b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel12extsourcec, {(caninput_sel12a == 1 || caninput_sel12b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel13extsourcea, {(caninput_sel13a == 1 || caninput_sel13b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel13extsourceb, {(caninput_sel13a == 1 || caninput_sel13b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel13extsourcec, {(caninput_sel13a == 1 || caninput_sel13b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel14extsourcea, {(caninput_sel14a == 1 || caninput_sel14b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel14extsourceb, {(caninput_sel14a == 1 || caninput_sel14b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel14extsourcec, {(caninput_sel14a == 1 || caninput_sel14b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel15extsourcea, {(caninput_sel15a == 1 || caninput_sel15b == 1) }, {enable_secondarySerial && (!enable_intcan || (enable_intcan && !intcan_available))}
|
||
field = "", caninput_sel15extsourceb, {(caninput_sel15a == 1 || caninput_sel15b == 1) }, {enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
field = "", caninput_sel15extsourcec, {(caninput_sel15a == 1 || caninput_sel15b == 1) }, {!enable_secondarySerial && (enable_intcan && intcan_available)}
|
||
|
||
dialog = caninconfig_blank1,""
|
||
field = ""
|
||
|
||
dialog = Canin_config1, "", xAxis
|
||
panel = canAuxinput_alias
|
||
panel = caninconfig_blank1
|
||
panel = caninput_sel
|
||
panel = caninconfig_blank1
|
||
panel = caninput_serial_can
|
||
panel = caninconfig_blank1
|
||
panel = caninput_parameter_group
|
||
panel = caninconfig_blank1
|
||
panel = caninput_parameter_start_byte
|
||
panel = caninconfig_blank1
|
||
panel = caninput_parameter_num_byte
|
||
|
||
dialog = AuxinCenter, "", xAxis
|
||
field = ""
|
||
panel = selectionOfEdianness.
|
||
|
||
;dialog = Canin_config2, "External Data Input"
|
||
; field = "Enable External data input", enable_intcandata_in
|
||
|
||
dialog = Canin_config, "",yAxis
|
||
topicHelp = "http://wiki.speeduino.com/en/Secondary_Serial_IO_interface#read-external-analog-data-from-a-remote-device"
|
||
panel = Auxin_north
|
||
panel = AuxinCenter
|
||
panel = Canin_config1
|
||
|
||
dialog = canAuxoutput_alias, "", yAxis
|
||
field = "Input Alias"
|
||
field = "", AUXin00Alias , {canoutput_sel0}
|
||
field = "", AUXin01Alias , {canoutput_sel1}
|
||
field = "", AUXin02Alias , {canoutput_sel2}
|
||
field = "", AUXin03Alias , {canoutput_sel3}
|
||
field = "", AUXin04Alias , {canoutput_sel4}
|
||
field = "", AUXin05Alias , {canoutput_sel5}
|
||
field = "", AUXin06Alias , {canoutput_sel6}
|
||
field = "", AUXin07Alias , {canoutput_sel7}
|
||
;field = "", AUXin08Alias , {canoutput_sel8}
|
||
;field = "", AUXin09Alias , {canoutput_sel9}
|
||
;field = "", AUXin10Alias , {canoutput_sel10}
|
||
;field = "", AUXin11Alias , {canoutput_sel11}
|
||
;field = "", AUXin12Alias , {canoutput_sel12}
|
||
;field = "", AUXin13Alias , {canoutput_sel13}
|
||
;field = "", AUXin14Alias , {canoutput_sel14}
|
||
;field = "", AUXin15Alias , {canoutput_sel15}
|
||
|
||
dialog = canoutput_sel, "", yAxis
|
||
;CAN outputs
|
||
field = "CAN Output Channel on/off"
|
||
field = "CAN Output 0", canoutput_sel0, { enable_intcandata_out}
|
||
field = "CAN Output 1", canoutput_sel1, { enable_intcandata_out }
|
||
field = "CAN Output 2", canoutput_sel2, { enable_intcandata_out }
|
||
field = "CAN Output 3", canoutput_sel3, { enable_intcandata_out }
|
||
field = "CAN Output 4", canoutput_sel4, { enable_intcandata_out }
|
||
field = "CAN Output 5", canoutput_sel5, { enable_intcandata_out }
|
||
field = "CAN Output 6", canoutput_sel6, { enable_intcandata_out }
|
||
field = "CAN Output 7", canoutput_sel7, { enable_intcandata_out }
|
||
; field = "CAN Output 8", canoutput_sel8, { enable_intcandata_out}
|
||
; field = "CAN Output 9", canoutput_sel9, { enable_intcandata_out }
|
||
; field = "CAN Output 10", canoutput_sel10, { enable_intcandata_out }
|
||
; field = "CAN Output 11", canoutput_sel11, { enable_intcandata_out }
|
||
; field = "CAN Output 12", canoutput_sel12, { enable_intcandata_out }
|
||
; field = "CAN Output 13", canoutput_sel13, { enable_intcandata_out }
|
||
; field = "CAN Output 14", canoutput_sel14, { enable_intcandata_out }
|
||
; field = "CAN Output 15", canoutput_sel15, { enable_intcandata_out }
|
||
|
||
dialog = canoutput_parameter_group, "", yAxis
|
||
field = "Output Parameter Group"
|
||
field = "", canoutput_param_group[0], { canoutput_sel0 && enable_intcandata_out }
|
||
field = "", canoutput_param_group[1], { canoutput_sel1 && enable_intcandata_out }
|
||
field = "", canoutput_param_group[2], { canoutput_sel3 && enable_intcandata_out }
|
||
field = "", canoutput_param_group[3], { canoutput_sel3 && enable_intcandata_out }
|
||
field = "", canoutput_param_group[4], { canoutput_sel4 && enable_intcandata_out }
|
||
field = "", canoutput_param_group[5], { canoutput_sel5 && enable_intcandata_out }
|
||
field = "", canoutput_param_group[6], { canoutput_sel6 && enable_intcandata_out }
|
||
field = "", canoutput_param_group[7], { canoutput_sel7 && enable_intcandata_out }
|
||
; field = "", canoutput_param_group[8], { canoutput_sel9 && enable_intcandata_out }
|
||
; field = "", canoutput_param_group[9], { canoutput_sel10 && enable_intcandata_out }
|
||
; field = "", canoutput_param_group[10], { canoutput_sel1 && enable_intcandata_out }
|
||
; field = "", canoutput_param_group[11], { canoutput_sel2 && enable_intcandata_out }
|
||
; field = "", canoutput_param_group[12], { canoutput_sel3 && enable_intcandata_out }
|
||
; field = "", canoutput_param_group[13], { canoutput_sel4 && enable_intcandata_out }
|
||
; field = "", canoutput_param_group[14], { canoutput_sel5 && enable_intcandata_out }
|
||
; field = "", canoutput_param_group[15], { canoutput_sel6 && enable_intcandata_out }
|
||
|
||
dialog = canoutput_parameter_start_byte, "", yAxis
|
||
field = "Output Parameter Start Byte"
|
||
field = "", canoutput_param_start_byte0, { canoutput_sel0 && enable_intcandata_out }
|
||
field = "", canoutput_param_start_byte1, { canoutput_sel1 && enable_intcandata_out }
|
||
field = "", canoutput_param_start_byte2, { canoutput_sel2 && enable_intcandata_out }
|
||
field = "", canoutput_param_start_byte3, { canoutput_sel3 && enable_intcandata_out }
|
||
field = "", canoutput_param_start_byte4, { canoutput_sel4 && enable_intcandata_out }
|
||
field = "", canoutput_param_start_byte5, { canoutput_sel5 && enable_intcandata_out }
|
||
field = "", canoutput_param_start_byte6, { canoutput_sel6 && enable_intcandata_out }
|
||
field = "", canoutput_param_start_byte7, { canoutput_sel7 && enable_intcandata_out }
|
||
; field = "", canoutput_param_start_byte8, { canoutput_sel8 && enable_intcandata_out }
|
||
; field = "", canoutput_param_start_byte9, { canoutput_sel9 && enable_intcandata_out }
|
||
; field = "", canoutput_param_start_byte10, { canoutput_sel10 && enable_intcandata_out }
|
||
; field = "", canoutput_param_start_byte11, { canoutput_sel11 && enable_intcandata_out }
|
||
; field = "", canoutput_param_start_byte12, { canoutput_sel12 && enable_intcandata_out }
|
||
; field = "", canoutput_param_start_byte13, { canoutput_sel13 && enable_intcandata_out }
|
||
; field = "", canoutput_param_start_byte14, { canoutput_sel14 && enable_intcandata_out }
|
||
; field = "", canoutput_param_start_byte15, { canoutput_sel15 && enable_intcandata_out }
|
||
|
||
dialog = canoutput_parameter_num_byte, "", yAxis
|
||
field = "Output Parameter Number of Bytes"
|
||
field = "", canoutput_param_num_bytes0, { canoutput_sel0 && enable_intcandata_out }
|
||
field = "", canoutput_param_num_bytes1, { canoutput_sel1 && enable_intcandata_out }
|
||
field = "", canoutput_param_num_bytes2, { canoutput_sel2 && enable_intcandata_out }
|
||
field = "", canoutput_param_num_bytes3, { canoutput_sel3 && enable_intcandata_out }
|
||
field = "", canoutput_param_num_bytes4, { canoutput_sel4 && enable_intcandata_out }
|
||
field = "", canoutput_param_num_bytes5, { canoutput_sel5 && enable_intcandata_out }
|
||
field = "", canoutput_param_num_bytes6, { canoutput_sel6 && enable_intcandata_out }
|
||
field = "", canoutput_param_num_bytes7, { canoutput_sel7 && enable_intcandata_out }
|
||
; field = "", canoutput_param_num_bytes8, { canoutput_sel8 && enable_intcandata_out }
|
||
; field = "", canoutput_param_num_bytes9, { canoutput_sel9 && enable_intcandata_out }
|
||
; field = "", canoutput_param_num_bytes10, { canoutput_sel10 && enable_intcandata_out }
|
||
; field = "", canoutput_param_num_bytes11, { canoutput_sel11 && enable_intcandata_out }
|
||
; field = "", canoutput_param_num_bytes12, { canoutput_sel12 && enable_intcandata_out }
|
||
; field = "", canoutput_param_num_bytes13, { canoutput_sel13 && enable_intcandata_out }
|
||
; field = "", canoutput_param_num_bytes14, { canoutput_sel14 && enable_intcandata_out }
|
||
; field = "", canoutput_param_num_bytes15, { canoutput_sel15 && enable_intcandata_out }
|
||
|
||
dialog = canoutconfig_blank1,""
|
||
field = ""
|
||
|
||
dialog = Canout_config1, "", xAxis
|
||
panel = canAuxoutput_alias
|
||
panel = canoutconfig_blank1
|
||
panel = canoutput_sel
|
||
panel = canoutconfig_blank1
|
||
panel = canoutput_parameter_group
|
||
panel = canoutconfig_blank1
|
||
panel = canoutput_parameter_start_byte
|
||
panel = canoutconfig_blank1
|
||
panel = canoutput_parameter_num_byte
|
||
|
||
dialog = Canout_config2, "CAN Data Out"
|
||
field = "Enable CanBus data Output", enable_intcandata_out
|
||
|
||
dialog = Canout_config, "", yAxis
|
||
topicHelp = ""
|
||
panel = Canout_config2
|
||
panel = Canout_config1
|
||
|
||
dialog = can_serial3IO, "CanBus/Secondary Serial IO interface"
|
||
topicHelp = "http://wiki.speeduino.com/en/Secondary_Serial_IO_interface"
|
||
field = "Enable Second Serial", enable_secondarySerial
|
||
field = "Second Serial protocol", secondarySerialProtocol, { enable_secondarySerial }
|
||
#if mcu_teensy
|
||
field = "Enable Internal Canbus", enable_intcan
|
||
#elif mcu_stm32
|
||
field = "Enable Internal Canbus", enable_intcan
|
||
#endif
|
||
; field = "Speeduino TsCanId", speeduino_tsCanId
|
||
;field = "True Canbus Address", true_address, {enable_secondarySerial||enable_intcan}
|
||
field = "True Canbus Address", true_address, { CANisAvailable }
|
||
|
||
field = "#NOTE Realtime Data Base Address MUST be at least 0x16 GREATER than the True Address as they are reserved for future expansion"
|
||
field = "Realtime Data Base Can Address", realtime_base_address, { CANisAvailable }
|
||
field = "Speeduino OBD address", obd_address, { CANisAvailable }
|
||
|
||
dialog = reset_control, "Reset Control"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Reset_Control#settings-in-tuner-studio"
|
||
; Control type options for custom firmware
|
||
field = "Control Type", resetControl
|
||
field = "Control Pin", resetControlPin
|
||
|
||
dialog = Auxinput_pin_selection, "", yAxis
|
||
field = " Source"
|
||
displayOnlyField = "Off 0", blankfield, {},{(caninput_sel0a == 0 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel0b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel0b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel0b == 0 && (!enable_secondarySerial && (enable_intcan && intcan_available == 1)))}
|
||
displayOnlyField = "External Source 0 Via Secondary Serial", blankfield, {},{(caninput_sel0b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel0b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel0extsourceb == 0)}
|
||
displayOnlyField = "External Source 0 Via Internal CAN", blankfield, {},{(caninput_sel0b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel0extsourceb == 1) ||(caninput_sel0b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel0extsourcec == 1)}
|
||
field = "Local Analog Source 0 Pin No:", Auxin0pina , {}, {(caninput_sel0a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel0b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 0 Pin No:", Auxin0pinb , {}, {(caninput_sel0a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel0b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 1", blankfield, {},{(caninput_sel1a == 0 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel1b == 0 && ((enable_secondarySerial && enable_intcan) || (enable_secondarySerial && !enable_intcan) || (!enable_secondarySerial && enable_intcan)))}
|
||
displayOnlyField = "External Source 1 Via Secondary Serial", blankfield, {},{(caninput_sel1b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel1b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel1extsourceb == 0)}
|
||
displayOnlyField = "External Source 1 Via Internal CAN", blankfield, {},{(caninput_sel1b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel1extsourceb == 1) ||(caninput_sel1b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel1extsourcec == 1)}
|
||
field = "Local Analog Source 1 Pin No:", Auxin1pina , {}, {(caninput_sel1a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel1b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 1 Pin No:", Auxin1pinb , {}, {(caninput_sel1a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel1b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 2", blankfield, {},{(caninput_sel2a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel2b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel2b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel2b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 2 Via Secondary Serial", blankfield, {},{(caninput_sel2b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel2b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel2extsourceb == 0)}
|
||
displayOnlyField = "External Source 2 Via Internal CAN", blankfield, {},{(caninput_sel2b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel2extsourceb == 1) ||(caninput_sel2b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel2extsourcec == 1)}
|
||
field = "Local Analog Source 2 Pin No:", Auxin2pina , {}, {(caninput_sel2a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel2b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 2 Pin No:", Auxin2pinb , {}, {(caninput_sel2a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel2b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 3", blankfield, {},{(caninput_sel3a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel3b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel3b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel3b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 3 Via Secondary Serial", blankfield, {},{(caninput_sel3b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel3b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel3extsourceb == 0)}
|
||
displayOnlyField = "External Source 3 Via Internal CAN", blankfield, {},{(caninput_sel3b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel3extsourceb == 1) ||(caninput_sel3b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel3extsourcec == 1)}
|
||
field = "Local Analog Source 3 Pin No:", Auxin3pina , {}, {(caninput_sel3a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel3b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 3 Pin No:", Auxin3pinb , {}, {(caninput_sel3a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel3b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 4", blankfield, {},{(caninput_sel4a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel4b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel4b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel4b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 4 Via Secondary Serial", blankfield, {},{(caninput_sel4b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel4b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel4extsourceb == 0)}
|
||
displayOnlyField = "External Source 4 Via Internal CAN", blankfield, {},{(caninput_sel4b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel4extsourceb == 1) ||(caninput_sel4b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel4extsourcec == 1)}
|
||
field = "Local Analog Source 4 Pin No:", Auxin4pina , {}, {(caninput_sel4a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel4b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 4 Pin No:", Auxin4pinb , {}, {(caninput_sel4a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel4b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 5", blankfield, {},{(caninput_sel5a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel5b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel5b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel5b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 5 Via Secondary Serial", blankfield, {},{(caninput_sel5b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel5b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel5extsourceb == 0)}
|
||
displayOnlyField = "External Source 5 Via Internal CAN", blankfield, {},{(caninput_sel5b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel5extsourceb == 1) ||(caninput_sel5b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel5extsourcec == 1)}
|
||
field = "Local Analog Source 5 Pin No:", Auxin5pina , {}, {(caninput_sel5a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel5b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 5 Pin No:", Auxin5pinb , {}, {(caninput_sel5a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel5b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 6", blankfield, {},{(caninput_sel6a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel6b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel6b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel6b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 6 Via Secondary Serial", blankfield, {},{(caninput_sel6b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel6b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel6extsourceb == 0)}
|
||
displayOnlyField = "External Source 6 Via Internal CAN", blankfield, {},{(caninput_sel6b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel6extsourceb == 1) ||(caninput_sel6b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel6extsourcec == 1)}
|
||
field = "Local Analog Source 6 Pin No:", Auxin6pina , {}, {(caninput_sel6a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel6b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 6 Pin No:", Auxin6pinb , {}, {(caninput_sel6a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel6b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 7", blankfield, {},{(caninput_sel7a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel7b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel7b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel7b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 7 Via Secondary Serial", blankfield, {},{(caninput_sel7b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel7b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel7extsourceb == 0)}
|
||
displayOnlyField = "External Source 7 Via Internal CAN", blankfield, {},{(caninput_sel7b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel7extsourceb == 1) ||(caninput_sel7b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel7extsourcec == 1)}
|
||
field = "Local Analog Source 7 Pin No:", Auxin7pina , {}, {(caninput_sel7a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel7b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 7 Pin No:", Auxin7pinb , {}, {(caninput_sel7a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel7b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 8", blankfield, {},{(caninput_sel8a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel8b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel8b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel8b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 8 Via Secondary Serial", blankfield, {},{(caninput_sel8b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel8b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel8extsourceb == 0)}
|
||
displayOnlyField = "External Source 8 Via Internal CAN", blankfield, {},{(caninput_sel8b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel8extsourceb == 1) ||(caninput_sel8b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel8extsourcec == 1)}
|
||
field = "Local Analog Source 8 Pin No:", Auxin8pina , {}, {(caninput_sel8a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel8b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 8 Pin No:", Auxin8pinb , {}, {(caninput_sel8a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel8b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 9", blankfield, {},{(caninput_sel9a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel9b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel9b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel9b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 9 Via Secondary Serial", blankfield, {},{(caninput_sel9b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel9b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel9extsourceb == 0)}
|
||
displayOnlyField = "External Source 9 Via Internal CAN", blankfield, {},{(caninput_sel9b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel9extsourceb == 1) ||(caninput_sel9b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel9extsourcec == 1)}
|
||
field = "Local Analog Source 9 Pin No:", Auxin9pina , {}, {(caninput_sel9a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel9b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 9 Pin No:", Auxin9pinb , {}, {(caninput_sel9a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel9b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 10", blankfield, {},{(caninput_sel10a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel10b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel10b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel10b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 10 Via Secondary Serial", blankfield, {},{(caninput_sel10b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel10b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel10extsourceb == 0)}
|
||
displayOnlyField = "External Source 10 Via Internal CAN", blankfield, {},{(caninput_sel10b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel10extsourceb == 1) ||(caninput_sel10b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel10extsourcec == 1)}
|
||
field = "Local Analog Source 10 Pin No:", Auxin10pina , {}, {(caninput_sel10a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel10b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 10 Pin No:", Auxin10pinb , {}, {(caninput_sel10a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel10b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 11", blankfield, {},{(caninput_sel11a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel11b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel11b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel11b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 11 Via Secondary Serial", blankfield, {},{(caninput_sel11b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel11b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel11extsourceb == 0)}
|
||
displayOnlyField = "External Source 11 Via Internal CAN", blankfield, {},{(caninput_sel11b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel11extsourceb == 1) ||(caninput_sel11b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel11extsourcec == 1)}
|
||
field = "Local Analog Source 11 Pin No:", Auxin11pina , {}, {(caninput_sel11a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel11b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 11 Pin No:", Auxin11pinb , {}, {(caninput_sel11a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel11b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 12", blankfield, {},{(caninput_sel12a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel12b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel12b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel12b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 12 Via Secondary Serial", blankfield, {},{(caninput_sel12b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel12b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel12extsourceb == 0)}
|
||
displayOnlyField = "External Source 12 Via Internal CAN", blankfield, {},{(caninput_sel12b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel12extsourceb == 1) ||(caninput_sel12b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel12extsourcec == 1)}
|
||
field = "Local Analog Source 12 Pin No:", Auxin12pina , {}, {(caninput_sel12a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel12b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 12 Pin No:", Auxin12pinb , {}, {(caninput_sel12a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel12b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 13", blankfield, {},{(caninput_sel13a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel13b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel13b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel13b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 13 Via Secondary Serial", blankfield, {},{(caninput_sel13b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel13b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel13extsourceb == 0)}
|
||
displayOnlyField = "External Source 13 Via Internal CAN", blankfield, {},{(caninput_sel13b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel13extsourceb == 1) ||(caninput_sel13b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel13extsourcec == 1)}
|
||
field = "Local Analog Source 13 Pin No:", Auxin13pina , {}, {(caninput_sel13a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel13b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 13 Pin No:", Auxin13pinb , {}, {(caninput_sel13a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel13b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 14", blankfield, {},{(caninput_sel14a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel14b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel14b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel14b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 14 Via Secondary Serial", blankfield, {},{(caninput_sel14b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel14b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel14extsourceb == 0)}
|
||
displayOnlyField = "External Source 14 Via Internal CAN", blankfield, {},{(caninput_sel14b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel14extsourceb == 1) ||(caninput_sel14b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel14extsourcec == 1)}
|
||
field = "Local Analog Source 14 Pin No:", Auxin14pina , {}, {(caninput_sel14a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel14b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 14 Pin No:", Auxin14pinb , {}, {(caninput_sel14a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel14b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
displayOnlyField = "Off 15", blankfield, {},{(caninput_sel15a == 0 && (!enable_secondarySerial && !enable_intcan)) || (caninput_sel15b == 0 && (enable_secondarySerial && enable_intcan)) || (caninput_sel15b == 0 && (enable_secondarySerial && !enable_intcan)) || (caninput_sel15b == 0 && (!enable_secondarySerial && enable_intcan))}
|
||
displayOnlyField = "External Source 15 Via Secondary Serial", blankfield, {},{(caninput_sel15b == 1 && enable_secondarySerial && ((enable_intcan && intcan_available == 0) || !enable_intcan)) || (caninput_sel15b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel15extsourceb == 0)}
|
||
displayOnlyField = "External Source 15 Via Internal CAN", blankfield, {},{(caninput_sel15b == 1 && enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel15extsourceb == 1) ||(caninput_sel15b == 1 && !enable_secondarySerial && (enable_intcan && intcan_available) && caninput_sel15extsourcec == 1)}
|
||
field = "Local Analog Source 15 Pin No:", Auxin15pina , {}, {(caninput_sel15a == 2 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel15b == 2 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
field = "Local Digital Source 15 Pin No:", Auxin15pinb , {}, {(caninput_sel15a == 3 && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel15b == 3 && (enable_secondarySerial || (enable_intcan && intcan_available == 1 )))}
|
||
|
||
dialog = Auxinput_alias, "", yAxis
|
||
field = "Input Alias"
|
||
field = "", AUXin00Alias , {(caninput_sel0a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel0b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin01Alias , {(caninput_sel1a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel1b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin02Alias , {(caninput_sel2a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel2b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin03Alias , {(caninput_sel3a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel3b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin04Alias , {(caninput_sel4a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel4b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin05Alias , {(caninput_sel5a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel5b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin06Alias , {(caninput_sel6a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel6b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin07Alias , {(caninput_sel7a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel7b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin08Alias , {(caninput_sel8a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel8b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin09Alias , {(caninput_sel9a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel9b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin10Alias , {(caninput_sel10a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel10b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin11Alias , {(caninput_sel11a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel11b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin12Alias , {(caninput_sel12a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel12b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin13Alias , {(caninput_sel13a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel13b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin14Alias , {(caninput_sel14a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel14b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
field = "", AUXin15Alias , {(caninput_sel15a && (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0)))) || (caninput_sel15b && (enable_secondarySerial || (enable_intcan && intcan_available)))}
|
||
|
||
dialog = Auxinput_channelenable, "", yAxis
|
||
field = " Aux Input Channel Enable"
|
||
field = "AUX Input 0", caninput_sel0a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 0", caninput_sel0b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 1", caninput_sel1a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 1", caninput_sel1b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 2", caninput_sel2a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 2", caninput_sel2b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 3", caninput_sel3a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 3", caninput_sel3b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 4", caninput_sel4a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 4", caninput_sel4b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 5", caninput_sel5a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 5", caninput_sel5b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 6", caninput_sel6a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 6", caninput_sel6b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 7", caninput_sel7a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 7", caninput_sel7b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 8", caninput_sel8a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 8", caninput_sel8b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 9", caninput_sel9a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 9", caninput_sel9b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 10", caninput_sel10a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 10", caninput_sel10b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 11", caninput_sel11a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 11", caninput_sel11b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 12", caninput_sel12a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 12", caninput_sel12b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 13", caninput_sel13a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 13", caninput_sel13b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 14", caninput_sel14a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 14", caninput_sel14b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
field = "AUX Input 15", caninput_sel15a, {}, { (!enable_secondarySerial && (!enable_intcan || (enable_intcan && intcan_available == 0))) }
|
||
field = "AUX Input 15", caninput_sel15b, {}, { (enable_secondarySerial && enable_intcan) || (!enable_secondarySerial && (enable_intcan && intcan_available)) || (enable_secondarySerial && !enable_intcan) }
|
||
|
||
dialog = Auxin_south, "Auxiliary Input Configuration",xAxis
|
||
panel = Auxinput_alias
|
||
panel = Auxinput_channelenable
|
||
panel = Auxinput_pin_selection
|
||
|
||
dialog = Auxin_config, "",yAxis
|
||
panel = Auxin_north
|
||
panel = Auxin_south
|
||
|
||
dialog = gaugeLimits, "Gauge Limits"
|
||
field = "#RPM"
|
||
field = "Warning", rpmwarn
|
||
field = "Danger", rpmdang
|
||
field = "High", rpmhigh
|
||
field = "#MAP"
|
||
field = "Warning", mapwarn
|
||
field = "Danger", mapdang
|
||
field = "High", maphigh
|
||
field = "#BATTERY VOLTAGE INDICATOR"
|
||
field = "Low", batlow
|
||
field = "High", bathigh
|
||
field = !"Reload project to update gauges"
|
||
|
||
dialog = io_summary, "I/O Summary"
|
||
displayOnlyField = "fuelPumpPin", fuelPumpPin, {fpPrime}
|
||
displayOnlyField = "fanPin", fanPin, {fanEnable}
|
||
displayOnlyField = "tachoPin", tachoPin, {tachoDuration}
|
||
displayOnlyField = "idleUpPin", idleUpPin, {idleUpEnabled}
|
||
displayOnlyField = "idleUpOutputPin", idleUpOutputPin, {idleUpEnabled && idleUpOutputEnabled}
|
||
displayOnlyField = "launchPin", launchPin, {launchEnable}
|
||
displayOnlyField = "vvt1Pin", vvt1Pin, {vvtEnabled}
|
||
displayOnlyField = "vssPin", vssPin, {vssMode > 1}
|
||
displayOnlyField = "boostPin", boostPin, {boostEnabled}
|
||
displayOnlyField = "baroPin", baroPin,{useExtBaro}
|
||
displayOnlyField = "EMAPPin", EMAPPin, {useEMAP}
|
||
displayOnlyField = "n2o_arming_pin", n2o_arming_pin, {n2o_enable}
|
||
displayOnlyField = "n2o_stage1_pin", n2o_stage1_pin, {n2o_enable}
|
||
displayOnlyField = "n2o_stage2_pin", n2o_stage2_pin, {n2o_enable}
|
||
displayOnlyField = "A/C Request Pin", airConReqPin, {airConEnable}
|
||
displayOnlyField = "A/C Output Pin", airConCompPin, {airConEnable}
|
||
;displayOnlyField = "knock_pin", knock_pin, {knock_mode}
|
||
displayOnlyField = "fuel2InputPin", fuel2InputPin, {fuel2Mode}
|
||
displayOnlyField = "resetControlPin", resetControlPin, {resetControl}
|
||
displayOnlyField = "ignBypassPin", ignBypassPin, {ignBypassEnable}
|
||
displayOnlyField = "Programmable out 1", outputPin0, {outputPin[0]}
|
||
displayOnlyField = "Programmable out 2", outputPin1, {outputPin[1]}
|
||
displayOnlyField = "Programmable out 3", outputPin2, {outputPin[2]}
|
||
displayOnlyField = "Programmable out 4", outputPin3, {outputPin[3]}
|
||
displayOnlyField = "Programmable out 5", outputPin4, {outputPin[4]}
|
||
displayOnlyField = "Programmable out 6", outputPin5, {outputPin[5]}
|
||
displayOnlyField = "Programmable out 7", outputPin6, {outputPin[6]}
|
||
displayOnlyField = "Programmable out 8", outputPin7, {outputPin[7]}
|
||
|
||
;Rule 1
|
||
dialog = prgm_out_rules_1_condition_1, "Condition 1", xAxis
|
||
field = "", firstDataIn0, {outputPin[0]}
|
||
field = "", firstCompType0, {outputPin[0]}
|
||
field = "", firstTarget[0], {outputPin[0]}
|
||
dialog = prgm_out_rules_1_condition_2, "Condition 2", xAxis
|
||
field = "", secondDataIn0, {outputPin[0] && bitwise0}
|
||
field = "", secondCompType0, {outputPin[0] && bitwise0}
|
||
field = "", secondTarget[0], {outputPin[0] && bitwise0}
|
||
;Rule 2
|
||
dialog = prgm_out_rules_2_condition_1, "Condition 1", xAxis
|
||
field = "", firstDataIn1, {outputPin[1]}
|
||
field = "", firstCompType1, {outputPin[1]}
|
||
field = "", firstTarget[1], {outputPin[1]}
|
||
dialog = prgm_out_rules_2_condition_2, "Condition 2", xAxis
|
||
field = "", secondDataIn1, {outputPin[1] && bitwise1}
|
||
field = "", secondCompType1, {outputPin[1] && bitwise1}
|
||
field = "", secondTarget[1], {outputPin[1] && bitwise1}
|
||
;Rule 3
|
||
dialog = prgm_out_rules_3_condition_1, "Condition 1", xAxis
|
||
field = "", firstDataIn2, {outputPin[2]}
|
||
field = "", firstCompType2, {outputPin[2]}
|
||
field = "", firstTarget[2], {outputPin[2]}
|
||
dialog = prgm_out_rules_3_condition_2, "Condition 2", xAxis
|
||
field = "", secondDataIn2, {outputPin[2] && bitwise2}
|
||
field = "", secondCompType2, {outputPin[2] && bitwise2}
|
||
field = "", secondTarget[2], {outputPin[2] && bitwise2}
|
||
;Rule 4
|
||
dialog = prgm_out_rules_4_condition_1, "Condition 1", xAxis
|
||
field = "", firstDataIn3, {outputPin[3]}
|
||
field = "", firstCompType3, {outputPin[3]}
|
||
field = "", firstTarget[3], {outputPin[3]}
|
||
dialog = prgm_out_rules_4_condition_2, "Condition 2", xAxis
|
||
field = "", secondDataIn3, {outputPin[3] && bitwise3}
|
||
field = "", secondCompType3, {outputPin[3] && bitwise3}
|
||
field = "", secondTarget[3], {outputPin[3] && bitwise3}
|
||
;Rule 5
|
||
dialog = prgm_out_rules_5_condition_1, "Condition 1", xAxis
|
||
field = "", firstDataIn4, {outputPin[4]}
|
||
field = "", firstCompType4, {outputPin[4]}
|
||
field = "", firstTarget[4], {outputPin[4]}
|
||
dialog = prgm_out_rules_5_condition_2, "Condition 2", xAxis
|
||
field = "", secondDataIn4, {outputPin[4] && bitwise4}
|
||
field = "", secondCompType4, {outputPin[4] && bitwise4}
|
||
field = "", secondTarget[4], {outputPin[4] && bitwise4}
|
||
;Rule 6
|
||
dialog = prgm_out_rules_6_condition_1, "Condition 1", xAxis
|
||
field = "", firstDataIn5, {outputPin[5]}
|
||
field = "", firstCompType5, {outputPin[5]}
|
||
field = "", firstTarget[5], {outputPin[5]}
|
||
dialog = prgm_out_rules_6_condition_2, "Condition 2", xAxis
|
||
field = "", secondDataIn5, {outputPin[5] && bitwise5}
|
||
field = "", secondCompType5, {outputPin[5] && bitwise5}
|
||
field = "", secondTarget[5], {outputPin[5] && bitwise5}
|
||
;Rule 7
|
||
dialog = prgm_out_rules_7_condition_1, "Condition 1", xAxis
|
||
field = "", firstDataIn6, {outputPin[6]}
|
||
field = "", firstCompType6, {outputPin[6]}
|
||
field = "", firstTarget[6], {outputPin[6]}
|
||
dialog = prgm_out_rules_7_condition_2, "Condition 2", xAxis
|
||
field = "", secondDataIn6, {outputPin[6] && bitwise6}
|
||
field = "", secondCompType6, {outputPin[6] && bitwise6}
|
||
field = "", secondTarget[6], {outputPin[6] && bitwise6}
|
||
;Rule 8
|
||
dialog = prgm_out_rules_8_condition_1, "Condition 1", xAxis
|
||
field = "", firstDataIn7, {outputPin[7]}
|
||
field = "", firstCompType7, {outputPin[7]}
|
||
field = "", firstTarget[7], {outputPin[7]}
|
||
dialog = prgm_out_rules_8_condition_2, "Condition 2", xAxis
|
||
field = "", secondDataIn7, {outputPin[7] && bitwise7}
|
||
field = "", secondCompType7, {outputPin[7] && bitwise7}
|
||
field = "", secondTarget[7], {outputPin[7] && bitwise7}
|
||
|
||
dialog = prgm_out_rules_1_output_limit_1, "", xAxis
|
||
field = "", kindOfLimiting0, {outputPin[0]}
|
||
field = "output time", outputTimeLimit[0], {outputPin[0]}
|
||
|
||
dialog = prgm_out_rules_2_output_limit_1, "", xAxis
|
||
field = "", kindOfLimiting1, {outputPin[1]}
|
||
field = "output time", outputTimeLimit[1], {outputPin[1]}
|
||
|
||
dialog = prgm_out_rules_3_output_limit_1, "", xAxis
|
||
field = "", kindOfLimiting2, {outputPin[2]}
|
||
field = "output time", outputTimeLimit[2], {outputPin[2]}
|
||
|
||
dialog = prgm_out_rules_4_output_limit_1, "", xAxis
|
||
field = "", kindOfLimiting3, {outputPin[3]}
|
||
field = "output time", outputTimeLimit[3], {outputPin[3]}
|
||
|
||
dialog = prgm_out_rules_5_output_limit_1, "", xAxis
|
||
field = "", kindOfLimiting4, {outputPin[4]}
|
||
field = "output time", outputTimeLimit[4], {outputPin[4]}
|
||
|
||
dialog = prgm_out_rules_6_output_limit_1, "", xAxis
|
||
field = "", kindOfLimiting5, {outputPin[5]}
|
||
field = "output time", outputTimeLimit[5], {outputPin[5]}
|
||
|
||
dialog = prgm_out_rules_7_output_limit_1, "", xAxis
|
||
field = "", kindOfLimiting6, {outputPin[6]}
|
||
field = "output time", outputTimeLimit[6], {outputPin[6]}
|
||
|
||
dialog = prgm_out_rules_8_output_limit_1, "", xAxis
|
||
field = "", kindOfLimiting7, {outputPin[7]}
|
||
field = "output time", outputTimeLimit[7], {outputPin[7]}
|
||
|
||
dialog = prgm_out_rules_1_output_limit, "Limit time active", yAxis
|
||
field = "#Set 0.0 to disable the limit"
|
||
panel = prgm_out_rules_1_output_limit_1
|
||
|
||
dialog = prgm_out_rules_2_output_limit, "Limit time active", yAxis
|
||
field = "#Set 0.0 to disable the limit"
|
||
panel = prgm_out_rules_2_output_limit_1
|
||
|
||
dialog = prgm_out_rules_3_output_limit, "Limit time active", yAxis
|
||
field = "#Set 0.0 to disable the limit"
|
||
panel = prgm_out_rules_3_output_limit_1
|
||
|
||
dialog = prgm_out_rules_4_output_limit, "Limit time active", yAxis
|
||
field = "#Set 0.0 to disable the limit"
|
||
panel = prgm_out_rules_4_output_limit_1
|
||
|
||
dialog = prgm_out_rules_5_output_limit, "Limit time active", yAxis
|
||
field = "#Set 0.0 to disable the limit"
|
||
panel = prgm_out_rules_5_output_limit_1
|
||
|
||
dialog = prgm_out_rules_6_output_limit, "Limit time active", yAxis
|
||
field = "#Set 0.0 to disable the limit"
|
||
panel = prgm_out_rules_6_output_limit_1
|
||
|
||
dialog = prgm_out_rules_7_output_limit, "Limit time active", yAxis
|
||
field = "#Set 0.0 to disable the limit"
|
||
panel = prgm_out_rules_7_output_limit_1
|
||
|
||
dialog = prgm_out_rules_8_output_limit, "Limit time active", yAxis
|
||
field = "#Set 0.0 to disable the limit"
|
||
panel = prgm_out_rules_8_output_limit_1
|
||
|
||
dialog = prgm_out_rules_1, "Rule 1", yAxis
|
||
field = "Output Pin Num", outputPin0
|
||
field = "Rule Alias", prgm_out00Alias, {outputPin[0]}
|
||
field = "Output Polarity", outputInverted0, {outputPin[0]}
|
||
field = "#Set 0.0 to disable the delay"
|
||
field = "Activation Delay", outputDelay[0], {outputPin[0]}
|
||
field = "2nd Condition", bitwise0, {outputPin[0]}
|
||
panel = prgm_out_rules_1_condition_1
|
||
panel = prgm_out_rules_1_condition_2
|
||
panel = prgm_out_rules_1_output_limit
|
||
|
||
dialog = prgm_out_rules_2, "Rule 2", yAxis
|
||
field = "Output Pin Num", outputPin1
|
||
field = "Rule Alias", prgm_out01Alias, {outputPin[1]}
|
||
field = "Output Polarity", outputInverted1, {outputPin[1]}
|
||
field = "#Set 0.0 to disable the delay"
|
||
field = "Activation Delay", outputDelay[1], {outputPin[1]}
|
||
field = "2nd Condition", bitwise1, {outputPin[1]}
|
||
panel = prgm_out_rules_2_condition_1
|
||
panel = prgm_out_rules_2_condition_2
|
||
panel = prgm_out_rules_2_output_limit
|
||
|
||
dialog = prgm_out_rules_3, "Rule 3", yAxis
|
||
field = "Output Pin Num", outputPin2
|
||
field = "Rule Alias", prgm_out02Alias, {outputPin[2]}
|
||
field = "Output Polarity", outputInverted2, {outputPin[2]}
|
||
field = "#Set 0.0 to disable the delay"
|
||
field = "Activation Delay", outputDelay[2], {outputPin[2]}
|
||
field = "2nd Condition", bitwise2, {outputPin[2]}
|
||
panel = prgm_out_rules_3_condition_1
|
||
panel = prgm_out_rules_3_condition_2
|
||
panel = prgm_out_rules_3_output_limit
|
||
|
||
dialog = prgm_out_rules_4, "Rule 4", yAxis
|
||
field = "Output Pin Num", outputPin3
|
||
field = "Rule Alias", prgm_out03Alias, {outputPin[3]}
|
||
field = "Output Polarity", outputInverted3, {outputPin[3]}
|
||
field = "#Set 0.0 to disable the delay"
|
||
field = "Activation Delay", outputDelay[3], {outputPin[3]}
|
||
field = "2nd Condition", bitwise3, {outputPin[3]}
|
||
panel = prgm_out_rules_4_condition_1
|
||
panel = prgm_out_rules_4_condition_2
|
||
panel = prgm_out_rules_4_output_limit
|
||
|
||
dialog = prgm_out_rules_5, "Rule 5", yAxis
|
||
field = "Output Pin Num", outputPin4
|
||
field = "Rule Alias", prgm_out04Alias, {outputPin[4]}
|
||
field = "Output Polarity", outputInverted4, {outputPin[4]}
|
||
field = "#Set 0.0 to disable the delay"
|
||
field = "Activation Delay", outputDelay[4], {outputPin[4]}
|
||
field = "2nd Condition", bitwise4, {outputPin[4]}
|
||
panel = prgm_out_rules_5_condition_1
|
||
panel = prgm_out_rules_5_condition_2
|
||
panel = prgm_out_rules_5_output_limit
|
||
|
||
dialog = prgm_out_rules_6, "Rule 6", yAxis
|
||
field = "Output Pin Num", outputPin5
|
||
field = "Rule Alias", prgm_out05Alias, {outputPin[5]}
|
||
field = "Output Polarity", outputInverted5, {outputPin[5]}
|
||
field = "#Set 0.0 to disable the delay"
|
||
field = "Activation Delay", outputDelay[5], {outputPin[5]}
|
||
field = "2nd Condition", bitwise5, {outputPin[5]}
|
||
panel = prgm_out_rules_6_condition_1
|
||
panel = prgm_out_rules_6_condition_2
|
||
panel = prgm_out_rules_6_output_limit
|
||
|
||
dialog = prgm_out_rules_7, "Rule 7", yAxis
|
||
field = "Output Pin Num", outputPin6
|
||
field = "Rule Alias", prgm_out06Alias, {outputPin[6]}
|
||
field = "Output Polarity", outputInverted6, {outputPin[6]}
|
||
field = "#Set 0.0 to disable the delay"
|
||
field = "Activation Delay", outputDelay[6], {outputPin[6]}
|
||
field = "2nd Condition", bitwise6, {outputPin[6]}
|
||
panel = prgm_out_rules_7_condition_1
|
||
panel = prgm_out_rules_7_condition_2
|
||
panel = prgm_out_rules_7_output_limit
|
||
|
||
dialog = prgm_out_rules_8, "Rule 8", yAxis
|
||
field = "Output Pin Num", outputPin7
|
||
field = "Rule Alias", prgm_out07Alias, {outputPin[7]}
|
||
field = "Output Polarity", outputInverted7, {outputPin[7]}
|
||
field = "#Set 0.0 to disable the delay"
|
||
field = "Activation Delay", outputDelay[7], {outputPin[7]}
|
||
field = "2nd Condition", bitwise7, {outputPin[7]}
|
||
panel = prgm_out_rules_8_condition_1
|
||
panel = prgm_out_rules_8_condition_2
|
||
panel = prgm_out_rules_8_output_limit
|
||
|
||
dialog = prgm_out_rules_master, "", card
|
||
panel = prgm_out_rules_1, Center, { prgm_out_selection == 0 }
|
||
panel = prgm_out_rules_2, Center, { prgm_out_selection == 1 }
|
||
panel = prgm_out_rules_3, Center, { prgm_out_selection == 2 }
|
||
panel = prgm_out_rules_4, Center, { prgm_out_selection == 3 }
|
||
panel = prgm_out_rules_5, Center, { prgm_out_selection == 4 }
|
||
panel = prgm_out_rules_6, Center, { prgm_out_selection == 5 }
|
||
panel = prgm_out_rules_7, Center, { prgm_out_selection == 6 }
|
||
panel = prgm_out_rules_8, Center, { prgm_out_selection == 7 }
|
||
|
||
dialog = prgm_out_config, "",yAxis
|
||
;panel = prgm_out_unique
|
||
field = "Select Rule Number", prgm_out_selection
|
||
panel = prgm_out_rules_master
|
||
|
||
dialog = rtc_setup, "Real Time Clock"
|
||
field = "Real Time Clock mode", rtc_mode
|
||
field = "Real Time Clock Trim +/-", rtc_trim, {rtc_mode}
|
||
|
||
dialog = onboard_log_basic_setup, "Log Configuration"
|
||
field = "Logger type", onboard_log_file_style
|
||
;field = "CSV separator", onboard_log_csv_separator {onboard_log_file_style == 1}
|
||
field = "Log rate", onboard_log_file_rate, {onboard_log_file_style}
|
||
field = "!Warning: Clicking the below button will erase all data from SD card"
|
||
commandButton = "Format SD card", cmdFormatSD, { onboard_log_file_style }
|
||
;commandButton = "Format SD card", cmdVSSratio1, { onboard_log_file_style }
|
||
;field = "Filename", onboard_log_filenaming {onboard_log_file_style}
|
||
; field = "Storage", onboard_log_storage {onboard_log_file_style}
|
||
|
||
dialog = onboard_log_trigger_boot, "On boot"
|
||
field = "On Boot", onboard_log_trigger_boot, {onboard_log_file_style}
|
||
field = "On Boot log duration", onboard_log_tr1_duration, {onboard_log_file_style && onboard_log_trigger_boot}
|
||
|
||
dialog = onboard_log_trigger_RPM, "RPM"
|
||
field = "RPM", onboard_log_trigger_RPM {onboard_log_file_style && !onboard_log_trigger_boot}
|
||
field = "ON (Min RPM)", onboard_log_tr2_thr_on {onboard_log_file_style && onboard_log_trigger_RPM}
|
||
field = "OFF (Max RPM)", onboard_log_tr2_thr_off {onboard_log_file_style && onboard_log_trigger_RPM}
|
||
|
||
dialog = onboard_log_trigger_prot, "Engine protection"
|
||
field = "Engine protection", onboard_log_trigger_prot {onboard_log_file_style && !onboard_log_trigger_boot}
|
||
|
||
dialog = onboard_log_trigger_Epin, "External Switch"
|
||
field = "Board pin", onboard_log_trigger_Epin {onboard_log_file_style && !onboard_log_trigger_boot}
|
||
field = "Pin number", onboard_log_tr5_Epin_pin {onboard_log_file_style && onboard_log_trigger_Epin}
|
||
|
||
; field = "RPM", onboard_log_tr3_thr_RPM {onboard_log_file_style && onboard_log_trigger_prot}
|
||
; field = "MAP", onboard_log_tr3_thr_MAP {onboard_log_file_style && onboard_log_trigger_prot}
|
||
; field = "Oil", onboard_log_tr3_thr_Oil {onboard_log_file_style && onboard_log_trigger_prot}
|
||
; field = "AFR", onboard_log_tr3_thr_AFR {onboard_log_file_style && onboard_log_trigger_prot}
|
||
|
||
; dialog = onboard_log_trigger_Vbat, "Battery voltage"
|
||
; field = "Battery voltage", onboard_log_trigger_Vbat {onboard_log_file_style&& !onboard_log_trigger_boot}
|
||
; field = "ON threshold", onboard_log_tr4_thr_on {onboard_log_file_style && onboard_log_trigger_Vbat}
|
||
; field = "OFF threshold", onboard_log_tr4_thr_off {onboard_log_file_style && onboard_log_trigger_Vbat}
|
||
|
||
|
||
dialog = rtc_settings, "Real Time Clock"
|
||
field = "Mode", rtc_mode
|
||
panel = std_ms3Rtc {rtc_mode}
|
||
|
||
dialog = onboard_log_trigger, "Triggers"
|
||
panel = onboard_log_trigger_boot
|
||
;field = "Above RPM", onboard_log_trigger_RPM
|
||
panel = onboard_log_trigger_RPM
|
||
panel = onboard_log_trigger_prot
|
||
panel = onboard_log_trigger_Epin
|
||
;field = "With battery", onboard_log_trigger_Vbat
|
||
|
||
dialog = onboard_log_setup, "On-board logger", border
|
||
panel = onboard_log_basic_setup, North
|
||
panel = onboard_log_trigger, South
|
||
|
||
; dialog = sdcard_datalog, "SD Card Datalogging", yAxis
|
||
; panel = sdcard_top
|
||
; panel = dataLogFieldSelector
|
||
|
||
|
||
;-------------------------------------------------------------------------------
|
||
; General help text
|
||
|
||
help = helpGeneral, "Speeduino Online Manual"
|
||
webHelp = "https://wiki.speeduino.com/"
|
||
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/"
|
||
;------------------------------------------------------------------------------
|
||
[ControllerCommands]
|
||
; commandName = command1, command2, commandn...
|
||
; command in standard ini format, a command name can be assigned to 1 to n commands that will be executed in order.
|
||
; This does not include any resultant protocol envelope data, only the response data itself.
|
||
|
||
; WARNING!! These commands bypass TunerStudio's normal memory synchronization. If these commands
|
||
; alter mapped settings (Constant) memory in the controller, TunerStudio will have an out of sync condition
|
||
; and may create error messages.
|
||
; It is expected that these commands would not typically alter any ram mapped to a Constant.
|
||
cmdStopTestMode = "E\x01\x00"
|
||
cmdEnableTestMode = "E\x01\x01"
|
||
|
||
cmdtestinj1on = "E\x02\x01"
|
||
cmdtestinj1off = "E\x02\x02"
|
||
cmdtestinj1Pulsed = "E\x02\x03"
|
||
cmdtestinj2on = "E\x02\x04"
|
||
cmdtestinj2off = "E\x02\x05"
|
||
cmdtestinj2Pulsed = "E\x02\x06"
|
||
cmdtestinj3on = "E\x02\x07"
|
||
cmdtestinj3off = "E\x02\x08"
|
||
cmdtestinj3Pulsed = "E\x02\x09"
|
||
cmdtestinj4on = "E\x02\x0A"
|
||
cmdtestinj4off = "E\x02\x0B"
|
||
cmdtestinj4Pulsed = "E\x02\x0C"
|
||
cmdtestinj5on = "E\x02\x0D"
|
||
cmdtestinj5off = "E\x02\x0E"
|
||
cmdtestinj5Pulsed = "E\x02\x0F"
|
||
cmdtestinj6on = "E\x02\x10"
|
||
cmdtestinj6off = "E\x02\x11"
|
||
cmdtestinj6Pulsed = "E\x02\x12"
|
||
cmdtestinj7on = "E\x02\x13"
|
||
cmdtestinj7off = "E\x02\x14"
|
||
cmdtestinj7Pulsed = "E\x02\x15"
|
||
cmdtestinj8on = "E\x02\x16"
|
||
cmdtestinj8off = "E\x02\x17"
|
||
cmdtestinj8Pulsed = "E\x02\x18"
|
||
|
||
cmdtestspk1on = "E\x03\x01"
|
||
cmdtestspk1off = "E\x03\x02"
|
||
cmdtestspk1Pulsed = "E\x03\x03"
|
||
cmdtestspk2on = "E\x03\x04"
|
||
cmdtestspk2off = "E\x03\x05"
|
||
cmdtestspk2Pulsed = "E\x03\x06"
|
||
cmdtestspk3on = "E\x03\x07"
|
||
cmdtestspk3off = "E\x03\x08"
|
||
cmdtestspk3Pulsed = "E\x03\x09"
|
||
cmdtestspk4on = "E\x03\x0A"
|
||
cmdtestspk4off = "E\x03\x0B"
|
||
cmdtestspk4Pulsed = "E\x03\x0C"
|
||
cmdtestspk5on = "E\x03\x0D"
|
||
cmdtestspk5off = "E\x03\x0E"
|
||
cmdtestspk5Pulsed = "E\x03\x0F"
|
||
cmdtestspk6on = "E\x03\x10"
|
||
cmdtestspk6off = "E\x03\x11"
|
||
cmdtestspk6Pulsed = "E\x03\x12"
|
||
cmdtestspk7on = "E\x03\x13"
|
||
cmdtestspk7off = "E\x03\x14"
|
||
cmdtestspk7Pulsed = "E\x03\x15"
|
||
cmdtestspk8on = "E\x03\x16"
|
||
cmdtestspk8off = "E\x03\x17"
|
||
cmdtestspk8Pulsed = "E\x03\x18"
|
||
|
||
cmdstm32reboot = "E\x32\x00"
|
||
cmdstm32bootloader ="E\x32\x01"
|
||
|
||
cmdFormatSD = "E\x33\x01"
|
||
|
||
cmdVSS60kmh = "E\x99\x00"
|
||
cmdVSSratio1 = "E\x99\x01"
|
||
cmdVSSratio2 = "E\x99\x02"
|
||
cmdVSSratio3 = "E\x99\x03"
|
||
cmdVSSratio4 = "E\x99\x04"
|
||
cmdVSSratio5 = "E\x99\x05"
|
||
cmdVSSratio6 = "E\x99\x06"
|
||
|
||
[CurveEditor]
|
||
|
||
;tps-based accel enrichment
|
||
curve = time_accel_tpsdot_curve, "TPS based AE"
|
||
columnLabel = "TPSdot", "Added"
|
||
xAxis = 0, 1200, 6
|
||
yAxis = 0, 250, 4
|
||
xBins = taeBins, TPSdot
|
||
yBins = taeRates
|
||
|
||
;map-based accel enrichment
|
||
curve = time_accel_mapdot_curve, "MAP based AE"
|
||
columnLabel = "MAPdot", "Added"
|
||
xAxis = 0, 1200, 6
|
||
yAxis = 0, 250, 4
|
||
xBins = maeBins, MAPdot
|
||
yBins = maeRates
|
||
|
||
; 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
|
||
|
||
; Curve for injector timing vs RPM
|
||
curve = injector_timing_curve, "Injector timing"
|
||
columnLabel = "RPM", "Injector"
|
||
xAxis = 0, 7000, 6
|
||
yAxis = 0, 720, 5
|
||
xBins = injAngRPM, rpm
|
||
yBins = injAng
|
||
|
||
; 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
|
||
|
||
; Correction curve for Barometric pressure fuel adjustment
|
||
curve = baroFuel_curve, "Baro fuel correction"
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Barometric_Correction"
|
||
columnLabel = "Baro Pressure", "Fuel Amount"
|
||
xAxis = 75, 112, 6
|
||
yAxis = 0, 255, 6
|
||
xBins = baroFuelBins, baro
|
||
yBins = baroFuelValues
|
||
|
||
; Correction curve for fuel temperature fuel adjustment
|
||
curve = fuelTemp_curve, "Fuel temp correction"
|
||
columnLabel = "Fuel Temperature", "Fuel Amount"
|
||
xAxis = -40, 125, 6
|
||
yAxis = 0, 255, 6
|
||
xBins = fuelTempBins, fuelTemp
|
||
yBins = fuelTempValues
|
||
|
||
; IAT based ignition timing retard
|
||
curve = iat_retard_curve, "IAT timing retard"
|
||
columnLabel = "Inlet Air Temp", "Retard"
|
||
#if CELSIUS
|
||
xAxis = 0, 125, 5
|
||
#else
|
||
xAxis = 32, 257, 5
|
||
#endif
|
||
yAxis = 0, 30, 5
|
||
xBins = iatRetBins, iat
|
||
yBins = iatRetRates
|
||
|
||
; CLT based ignition timing retard
|
||
curve = clt_advance_curve, "Cold Advance"
|
||
columnLabel = "Coolant Temp", "Advance"
|
||
xAxis = -40, 200, 5
|
||
yAxis = -12.7, 12.7, 5
|
||
xBins = cltAdvBins, coolant
|
||
yBins = cltAdvValues
|
||
|
||
; Idle RPM target based ignition timing
|
||
curve = idle_advance_curve, "Idle Advance"
|
||
columnLabel = "RPM Delta", "Advance"
|
||
xAxis = -500, 500, 5
|
||
yAxis = -15, 50, 5
|
||
xBins = idleAdvBins, CLIdleDelta
|
||
yBins = idleAdvValues
|
||
size = 450, 200
|
||
|
||
; PWM Fan duty curve based on temp input
|
||
curve = pwm_fan_curve, "Fan PWM Duty"
|
||
columnLabel = "Temp", "Duty %"
|
||
xAxis = -40, 215, 4
|
||
yAxis = 0, 100, 4
|
||
xBins = fanPWMBins, coolant
|
||
yBins = PWMFanDuty
|
||
gauge = cltGauge
|
||
size = 400, 400
|
||
|
||
; 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, "Idle RPM Targets"
|
||
columnLabel = "Coolant Temperature", "Motor"
|
||
xAxis = -40, 120, 6
|
||
yAxis = 0, 2000, 4
|
||
xBins = iacBins, coolant
|
||
yBins = iacCLValues
|
||
size = 450, 200
|
||
|
||
curve = rotaryTrailing_curve, "Rotary Trailing Split"
|
||
columnLabel = "Ignition load", "SplitDegrees"
|
||
yAxis = 0, 40, 4
|
||
xBins = rotarySplitBins, ignLoad
|
||
xAxis = 0, { ignLoadMax }, 5
|
||
yBins = rotarySplitValues
|
||
|
||
; Warmup enrichment curve
|
||
curve = warmup_curve, "Warmup Enrichment (WUE) Curve"
|
||
columnLabel = "Coolant", "WUE %"
|
||
xAxis = -40, 210, 9
|
||
yAxis = 0, 240, 6
|
||
xBins = wueBins, coolant
|
||
yBins = wueRates
|
||
gauge = cltGauge
|
||
|
||
; Cranking enrichment curve
|
||
curve = cranking_enrich_curve, "Cranking Enrichment Curve"
|
||
columnLabel = "Coolant", "Fuel Modifier"
|
||
xAxis = -40, 110, 9
|
||
yAxis = 0, 400, 6
|
||
xBins = crankingEnrichBins, coolant
|
||
yBins = crankingEnrichValues
|
||
;gauge = cltGau25
|
||
|
||
; Priming Pulsewidth curve
|
||
curve = priming_pw_curve, "Priming Pulsewidth"
|
||
columnLabel = "Coolant", "PW"
|
||
xAxis = -40, 110, 4
|
||
yAxis = 0, 10, 4
|
||
xBins = primeBins, coolant
|
||
yBins = primePulse
|
||
gauge = cltGauge
|
||
|
||
; Afterstart Enrichment curve
|
||
curve = afterstart_enrichment_curve, "ASE - Enrichment %"
|
||
columnLabel = "Coolant", "Enrichment"
|
||
xAxis = -40, 110, 4
|
||
yAxis = 0, 200, 4
|
||
xBins = aseBins, coolant
|
||
yBins = asePct
|
||
gauge = cltGauge
|
||
|
||
; Afterstart Enrichment time
|
||
curve = afterstart_enrichment_time, "ASE - Duration"
|
||
columnLabel = "Coolant", "Time"
|
||
xAxis = -40, 110, 4
|
||
yAxis = 0, 20, 4
|
||
xBins = aseBins, coolant
|
||
yBins = aseCount
|
||
gauge = cltGauge
|
||
|
||
; Flex fuel correction curves
|
||
curve = flex_fuel_curve, "Flex Fuel Adjustments"
|
||
columnLabel = "Ethanol", "Fuel"
|
||
xAxis = 0, 100, 10
|
||
yAxis = 50, 250, 5
|
||
xBins = flexFuelBins, flex
|
||
yBins = flexFuelAdj
|
||
size = 400, 200
|
||
|
||
curve = flex_adv_curve, "Flex Timing Advance"
|
||
columnLabel = "Ethanol", "Advance"
|
||
xAxis = 0, 100, 10
|
||
yAxis = 0, 50, 5
|
||
xBins = flexAdvBins, flex
|
||
yBins = flexAdvAdj
|
||
size = 400, 200
|
||
|
||
curve = flex_boost_curve, "Flex Boost Adjustments"
|
||
columnLabel = "Ethanol", "Boost"
|
||
xAxis = 0, 100, 10
|
||
yAxis = -100, 200, 5
|
||
xBins = flexBoostBins, flex
|
||
yBins = flexBoostAdj
|
||
size = 400, 200
|
||
|
||
;Knock sensor windows
|
||
curve = knock_window_angle_curve, "Knock Window"
|
||
columnLabel = "RPM", "Window Start"
|
||
xAxis = 0, 8000, 9
|
||
yAxis = -100, 100, 11
|
||
xBins = knock_window_rpms, rpm
|
||
yBins = knock_window_angle
|
||
size = 400, 200
|
||
|
||
curve = knock_window_duration_curve, "Knock Window Duration"
|
||
columnLabel = "RPM", "Window Duration"
|
||
xAxis = 0, 8000, 9
|
||
yAxis = 0, 100, 10
|
||
xBins = knock_window_rpms, rpm
|
||
yBins = knock_window_dur
|
||
size = 400, 200
|
||
|
||
; Oil Pressure protection curve
|
||
curve = oil_pressure_prot_curve, "Oil Pressure Protection"
|
||
columnLabel = "RPM", "Minimum"
|
||
xAxis = 0, 8000, 9
|
||
#if pressure_bar
|
||
yAxis = 0, 10.0, 3
|
||
#else
|
||
yAxis = 0, 150, 3
|
||
#endif
|
||
xBins = oilPressureProtRPM, rpm
|
||
yBins = oilPressureProtMins
|
||
size = 400, 200
|
||
|
||
; Coolant protection curve
|
||
curve = coolant_prot_curve, "Coolant Temperature Protection"
|
||
columnLabel = "Coolant", "Limit"
|
||
#if CELSIUS
|
||
xAxis = -40, 140, 5
|
||
#else
|
||
xAxis = -40, 315, 5
|
||
#endif
|
||
yAxis = 0, 8000, 3
|
||
xBins = coolantProtTemp, coolant
|
||
yBins = coolantProtRPM
|
||
size = 200, 200
|
||
|
||
; Rolling engine protection curve
|
||
curve = rolling_prot_curve, "Rolling Cut Percent"
|
||
columnLabel = "RPM Delta", "Event Cut"
|
||
xAxis = -300, 0, 6
|
||
yAxis = 0, 125, 6
|
||
xBins = rollingProtRPMDelta
|
||
yBins = rollingProtCutPercent
|
||
size = 200, 200
|
||
|
||
; Warmup enrichment VEAL AFR adjustment curves
|
||
curve = warmup_afr_curve, "Target Adjustment"
|
||
columnLabel = "Coolant", "Offset"
|
||
xAxis = -40, 210, 9
|
||
#if LAMBDA
|
||
yAxis = -0.3, 0.1, 5
|
||
#else
|
||
yAxis = -4, 1, 5
|
||
#endif
|
||
xBins = wueBins, coolant
|
||
yBins = wueAFR
|
||
|
||
curve = warmup_analyzer_curve, "Warmup Enrichment"
|
||
columnLabel = "Coolant", "Current WUE", "Coolant", "Recommended WUE"
|
||
xAxis = -40, 210, 9
|
||
yAxis = 100, 255, 6
|
||
xBins = wueBins, coolant
|
||
yBins = wueRates
|
||
yBins = wueRecommended
|
||
lineLabel = "Current WUE"
|
||
lineLabel = "Recommended WUE"
|
||
|
||
|
||
curve = wmi_adv_curve, "WMI Timing Advance"
|
||
columnLabel = "kPa", "Advance"
|
||
xAxis = 0, 511, 20
|
||
yAxis = 0, 50, 5
|
||
xBins = wmiAdvBins, map
|
||
yBins = wmiAdvAdj
|
||
size = 400, 200
|
||
|
||
|
||
[TableEditor]
|
||
; table_id, map3d_id, "title", page
|
||
table = veTable1Tbl, veTable1Map, "VE Table", 2
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/VE_table"
|
||
xBins = rpmBins, rpm
|
||
yBins = fuelLoadBins, fuelLoad
|
||
xyLabels = "RPM", "Fuel Load: "
|
||
zBins = veTable
|
||
|
||
gridHeight = 2.0
|
||
gridOrient = 250, 0, 340
|
||
upDownLabel = "(RICHER)", "(LEANER)"
|
||
|
||
table = fuelTable2Tbl, fuel2Map, "Fuel Table 2", 11
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/VE_table#secondary-fuel-table"
|
||
xBins = fuelRPM2Bins, rpm
|
||
yBins = fuelLoad2Bins, fuelLoad2
|
||
xyLabels = "RPM", "Fuel Load: "
|
||
zBins = veTable2
|
||
|
||
gridHeight = 2.0
|
||
gridOrient = 250, 0, 340
|
||
upDownLabel = "(RICHER)", "(LEANER)"
|
||
|
||
table = sparkTbl, sparkMap, "Ignition Advance Table", 3
|
||
xBins = rpmBins2, rpm
|
||
;yBins = ignLoadBins, ignLoad
|
||
yBins = mapBins1, ignLoad
|
||
xyLabels = "RPM", "Ignition Load: "
|
||
zBins = advTable1
|
||
gridHeight = 3.0
|
||
upDownLabel = "ADVANCING", "RETARDING"
|
||
|
||
table = spark2Tbl, spark2Map, "Second Ignition Advance Table", 14
|
||
xBins = rpmBins3, rpm
|
||
;yBins = ignLoadBins, ignLoad
|
||
yBins = mapBins2, ignLoad2
|
||
xyLabels = "RPM", "Ignition Load: "
|
||
zBins = advTable2
|
||
gridHeight = 3.0
|
||
upDownLabel = "ADVANCING", "RETARDING"
|
||
|
||
;table = afrTbl, afrTableMap, "AFR Table", 5
|
||
table = afrTable1Tbl, afrTable1Map, "AFR Table", 5
|
||
xBins = rpmBinsAFR, rpm
|
||
yBins = loadBinsAFR, fuelLoad
|
||
zBins = afrTable
|
||
gridHeight = 1.0
|
||
upDownLabel = "RICHER", "LEANER"
|
||
gridOrient = 250, 0, 340
|
||
|
||
table = lambdaTable1Tbl, lambdaTable1Map, "Lambda Table", 5
|
||
xBins = rpmBinsAFR, rpm
|
||
yBins = loadBinsAFR, fuelLoad
|
||
zBins = lambdaTable
|
||
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
|
||
table = boostTbl, boostMap, "Boost Duty / Target", 7
|
||
xBins = rpmBinsBoost, rpm
|
||
yBins = tpsBinsBoost, throttle
|
||
zBins = boostTable
|
||
gridHeight = 3.0
|
||
upDownLabel = "HIGHER", "LOWER"
|
||
|
||
table = boostDCLupTbl, boostDutyLookup, "Base duty for closed loop", 7
|
||
xBins = rpmBinsDutyLookup, rpm
|
||
yBins = loadBinsDutyLookup, boostTarget
|
||
zBins = boostTableDutyLookup
|
||
gridHeight = 3.0
|
||
upDownLabel = "HIGHER", "LOWER"
|
||
|
||
|
||
table = vvtTbl, vvtMap, "VVT control Table", 7
|
||
xBins = rpmBinsVVT, rpm
|
||
;yBins = tpsBinsVVT, throttle
|
||
yBins = loadBinsVVT, vvtLoad
|
||
zBins = vvtTable
|
||
xyLabels = "RPM", "VVT Load: "
|
||
gridHeight = 3.0
|
||
upDownLabel = "HIGHER", "LOWER"
|
||
|
||
table = vvt2Tbl, vvt2Map, "VVT2 control Table", 12
|
||
xBins = rpmBinsVVT2, rpm
|
||
;yBins = tpsBinsVVT, throttle
|
||
yBins = loadBinsVVT2, vvtLoad
|
||
zBins = vvt2Table
|
||
xyLabels = "RPM", "VVT Load: "
|
||
gridHeight = 3.0
|
||
upDownLabel = "HIGHER", "LOWER"
|
||
|
||
table = wmiTbl, wmiMapMap, "WMI control Table", 12
|
||
xBins = rpmBinsWMI, rpm
|
||
yBins = mapBinsWMI, map
|
||
zBins = wmiTable
|
||
xyLabels = "RPM", "WMI Load: "
|
||
gridHeight = 3.0
|
||
upDownLabel = "HIGHER", "LOWER"
|
||
|
||
table = stagingTbl, stagingMap, "Fuel Staging Table", 7
|
||
xBins = rpmBinsStaging, rpm
|
||
yBins = loadBinsStaging, fuelLoad
|
||
zBins = stagingTable
|
||
gridHeight = 3.0
|
||
upDownLabel = "HIGHER", "LOWER"
|
||
|
||
;--------- Sequential fuel trim maps -----------
|
||
table = fuelTrimTable1Tbl, fuelTrimTable1Map, "Fuel trim Table 1", 8
|
||
xBins = fuelTrim1rpmBins, rpm
|
||
yBins = fuelTrim1loadBins, fuelLoad
|
||
zBins = fuelTrim1Table
|
||
gridHeight = 2.0
|
||
gridOrient = 250, 0, 340
|
||
upDownLabel = "(RICHER)", "(LEANER)"
|
||
|
||
table = fuelTrimTable2Tbl, fuelTrimTable2Map, "Fuel trim Table 2", 8
|
||
xBins = fuelTrim2rpmBins, rpm
|
||
yBins = fuelTrim2loadBins, fuelLoad
|
||
zBins = fuelTrim2Table
|
||
gridHeight = 2.0
|
||
gridOrient = 250, 0, 340
|
||
upDownLabel = "(RICHER)", "(LEANER)"
|
||
|
||
table = fuelTrimTable3Tbl, fuelTrimTable3Map, "Fuel trim Table 3", 8
|
||
xBins = fuelTrim3rpmBins, rpm
|
||
yBins = fuelTrim3loadBins, fuelLoad
|
||
zBins = fuelTrim3Table
|
||
gridHeight = 2.0
|
||
gridOrient = 250, 0, 340
|
||
upDownLabel = "(RICHER)", "(LEANER)"
|
||
|
||
table = fuelTrimTable4Tbl, fuelTrimTable4Map, "Fuel trim Table 4", 8
|
||
xBins = fuelTrim4rpmBins, rpm
|
||
yBins = fuelTrim4loadBins, fuelLoad
|
||
zBins = fuelTrim4Table
|
||
gridHeight = 2.0
|
||
gridOrient = 250, 0, 340
|
||
upDownLabel = "(RICHER)", "(LEANER)"
|
||
|
||
table = fuelTrimTable5Tbl, fuelTrimTable5Map, "Fuel trim Table 5", 8
|
||
xBins = fuelTrim5rpmBins, rpm
|
||
yBins = fuelTrim5loadBins, fuelLoad
|
||
zBins = fuelTrim5Table
|
||
gridHeight = 2.0
|
||
gridOrient = 250, 0, 340
|
||
upDownLabel = "(RICHER)", "(LEANER)"
|
||
|
||
table = fuelTrimTable6Tbl, fuelTrimTable6Map, "Fuel trim Table 6", 8
|
||
xBins = fuelTrim6rpmBins, rpm
|
||
yBins = fuelTrim6loadBins, fuelLoad
|
||
zBins = fuelTrim6Table
|
||
gridHeight = 2.0
|
||
gridOrient = 250, 0, 340
|
||
upDownLabel = "(RICHER)", "(LEANER)"
|
||
|
||
table = fuelTrimTable7Tbl, fuelTrimTable7Map, "Fuel trim Table 7", 8
|
||
xBins = fuelTrim7rpmBins, rpm
|
||
yBins = fuelTrim7loadBins, fuelLoad
|
||
zBins = fuelTrim7Table
|
||
gridHeight = 2.0
|
||
gridOrient = 250, 0, 340
|
||
upDownLabel = "(RICHER)", "(LEANER)"
|
||
|
||
table = fuelTrimTable8Tbl, fuelTrimTable8Map, "Fuel trim Table 8", 8
|
||
xBins = fuelTrim8rpmBins, rpm
|
||
yBins = fuelTrim8loadBins, fuelLoad
|
||
zBins = fuelTrim8Table
|
||
gridHeight = 2.0
|
||
gridOrient = 250, 0, 340
|
||
upDownLabel = "(RICHER)", "(LEANER)"
|
||
|
||
table = dwell_map, dwell_tblMap, "Dwell map", 12
|
||
xBins = rpmBinsDwell, rpm
|
||
yBins = loadBinsDwell, ignLoad
|
||
zBins = dwellTable
|
||
xyLabels = "RPM", "Load: "
|
||
gridHeight = 3.0
|
||
upDownLabel = "HIGHER", "LOWER"
|
||
|
||
|
||
;-------------------------------------------------------------------------------
|
||
|
||
[GaugeConfigurations]
|
||
|
||
;-------------------------------------------------------------------------------
|
||
; 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.
|
||
|
||
gaugeCategory = "Main"
|
||
;Name Var Title Units Lo Hi LoD LoW HiW HiD vd ld
|
||
accelEnrichGauge = accelEnrich, "Accel Enrich", "%", 50, 150, -1, -1, 999, 999, 0, 0
|
||
injOpenGauge = inj_open, "Injector Open Time", "mSec", 0.0, 3.0, 0.0, 0.0, 3.0, 3.0, 3, 3
|
||
dutyCycleGauge = dutyCycle, "Duty Cycle", "%", 0, 100, -1, -1, 70, 80, 1, 1
|
||
stgDutyCycleGauge = stgDutyCycle, "Staging 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, 250, -1, -1, 151, 151, 0, 0
|
||
pulseWidthGauge = pulseWidth, "Pulse Width", "mSec", 0, 35.0, 1.0, 1.2, 20, 25, 3, 3
|
||
pulseWidthGauge2 = pulseWidth2, "Pulse Width 2", "mSec", 0, 35.0, 1.0, 1.2, 20, 25, 3, 3
|
||
pulseWidthGauge3 = pulseWidth3, "Pulse Width 3", "mSec", 0, 35.0, 1.0, 1.2, 20, 25, 3, 3
|
||
pulseWidthGauge4 = pulseWidth4, "Pulse Width 4", "mSec", 0, 35.0, 1.0, 1.2, 20, 25, 3, 3
|
||
tachometer = rpm, "Engine Speed", "RPM", 0, {rpmhigh}, 300, 600, {rpmwarn}, {rpmdang}, 0, 0
|
||
veGauge = veCurr, "VE (Current)", "%", 0, 120, -1, -1, 999, 999, 0, 0
|
||
ve1Gauge = VE1, "VE1 (Fuel Table 1)", "%", 0, 120, -1, -1, 999, 999, 0, 0
|
||
ve2Gauge = VE2, "VE2 (Fuel Table 2)", "%", 0, 120, -1, -1, 999, 999, 0, 0
|
||
warmupEnrichGauge = warmupEnrich, "Warmup Enrichment", "%", 100, 200, 130, 140, 140, 150, 0, 0
|
||
aseEnrichGauge = ase_enrich, "Afterstart Enrichment","%", 0, 200, 130, 140, 140, 150, 0, 0
|
||
batCorrectGauge = bat_correction,"Voltage Correction", "%", 0, 200, 130, 140, 140, 150, 0, 0
|
||
iatCorrectGauge = airCorrection, "IAT Correction", "%", 0, 200, 130, 140, 140, 150, 0, 0
|
||
baroCorrectGauge = baroCorrection,"Baro Correction", "%", 0, 200, 130, 140, 140, 150, 0, 0
|
||
flexEnrich = flexFuelCor, "Flex Correction", "%", 0, 200, 130, 140, 140, 150, 0, 0
|
||
fuelTempCorGauge = fuelTempCor, "Fuel Temp Correction", "%", 0, 200, 130, 140, 140, 150, 0, 0
|
||
advanceGauge = advance, "Advance (Current)", "deg", 50, -10, 0, 0, 35, 45, 0, 0
|
||
advance1Gauge = advance1, "Advance1 (Spark Table 1)", "deg",50, -10, 0, 0, 35, 45, 0, 0
|
||
advance2Gauge = advance2, "Advance2 (Spark Table 2)", "deg",50, -10, 0, 0, 35, 45, 0, 0
|
||
dwellGauge = dwell, "Dwell (Requested)", "mSec", 0, 35.0, 1.0, 1.2, 20, 25, 3, 3
|
||
dwellActualGauge = dwellActual, "Dwell (Measured)", "mSec", 0, 35.0, 1.0, 1.2, 20, 25, 3, 3
|
||
boostTargetGauge = boostTarget, "Target Boost", "kPa", 0, {maphigh}, 0, 20, {mapwarn}, {mapdang}, 0, 0
|
||
boostDutyGauge = boostDuty, "Boost Duty Cycle", "%", 0, 100, -1, -1, 101, 110, 1, 1
|
||
afrTargetGauge = afrTarget, "Target AFR", "", 7, 25, {12 / 14.7 * stoich}, {13 / 14.7 * stoich}, {15 / 14.7 * stoich}, {16 / 14.7 * stoich}, 2, 2
|
||
lambdaTargetGauge = lambdaTarget, "Target Lambda", "", 0.5, 1.5, 0.82, 0.89, 1.02, 1.09, 3, 3
|
||
IdleTargetGauge = CLIdleTarget, "Idle Target RPM", "RPM", 0, 2000, 300, 600, 1500, 1700, 0, 0
|
||
idleLoadGauge = idleLoad, "IAC Load", { bitStringValue( idleUnits , iacAlgorithm ) }, 0, {(iacAlgorithm == 2 || iacAlgorithm == 3 || iacAlgorithm == 6) ? 100: iacStepHome}, 0, 0, 2000, 2000, 0, 0
|
||
FANdutyCycleGauge = fanDuty, "FAN Duty Cycle", "%", 0, 100, -1, -1, 101, 110, 1, 1
|
||
vvt1DutyCycleGauge= vvt1Duty, "VVT Duty Cycle", "%", 0, 100, -1, -1, 101, 110, 1, 1
|
||
vvt1TargetGauge = vvt1Target, "VVT Target Angle", "deg", 0, 100, 15, 25, 65, 75, 1, 1
|
||
vvt1AngleGauge = vvt1Angle, "VVT Angle", "deg", -20, 100, 0, -5, 70, 90, 1, 1
|
||
vvt2DutyCycleGauge= vvt2Duty, "VVT2 Duty Cycle", "%", 0, 100, -1, -1, 101, 110, 1, 1
|
||
vvt2TargetGauge = vvt2Target, "VVT2 Target Angle", "deg", 0, 100, 15, 25, 65, 75, 1, 1
|
||
vvt2AngleGauge = vvt2Angle, "VVT2 Angle", "deg", -20, 100, 0, -5, 70, 90, 1, 1
|
||
|
||
WMIdutyCycleGauge = wmiPW, "WMI Duty Cycle", "%", 0, 100, -1, -1, 101, 110, 1, 1
|
||
|
||
gaugeCategory = "Sensor inputs"
|
||
mapGauge = map, "Engine MAP", "kPa", 0, {maphigh}, 0, 20, {mapwarn}, {mapdang}, 0, 0
|
||
mapGauge_psi = map_psi, "Engine MAP (PSI)", "PSI", -15, 100, 0, 20, 200, 245, 0, 0
|
||
mapGauge_bar = map_bar, "Engine MAP (BAR)", "Bar", -1, 3, -1, -1, 5, 5, 2, 2
|
||
mapGauge_vacBoost = map_vacboost, "Engine MAP (in-Hg/PSI)", "in-Hg/PSI", -30, 30, -30, -30, 30, 30, 1, 1
|
||
emapGauge = emap, "Exhaust MAP", "kPa", 0, {maphigh}, 0, 20, {mapwarn}, {mapdang}, 0, 0
|
||
baroGauge = baro, "Baro Pressure", "kPa", 0, {maphigh}, 0, 20, {mapwarn}, {mapdang}, 0, 0
|
||
batteryVoltage = batteryVoltage,"Battery Voltage", "volts", 0, 25, 8, 9, 15, 16, 2, 2
|
||
vssGauge = vss, "Vehicle Speed (kph)", "km/h", 0, 250, 5, 10, 180, 200, 0, 0
|
||
vssGaugeMPH = vssMPH, "Vehicle Speed (mph)", "mph", 0, 250, 5, 10, 180, 200, 0, 0
|
||
|
||
tpsADCGauge = tpsADC, "TPS ADC", "", 0, 255, -1, -1, 256, 256, 0, 0
|
||
throttleGauge = throttle, "Throttle Position", "%TPS", 0, 100, -1, 1, 90, 100, 1, 1
|
||
|
||
afrGauge = afr, "Air:Fuel Ratio", "", 7, 25, {12 / 14.7 * stoich}, {13 / 14.7 * stoich}, {15 / 14.7 * stoich}, {16 / 14.7 * stoich}, 2, 2
|
||
afrGauge2 = afr2, "Air:Fuel Ratio 2", "", 7, 25, {12 / 14.7 * stoich}, {13 / 14.7 * stoich}, {15 / 14.7 * stoich}, {16 / 14.7 * stoich}, 2, 2
|
||
lambdaGauge = lambda, "Lambda", "", 0.5, 1.5, 0.5, 0.7, 2, 1.1, 2, 2
|
||
TPSdotGauge = TPSdot, "TPS DOT", "%/s", -1000, 1000, -2560, -2560, 2560, 2560, 0, 0
|
||
MAPdotGauge = MAPdot, "MAP DOT", "kPa/s", -1000, 1000, -2560, -2560, 2560, 2560, 0, 0
|
||
|
||
#if CELSIUS
|
||
cltGauge = coolant, "Coolant Temp", "TEMP", -40, 120, -15, 0, 95, 105, 0, 0
|
||
iatGauge = iat, "Inlet Air Temp", "TEMP", -40, 120, -15, 0, 95, 100, 0, 0
|
||
fuelTempGauge = fuelTemp, "Fuel Temp", "TEMP", -40, 120, -15, 0, 95, 100, 0, 0
|
||
#else
|
||
cltGauge = coolant, "Coolant Temp", "TEMP", -40, 248, 0, 30, 200, 220, 0, 0
|
||
iatGauge = iat, "Inlet Air Temp", "TEMP", -40, 248, 0, 30, 200, 210, 0, 0
|
||
fuelTempGauge = fuelTemp, "Fuel Temp", "TEMP", -40, 248, 0, 30, 200, 210, 0, 0
|
||
#endif
|
||
flexGauge = flex, "Flex sensor", "%", 0, 100, -1, -1, 999, 999, 0, 0
|
||
|
||
fuelPressureGauge = fuelPressure, "Fuel Pressure (PSI)", "PSI", -15, 100, 0, 20, 200, 245, 0, 0
|
||
oilPressureGauge = oilPressure, "Oil Pressure (PSI)", "PSI", -15, 100, 0, 20, 200, 245, 0, 0
|
||
fuelPressureBarGauge = fuelPressure_bar,"Fuel Pressure (BAR)", "BAR", -1.0, 7.0, 0.5, 1.4, 14.0, 17.0, 1, 1
|
||
oilPressureBarGauge = oilPressure_bar, "Oil Pressure (BAR)", "BAR", -1.0, 7.0, 0.5, 1.4, 14.0, 17.0, 1, 1
|
||
fuelPressurekPaGauge = fuelPressure_kpa,"Fuel Pressure (kPa)", "kPa", -100, 700, 50, 140, 1400, 1700, 0, 0
|
||
oilPressurekPaGauge = oilPressure_kpa, "Oil Pressure (kPa)", "kPa", -100, 700, 50, 140, 1400, 1700, 0, 0
|
||
|
||
|
||
gaugeCategory = "Auxiliary Input Channels"
|
||
AuxInGauge0 = auxin_gauge0, { stringValue(AUXin00Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge1 = auxin_gauge1, { stringValue(AUXin01Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge2 = auxin_gauge2, { stringValue(AUXin02Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge3 = auxin_gauge3, { stringValue(AUXin03Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge4 = auxin_gauge4, { stringValue(AUXin04Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge5 = auxin_gauge5, { stringValue(AUXin05Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge6 = auxin_gauge6, { stringValue(AUXin06Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge7 = auxin_gauge7, { stringValue(AUXin07Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge8 = auxin_gauge8, { stringValue(AUXin08Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge9 = auxin_gauge9, { stringValue(AUXin09Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge10 = auxin_gauge10, { stringValue(AUXin10Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge11 = auxin_gauge11, { stringValue(AUXin11Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge12 = auxin_gauge12, { stringValue(AUXin12Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge13 = auxin_gauge13, { stringValue(AUXin13Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge14 = auxin_gauge14, { stringValue(AUXin14Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
AuxInGauge15 = auxin_gauge15, { stringValue(AUXin15Alias) }, "", 0, 1024, -1, -1, 1025, 1025, 0, 0
|
||
|
||
gaugeCategory = "System Data"
|
||
clockGauge = secl, "Clock", "Seconds", 0, 255, 10, 10, 245, 245, 0, 0
|
||
loopGauge = loopsPerSecond,"Main loop speed", "Loops/S" , 0, 5000, 750, 900, 100000, 100000, 0, 0
|
||
loopsPerRevGauge = loopsPerRev, "Main loops per revolution", "Loops/rev", 0, 100, 10, 15, 10000, 10000, 2, 0
|
||
memoryGauge = freeRAM, "Free memory", "bytes" , 0, 8000, -1, 1000,8000, 1000, 0, 0
|
||
reqFuelGauge = req_fuel, "Req. Fuel", "ms", 0, 35.0, 1.0, 1.2, 20, 25, 2, 2
|
||
mapMultiplyGauge = map_multiply_amt, "MAP Multiply", "%", 0, 200, 130, 140, 140, 150, 0, 0
|
||
nSquirtsGauge = nSquirts, "# Squirts", "", 0, 10, 130, 140, 140, 150, 0, 0
|
||
syncLossGauge = syncLossCounter, "# Sync Losses", "", 0, 255, -1, -1, 10, 50, 0, 0
|
||
;-------------------------------------------------------------------------------
|
||
|
||
[FrontPage]
|
||
|
||
|
||
; Gauges are numbered left to right, top to bottom.
|
||
;
|
||
; 1 2 3 4
|
||
; 5 6 7 8
|
||
|
||
gauge1 = tachometer
|
||
gauge2 = throttleGauge
|
||
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 = { running }, "Not Running", "Running", white, black, green, black
|
||
indicator = { crank }, "Not Cranking", "Cranking", white, black, green, black
|
||
indicator = { ase }, "ASE OFF", "ASE ON", white, black, green, black
|
||
indicator = { warmup }, "WUE OFF", "WUE ON", 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 }, "Ign Cut OFF", "Ign Cut (Boost)", white, black, red, black
|
||
indicator = { sync }, "No Sync", "Full Sync", white, black, green, black
|
||
indicator = { halfSync }, "No or Full Sync", "Half Sync", white, black, yellow, black
|
||
indicator = { resetLockOn }, "Reset Lock OFF","Reset Lock ON", red, black, green, black
|
||
indicator = { bootloaderCaps > 0 }, "Std. Boot", "Custom Boot", white, black, white, black
|
||
indicator = { nitrousOn }, "Nitrous Off", "Nitrous On", white, black, red, black
|
||
indicator = { IOError }, "I/O Ok", "I/O Error!", white, black, red, black
|
||
indicator = { burnPending }, "EEPROM Burn", "EEPROM Burn", white, black, red, black
|
||
;Engine Protection status indicators
|
||
indicator = { engineProtectStatus}, "Engine Protect OFF", "Engine Protect ON", white, black, red, black
|
||
indicator = { engineProtectRPM }, "Rev Limiter Off", "Rev Limiter ON", white, black, red, black
|
||
indicator = { engineProtectMAP }, "Boost Limit OFF", "Boost Limit ON", white, black, red, black
|
||
indicator = { engineProtectOil }, "Oil Pres. Protect OFF","Oil Pres. Protect ON",white, black, red, black
|
||
indicator = { engineProtectAFR }, "AFR Protect OFF", "AFR Protect ON", white, black, red, black
|
||
indicator = { engineProtectCoolant }, "Coolant Protect OFF","Coolant Protect ON",white, black, red, black
|
||
indicator = { wmiEmptyBit }, "WMI Tank NOT Empty", "WMI Tank Empty", white, black, red, black
|
||
indicator = { vvt1Error }, "VVT1 Ok", "VVT1 Error", white, black, red, black
|
||
indicator = { vvt2Error }, "VVT2 Ok", "VVT2 Error", white, black, red, black
|
||
indicator = { fanStatus }, "Fan OFF", "Fan ON", white, black, red, black
|
||
indicator = { idleControlOn }, "Idle OFF", "Idle ON", white, black, green, black
|
||
indicator = { (batteryVoltage < batlow) || (batteryVoltage > bathigh) }, "Battery Voltage OK", "Battery Voltage Warning", white, black, red, black
|
||
indicator = { outputsStatus0 }, "Programmable out 1 Off", "Programmable out 1 ON", white, black, green, black
|
||
indicator = { outputsStatus1 }, "Programmable out 2 Off", "Programmable out 2 ON", white, black, green, black
|
||
indicator = { outputsStatus2 }, "Programmable out 3 Off", "Programmable out 3 ON", white, black, green, black
|
||
indicator = { outputsStatus3 }, "Programmable out 4 Off", "Programmable out 4 ON", white, black, green, black
|
||
indicator = { outputsStatus4 }, "Programmable out 5 Off", "Programmable out 5 ON", white, black, green, black
|
||
indicator = { outputsStatus5 }, "Programmable out 6 Off", "Programmable out 6 ON", white, black, green, black
|
||
indicator = { outputsStatus6 }, "Programmable out 7 Off", "Programmable out 7 ON", white, black, green, black
|
||
indicator = { outputsStatus7 }, "Programmable out 8 Off", "Programmable out 8 ON", white, black, green, black
|
||
|
||
;AC stuff
|
||
indicator = { airConRequest }, "A/C Request OFF", "A/C Request ON", white, black, green, black
|
||
indicator = { airConCompressor }, "A/C Comp OFF", "A/C Comp ON", white, black, green, black
|
||
indicator = { airConFanStatus }, "A/C Fan OFF", "A/C Fan ON", white, black, green, black
|
||
|
||
;sd card indicators
|
||
indicator = { sd_status & 1}, "No SD Card", "SD Present", white, black, green, black
|
||
indicator = { sd_status & 4}, "SD ready", "SD ready", white, black, green, black
|
||
indicator = { sd_status & 8}, "SD Off", "SD Logging", white, black, green, black
|
||
indicator = { sd_status & 16},"SD OK", "SD Error", white, black, red, black
|
||
|
||
;-------------------------------------------------------------------------------
|
||
|
||
[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.
|
||
|
||
ochGetCommand = "r\$tsCanId\x30%2o%2c"
|
||
ochBlockSize = 127
|
||
|
||
secl = scalar, U08, 0, "sec", 1.000, 0.000
|
||
status1 = 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
|
||
running = bits, U08, 2, [0:0]
|
||
crank = bits, U08, 2, [1:1]
|
||
ase = 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]
|
||
syncLossCounter = scalar, U08, 3, "", 1.000, 0.000
|
||
map = scalar, U16, 4, "kpa", 1.000, 0.000
|
||
iatRaw = scalar, U08, 6, "°C", 1.000, 0.000
|
||
coolantRaw = scalar, U08, 7, "°C", 1.000, 0.000
|
||
batCorrection = scalar, U08, 8, "%", 1.000, 0.000
|
||
batteryVoltage = scalar, U08, 9, "V", 0.100, 0.000
|
||
afr = scalar, U08, 10, "O2", 0.100, 0.000
|
||
egoCorrection = scalar, U08, 11, "%", 1.000, 0.000
|
||
airCorrection = scalar, U08, 12, "%", 1.000, 0.000
|
||
warmupEnrich = scalar, U08, 13, "%", 1.000, 0.000
|
||
rpm = scalar, U16, 14, "rpm", 1.000, 0.000
|
||
accelEnrich = scalar, U08, 16, "%", 2.000, 0.000
|
||
gammaEnrich = scalar, U16, 17, "%", 1.000, 0.000
|
||
VE1 = scalar, U08, 19, "%", 1.000, 0.000
|
||
VE2 = scalar, U08, 20, "%", 1.000, 0.000
|
||
afrTarget = scalar, U08, 21, "O2", 0.100, 0.000
|
||
TPSdot = scalar, S16, 22, "%/s", 1.000, 0.000
|
||
advance = scalar, S08, 24, "deg", 1.000, 0.000
|
||
tps = scalar, U08, 25, "%", 0.500, 0.000
|
||
loopsPerSecond = scalar, U16, 26, "loops", 1.000, 0.000
|
||
freeRAM = scalar, U16, 28, "bytes", 1.000, 0.000
|
||
boostTarget = scalar, U08, 30, "kPa", 2.000, 0.000
|
||
boostDuty = scalar, U08, 31, "%", 1.000, 0.000
|
||
status2 = scalar, U08, 32, "bits", 1.000, 0.000
|
||
launchHard = bits, U08, 32, [0:0]
|
||
launchSoft = bits, U08, 32, [1:1]
|
||
hardLimitOn = bits, U08, 32, [2:2]
|
||
softlimitOn = bits, U08, 32, [3:3]
|
||
boostCutSpark = bits, U08, 32, [4:4]
|
||
error = bits, U08, 32, [5:5]
|
||
idleControlOn = bits, U08, 32, [6:6]
|
||
sync = bits, U08, 32, [7:7]
|
||
rpmDOT = scalar, S16, 33, "rpm/s", 1.000, 0.000
|
||
flex = scalar, U08, 35, "%", 1.000, 0.000
|
||
flexFuelCor = scalar, U08, 36, "%", 1.000, 0.000
|
||
flexIgnCor = scalar, S08, 37, "deg", 1.000, 0.000
|
||
idleLoad = scalar, U08, 38, { bitStringValue( idleUnits , iacAlgorithm ) }, { (iacAlgorithm == 2 || iacAlgorithm == 3 || iacAlgorithm == 6 || iacMaxSteps <= 255) ? 1.000 : 2.000 }, 0.000 ; This is a combined variable covering both PWM and stepper IACs. The units and precision used depend on which idle algorithm is chosen
|
||
testoutputs = scalar, U08, 39, "bits", 1.000, 0.000
|
||
testenabled = bits, U08, 39, [0:0]
|
||
testactive = bits, U08, 39, [1:1]
|
||
afr2 = scalar, U08, 40, "O2", 0.100, 0.000
|
||
baro = scalar, U08, 41, "kpa", 1.000, 0.000
|
||
auxin_gauge0 = scalar, U16, 42, "", 1.000, 0.000
|
||
auxin_gauge1 = scalar, U16, 44, "", 1.000, 0.000
|
||
auxin_gauge2 = scalar, U16, 46, "", 1.000, 0.000
|
||
auxin_gauge3 = scalar, U16, 48, "", 1.000, 0.000
|
||
auxin_gauge4 = scalar, U16, 50, "", 1.000, 0.000
|
||
auxin_gauge5 = scalar, U16, 52, "", 1.000, 0.000
|
||
auxin_gauge6 = scalar, U16, 54, "", 1.000, 0.000
|
||
auxin_gauge7 = scalar, U16, 56, "", 1.000, 0.000
|
||
auxin_gauge8 = scalar, U16, 58, "", 1.000, 0.000
|
||
auxin_gauge9 = scalar, U16, 60, "", 1.000, 0.000
|
||
auxin_gauge10 = scalar, U16, 62, "", 1.000, 0.000
|
||
auxin_gauge11 = scalar, U16, 64, "", 1.000, 0.000
|
||
auxin_gauge12 = scalar, U16, 66, "", 1.000, 0.000
|
||
auxin_gauge13 = scalar, U16, 68, "", 1.000, 0.000
|
||
auxin_gauge14 = scalar, U16, 70, "", 1.000, 0.000
|
||
auxin_gauge15 = scalar, U16, 72, "", 1.000, 0.000
|
||
tpsADC = scalar, U08, 74, "ADC", 1.000, 0.000
|
||
errors = scalar, U08, 75, "bits", 1.000, 0.000
|
||
errorNum = bits, U08, 75, [0:1]
|
||
currentError = bits, U08, 75, [2:7]
|
||
pulseWidth = scalar, U16, 76, "ms", 0.001, 0.000
|
||
pulseWidth2 = scalar, U16, 78, "ms", 0.001, 0.000
|
||
pulseWidth3 = scalar, U16, 80, "ms", 0.001, 0.000
|
||
pulseWidth4 = scalar, U16, 82, "ms", 0.001, 0.000
|
||
status3 = scalar, U08, 84, "bits", 1.000, 0.000
|
||
resetLockOn = bits, U08, 84, [0:0]
|
||
nitrousOn = bits, U08, 84, [1:1]
|
||
fuel2Active = bits, U08, 84, [2:2]
|
||
vssRefresh = bits, U08, 84, [3:3]
|
||
halfSync = bits, U08, 84, [4:4]
|
||
nSquirts = bits, U08, 84, [5:7]
|
||
engineProtectStatus = scalar, U08, 85, "bits", 1.000, 0.000
|
||
engineProtectRPM = bits, U08, 85, [0:0]
|
||
engineProtectMAP = bits, U08, 85, [1:1]
|
||
engineProtectOil = bits, U08, 85, [2:2]
|
||
engineProtectAFR = bits, U08, 85, [3:3]
|
||
engineProtectCoolant = bits, U08, 85, [4:4]
|
||
engineProtectOth = bits, U08, 85, [5:6] ; Unused for now
|
||
IOError = bits, U08, 85, [7:7]
|
||
fuelLoad = scalar, S16, 86, { bitStringValue( algorithmUnits , algorithm ) }, {fuelLoadFeedBack}, 0.000
|
||
ignLoad = scalar, S16, 88, { bitStringValue( algorithmUnits , ignAlgorithm ) }, {ignLoadFeedBack}, 0.000
|
||
dwell = scalar, U16, 90, "ms", 0.001, 0.000
|
||
CLIdleTarget = scalar, U08, 92, "RPM", 10.00, 0.000
|
||
MAPdot = scalar, S16, 93, "kPa/s", 1.000, 0.000
|
||
vvt1Angle = scalar, S16, 95, "deg", 0.50, 0.000
|
||
vvt1Target = scalar, U08, 97, "deg", 0.50, 0.000
|
||
vvt1Duty = scalar, U08, 98, "%", 0.50, 0.000
|
||
flexBoostCor = scalar, S16, 99, "kPa", 1.000, 0.000
|
||
baroCorrection = scalar, U08, 101, "%", 1.000, 0.000
|
||
veCurr = scalar, U08, 102, "%", 1.000, 0.000
|
||
ASECurr = scalar, U08, 103, "%", 1.000, 0.000
|
||
vss = scalar, U16, 104, "km/h", 1.000, 0.000
|
||
gear = scalar, U08, 106, "", 1.000, 0.000
|
||
fuelPressure = scalar, U08, 107, "PSI", 1.000, 0.000
|
||
oilPressure = scalar, U08, 108, "PSI", 1.000, 0.000
|
||
wmiPW = scalar, U08, 109, "%", 1.000, 0.000
|
||
status4 = scalar, U08, 110, "bits", 1.000, 0.000
|
||
wmiEmptyBit = bits, U08, 110, [0:0]
|
||
vvt1Error = bits, U08, 110, [1:1]
|
||
vvt2Error = bits, U08, 110, [2:2]
|
||
fanStatus = bits, U08, 110, [3:3]
|
||
burnPending = bits, U08, 110, [4:4]
|
||
stagingActive = bits, U08, 110, [5:5]
|
||
UnusedBits4 = bits, U08, 110, [6:7]
|
||
vvt2Angle = scalar, S16, 111, "deg", 0.50, 0.000
|
||
vvt2Target = scalar, U08, 113, "deg", 0.50, 0.000
|
||
vvt2Duty = scalar, U08, 114, "%", 0.50, 0.000
|
||
outputsStatus0 = bits, U08, 115, [0:0]
|
||
outputsStatus1 = bits, U08, 115, [1:1]
|
||
outputsStatus2 = bits, U08, 115, [2:2]
|
||
outputsStatus3 = bits, U08, 115, [3:3]
|
||
outputsStatus4 = bits, U08, 115, [4:4]
|
||
outputsStatus5 = bits, U08, 115, [5:5]
|
||
outputsStatus6 = bits, U08, 115, [6:6]
|
||
outputsStatus7 = bits, U08, 115, [7:7]
|
||
fuelTempRaw = scalar, U08, 116, "°C", 1.000, 0.000
|
||
fuelTempCor = scalar, U08, 117, "%", 1.000, 0.000
|
||
advance1 = scalar, S08, 118, "deg", 1.000, 0.000
|
||
advance2 = scalar, S08, 119, "deg", 1.000, 0.000
|
||
sd_status = scalar, U08, 120, "", 1.0, 0.0
|
||
emap = scalar, U16, 121, "kpa", 1.000, 0.000
|
||
fanDuty = scalar, U08, 123, "%", 0.5, 0.000
|
||
airConStatus = scalar, U08, 124, "bits", 1.000, 0.000
|
||
airConRequest = bits, U08, 124, [0:0]
|
||
airConCompressor = bits, U08, 124, [1:1]
|
||
airConRPMMLockout = bits, U08, 124, [2:2]
|
||
airConTPSLockout = bits, U08, 124, [3:3]
|
||
airConTurningOn = bits, U08, 124, [4:4]
|
||
airConCLTLockout = bits, U08, 124, [5:5]
|
||
airConFanStatus = bits, U08, 124, [6:6]
|
||
airConUnusedBits = bits, U08, 124, [7:7]
|
||
dwellActual = scalar, U16, 125, "ms", 0.001, 0.000
|
||
;sd_filenum = scalar, U16, 125, "", 1, 0
|
||
;sd_error = scalar, U08, 127, "", 1, 0
|
||
;sd_phase = scalar, U08, 128, "", 1, 0
|
||
|
||
|
||
#if CELSIUS
|
||
coolant = { coolantRaw - 40 } ; Temperature readings are offset by 40 to allow for negatives
|
||
iat = { iatRaw - 40 } ; Temperature readings are offset by 40 to allow for negatives
|
||
fuelTemp = { fuelTempRaw - 40 } ; Temperature readings are offset by 40 to allow for negatives
|
||
#else
|
||
coolant = { (coolantRaw - 40) * 1.8 + 32 } ;Convert C to F (Offset by 40)
|
||
iat = { (iatRaw - 40) * 1.8 + 32 } ;Convert C to F (Offset by 40)
|
||
fuelTemp = { (fuelTempRaw - 40) * 1.8 + 32 } ;Convert C to F (Offset by 40)
|
||
#endif
|
||
time = { timeNow }
|
||
seconds = { secl }
|
||
|
||
fuelPressure_bar = { fuelPressure * 0.06894757 }
|
||
oilPressure_bar = { oilPressure * 0.06894757 }
|
||
fuelPressure_kpa = { fuelPressure * 6.894757 }
|
||
oilPressure_kpa = { oilPressure * 6.894757 }
|
||
|
||
throttle = { tps }, "%"
|
||
|
||
revolutionTime = { rpm ? ( 60000.0 / rpm) : 0 }
|
||
strokeMultipler = { twoStroke == 1 ? 1 : 2 }
|
||
cycleTime = { revolutionTime * strokeMultipler }
|
||
pulseLimit = { cycleTime / nSquirts }
|
||
|
||
nFuelChannels = { arrayValue( array.boardFuelOutputs, pinLayout ) }
|
||
nIgnChannels = { arrayValue( array.boardIgnOutputs, pinLayout ) }
|
||
sequentialFuelAvailable = { nCylinders <= nFuelChannels }
|
||
sequentialIgnitionAvailable = { nCylinders <= nIgnChannels }
|
||
|
||
dutyCycle = { rpm ? ( 100.0*pulseWidth/pulseLimit ) : 0 }
|
||
stgDutyCycle = { rpm && stagingEnabled ? ( 100.0*pulseWidth3/pulseLimit ) : 0 }
|
||
|
||
boostCutOut = { boostCutFuel || boostCutSpark }
|
||
lambda = { afr / stoich }
|
||
lambdaTarget = { afrTarget / stoich }
|
||
MAPxRPM = { rpm * map }
|
||
loopsPerRev = { rpm ? loopsPerSecond / (rpm / 60) : 0 }
|
||
req_fuel = { reqFuel }
|
||
bat_correction = { battVCorMode ? 100 : batCorrection } ; If battery voltage correction mode is Whole PW, use the battery correction, otherwise 100%
|
||
inj_open = { battVCorMode ? ((injOpen * batCorrection) / 100) : injOpen } ; If battery voltage correction mode is Open Time Only, calculate the corrected open time
|
||
ase_enrich = { ASECurr } ; If ASE is active then equal the ASE + 100
|
||
map_multiply_amt = { multiplyMAP ? map : 100 } ; If multiply MAP is enabled, use the current MAP value, otherwise 100%
|
||
;nSquirts = { nCylinders / divider }
|
||
|
||
;Manifold pressure in weirdo units
|
||
map_bar = { (map - baro) / 101.33 }
|
||
map_psi = { (map - baro) * 0.145038 }
|
||
map_inhg = { (baro - map) * 0.2953007 } ;in-Hg
|
||
map_vacboost = { map < baro ? -map_inhg : map_psi }
|
||
|
||
vssMPH = { vss / 1.60934 }
|
||
|
||
;fuelLoadMax = { arrayValue(algorithmLimits , algorithm) } ;Doesn't work, no idea why.
|
||
fuelLoadMax = { (algorithm == 0 || algorithm == 2) ? 511 : 100.0 }
|
||
ignLoadMax = { (ignAlgorithm == 0 || ignAlgorithm == 2) ? 511 : 100.0 }
|
||
fuel2LoadMax = { (fuel2Algorithm == 0 || fuel2Algorithm == 2) ? 511 : 100.0 }
|
||
ign2LoadMax = { (spark2Algorithm == 0 || spark2Algorithm == 2) ? 511 : 100.0 }
|
||
ign2ValuesMin = { (spark2Mode == 1) ? 0 : -40 }
|
||
ign2ValuesMax = { (spark2Mode == 1) ? 215 : 70 }
|
||
|
||
fuelLoad2 = { fuel2Algorithm == 0 ? map : fuel2Algorithm == 1 ? tps : fuel2Algorithm == 2 ? 0 : 0 }
|
||
ignLoad2 = { spark2Algorithm == 0 ? map : spark2Algorithm == 1 ? tps : spark2Algorithm == 2 ? 0 : ignLoad }
|
||
vvtLoad = { (vvtLoadSource == 0) ? map : tps }
|
||
vvtLoadMax = { (vvtLoadSource == 0) ? 511 : 100.0 }
|
||
wmiLoadMax = { (wmiMode == 2) ? 100.0 : 255 }
|
||
|
||
;Select data resolution and scale based on algorithm used
|
||
idleRes = { (iacAlgorithm == 5 || iacAlgorithm == 7) ? 3.0 : 1.0 }
|
||
idleResMax = { (iacAlgorithm == 5 || iacAlgorithm == 7) ? (iacStepHome-3) : 100.0 }
|
||
|
||
vvtLoadRes = { (vvtLoadSource == 0) ? 2.000 : 0.500 }
|
||
wmiLoadRes = { (wmiMode >= 2) ? 0.5 : 1.0 }
|
||
|
||
fuelLoadRes = { ((algorithm == 0) || (algorithm == 2)) ? 2.000 : 0.500 }
|
||
ignLoadRes = { ((ignAlgorithm == 0) || (ignAlgorithm == 2)) ? 2.000 : 0.500 }
|
||
|
||
fuelLoadFeedBack = { ((algorithm == 0) || (algorithm == 2)) ? 1.000 : 0.250 }
|
||
ignLoadFeedBack = { ((ignAlgorithm == 0) || (ignAlgorithm == 2)) ? 1.000 : 0.250 }
|
||
|
||
fuel2LoadRes = { ((fuel2Algorithm == 0) || (fuel2Algorithm == 2)) ? 2.000 : 0.500 }
|
||
ign2LoadRes = { ((spark2Algorithm == 0) || (spark2Algorithm == 2)) ? 2.000 : 0.500 }
|
||
|
||
vvtDecimalRes= { (vvtLoadSource == 0) ? 0 : 1 }
|
||
fuelDecimalRes= { ((algorithm == 0) || (algorithm == 2)) ? 0 : 1 }
|
||
ignDecimalRes= { ((ignAlgorithm == 0) || (ignAlgorithm == 2)) ? 0 : 1 }
|
||
fuel2DecimalRes= { ((fuel2Algorithm == 0) || (fuel2Algorithm == 2)) ? 0 : 1 }
|
||
ign2DecimalRes= { ((spark2Algorithm == 0) || (spark2Algorithm == 2)) ? 0 : 1 }
|
||
|
||
boostTableLimit = { boostType == 0 ? 100.0 : 511 } ;The maximum value allowed in the boost table. 100 is used for duty cycle, 511 for kpa
|
||
|
||
CLIdleDelta = { CLIdleTarget - rpm }
|
||
syncStatus = { halfSync + (sync << 1) }
|
||
#if mcu_teensy
|
||
CANisAvailable = { ( (enable_secondarySerial && (secondarySerialProtocol == 2)) || (enable_intcan)) }
|
||
#elif mcu_stm32
|
||
CANisAvailable = { ( (enable_secondarySerial && (secondarySerialProtocol == 2)) || (enable_intcan)) }
|
||
#else
|
||
CANisAvailable = { (enable_secondarySerial && (secondarySerialProtocol == 2)) }
|
||
#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 = MAPxRPM, "MAPxRPM", int, "%d"
|
||
entry = tps, "TPS", float, "%.1f"
|
||
entry = afr, "AFR", float, "%.3f"
|
||
entry = lambda, "Lambda", float, "%.3f"
|
||
entry = iat, "IAT", int, "%d"
|
||
entry = coolant, "CLT", int, "%d"
|
||
entry = engine, "Engine", int, "%d"
|
||
entry = DFCOOn, "DFCO", int, "%d"
|
||
entry = egoCorrection, "Gego", int, "%d"
|
||
entry = airCorrection, "Gair", int, "%d"
|
||
entry = bat_correction, "Gbattery", int, "%d"
|
||
entry = warmupEnrich, "Gwarm", int, "%d"
|
||
entry = baroCorrection, "Gbaro", int, "%d"
|
||
entry = gammaEnrich, "Gammae", int, "%d"
|
||
entry = accelEnrich, "Accel Enrich", int, "%d"
|
||
entry = veCurr, "VE (Current)", int, "%d"
|
||
entry = VE1, "VE1", int, "%d"
|
||
entry = VE2, "VE2", int, "%d"
|
||
entry = pulseWidth, "PW", float, "%.3f"
|
||
entry = pulseWidth2, "PW2", float, "%.3f"
|
||
entry = pulseWidth3, "PW3", float, "%.3f"
|
||
entry = pulseWidth4, "PW4", float, "%.3f"
|
||
entry = afrTarget, "AFR Target", float, "%.3f"
|
||
entry = lambdaTarget, "Lambda Target", float, "%.3f"
|
||
entry = dutyCycle, "Duty Cycle", float, "%.1f"
|
||
entry = stgDutyCycle, "Duty Cycle (Staging)",float, "%.1f"
|
||
entry = TPSdot, "TPS DOT", int, "%d", { aeMode == 0 }
|
||
entry = advance, "Advance (Current)",int, "%d"
|
||
entry = dwell, "Dwell", float, "%.3f"
|
||
entry = dwellActual, "Dwell (Measured)", float, "%.3f", { perToothIgn }
|
||
entry = batteryVoltage, "Battery V", float, "%.1f"
|
||
entry = rpmDOT, "rpm/s", int, "%d"
|
||
entry = flex, "Eth %", int, "%d", { flexEnabled }
|
||
entry = flexFuelCor, "GflexFuel", int, "%d", { flexEnabled }
|
||
entry = fuelTemp, "Fuel Temp", int, "%d", { flexEnabled }
|
||
entry = fuelTempCor, "GfuelTemp", int, "%d", { flexEnabled }
|
||
entry = errorNum, "Error #", int, "%d", { errorNum }
|
||
entry = currentError, "Error ID", int, "%d", { errorNum }
|
||
entry = map_psi, "Boost PSI", float, "%.1f"
|
||
entry = boostTarget, "Boost Target", int, "%d", { boostEnabled }
|
||
entry = boostDuty, "Boost Duty", int, "%d", { boostEnabled }
|
||
entry = boostCutOut , "Boost cut", int, "%d"
|
||
entry = launchHard , "Hard Launch", int, "%d"
|
||
entry = hardLimitOn , "Hard Limiter", int, "%d"
|
||
entry = idleControlOn, "Idle Control", int, "%d"
|
||
entry = idleLoad, "IAC value", int, "%d"
|
||
entry = CLIdleTarget, "Idle Target RPM", int, "%d", { iacAlgorithm == 3 || iacAlgorithm == 5 || iacAlgorithm == 6 || iacAlgorithm == 7 || idleAdvEnabled >= 1 } ;Only show for closed loop idle modes and if idle advance is enabled
|
||
entry = CLIdleDelta, "Idle RPM Delta", int, "%d", { iacAlgorithm == 3 || iacAlgorithm == 5 || iacAlgorithm == 6 || iacAlgorithm == 7 || idleAdvEnabled >= 1 } ;Only show for closed loop idle modes and if idle advance is enabled
|
||
entry = baro, "Baro Pressure", int, "%d"
|
||
entry = nitrousOn, "Nitrous", int, "%d", { n2o_enable > 0 }
|
||
entry = fanStatus, "Fan", int, "%d"
|
||
entry = syncLossCounter, "Sync Loss #", int, "%d"
|
||
entry = vvt1Angle, "VVT1 Angle", int, "%.1f", { vvtEnabled > 0 }
|
||
entry = vvt1Target, "VVT1 Target Angle",int, "%.1f", { vvtEnabled > 0 && vvtMode == 2 } ;;Only show when using close loop vvt
|
||
entry = vvt1Duty, "VVT1 Duty", int, "%.1f", { vvtEnabled > 0 }
|
||
entry = vss, "Wheel Speed (kph)",int, "%d", { vssMode > 1 }
|
||
entry = vssMPH, "Wheel Speed (mph)",int, "%d", { vssMode > 1 }
|
||
entry = gear, "Gear", int, "%d", { vssMode > 1 }
|
||
entry = fuelPressure, "Fuel Pressure", int, "%d", { fuelPressureEnable > 0 }
|
||
entry = oilPressure, "Oil Pressure", int, "%d", { oilPressureEnable > 0 }
|
||
entry = vvt2Angle, "VVT2 Angle", int, "%.1f", { vvt2Enabled > 0 }
|
||
entry = vvt2Target, "VVT2 Target Angle",int, "%.1f", { vvt2Enabled > 0 && vvtMode == 2 } ;;Only show when using close loop vvt
|
||
entry = vvt2Duty, "VVT2 Duty", int, "%.1f", { vvt2Enabled > 0 && vvtMode == 2 }
|
||
entry = fanDuty, "FAN Duty", int, "%.1f", { fanEnable == 2 }
|
||
entry = loopsPerSecond, "Loops/s", int, "%d"
|
||
entry = loopsPerRev, "Loops/rev", int, "%.2f"
|
||
entry = wmiPW, "WMI Duty Cycle", int, "%d", { wmiEnabled == 1 }
|
||
entry = MAPdot, "MAP DOT", int, "%d", { aeMode == 1 }
|
||
|
||
entry = auxin_gauge0, { stringValue(AUXin00Alias) }, int, "%d", {(caninput_sel0b != 0)}
|
||
entry = auxin_gauge1, { stringValue(AUXin01Alias) }, int, "%d", { (caninput_sel1b != 0)}
|
||
entry = auxin_gauge2, { stringValue(AUXin02Alias) }, int, "%d", { (caninput_sel2b != 0)}
|
||
entry = auxin_gauge3, { stringValue(AUXin03Alias) }, int, "%d", { (caninput_sel3b != 0)}
|
||
entry = auxin_gauge4, { stringValue(AUXin04Alias) }, int, "%d", { (caninput_sel4b != 0)}
|
||
entry = auxin_gauge5, { stringValue(AUXin05Alias) }, int, "%d", { (caninput_sel5b != 0)}
|
||
entry = auxin_gauge6, { stringValue(AUXin06Alias) }, int, "%d", { (caninput_sel6b != 0)}
|
||
entry = auxin_gauge7, { stringValue(AUXin07Alias) }, int, "%d", { (caninput_sel7b != 0)}
|
||
entry = auxin_gauge8, { stringValue(AUXin08Alias) }, int, "%d", { (caninput_sel8b != 0)}
|
||
entry = auxin_gauge9, { stringValue(AUXin09Alias) }, int, "%d", { (caninput_sel9b != 0)}
|
||
entry = auxin_gauge10, { stringValue(AUXin10Alias) }, int, "%d", { (caninput_sel10b != 0)}
|
||
entry = auxin_gauge11, { stringValue(AUXin11Alias) }, int, "%d", { (caninput_sel11b != 0)}
|
||
entry = auxin_gauge12, { stringValue(AUXin12Alias) }, int, "%d", { (caninput_sel12b != 0)}
|
||
entry = auxin_gauge13, { stringValue(AUXin13Alias) }, int, "%d", { (caninput_sel13b != 0)}
|
||
entry = auxin_gauge14, { stringValue(AUXin14Alias) }, int, "%d", { (caninput_sel14b != 0)}
|
||
entry = auxin_gauge15, { stringValue(AUXin15Alias) }, int, "%d", { (caninput_sel15b != 0)}
|
||
entry = outputsStatus0, { stringValue(prgm_out00Alias)}, int, "%d", { (outputPin[0] != 0)}
|
||
entry = outputsStatus1, { stringValue(prgm_out01Alias)}, int, "%d", { (outputPin[1] != 0)}
|
||
entry = outputsStatus2, { stringValue(prgm_out02Alias)}, int, "%d", { (outputPin[2] != 0)}
|
||
entry = outputsStatus3, { stringValue(prgm_out03Alias)}, int, "%d", { (outputPin[3] != 0)}
|
||
entry = outputsStatus4, { stringValue(prgm_out04Alias)}, int, "%d", { (outputPin[4] != 0)}
|
||
entry = outputsStatus5, { stringValue(prgm_out05Alias)}, int, "%d", { (outputPin[5] != 0)}
|
||
entry = outputsStatus6, { stringValue(prgm_out06Alias)}, int, "%d", { (outputPin[6] != 0)}
|
||
entry = outputsStatus7, { stringValue(prgm_out07Alias)}, int, "%d", { (outputPin[7] != 0)}
|
||
|
||
entry = advance1, "Advance 1", int, "%d"
|
||
entry = advance2, "Advance 2", int, "%d"
|
||
entry = emap, "EMAP", int, "%d", { useEMAP }
|
||
entry = fuelLoad, "FuelLoad", float, "%.1f"
|
||
entry = ignLoad, "IgnitionLoad", float, "%.1f"
|
||
entry = syncStatus, "Sync status", int, "%d"
|
||
entry = engineProtectRPM, "Engine Prot. RPM", int, "onOff", { engineProtectType }
|
||
entry = engineProtectMAP, "Engine Prot. MAP", int, "onOff", { engineProtectType && boostCutEnabled }
|
||
entry = engineProtectOil, "Engine Prot. Oil Pressure", int, "onOff", { engineProtectType && oilPressureProtEnbl && oilPressureEnable }
|
||
entry = engineProtectAFR, "Engine Prot. AFR", int, "onOff", { engineProtectType && afrProtectEnabled && (egoType == 2) }
|
||
entry = engineProtectCoolant, "Engine Prot. CLT", int, "onOff", { engineProtectType }
|
||
|
||
[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
|
||
startCommand = "H"
|
||
stopCommand = "h"
|
||
;dataReadCommand = "T" ; Basic TS command format
|
||
dataReadCommand = "T\$tsCanId\x01\xFC\x00\x01\xFC" ; Basic TS command format. Note that this is shared with the composite logger. Firmware detects which log is currently running
|
||
dataReadTimeout = 5000 ; time in ms
|
||
continuousRead = true
|
||
dataReadyCondition = { toothLog1Ready == 1 }
|
||
dataLength = 508; in bytes, including headers, footers and data (not used). 4 bytes * 127 entries (TOOTH_LOG_SIZE)
|
||
;dataLength = 128 ; in bytes, including headers, footers and data (not used)
|
||
|
||
;recordDef = headerLen. footerLen, recordLen
|
||
recordDef = 0, 0, 4; in bytes, the recordLen is for each record, currently limited to 4 bytes
|
||
|
||
;recordField = Name, HeaderName, startBit, bitCount, scale, units, updateCondition
|
||
recordField = toothTime, "ToothTime", 0, 32, 1.0, "uS"
|
||
|
||
loggerDef = compositeLogger, "Composite Logger", composite
|
||
startCommand = "J"
|
||
stopCommand = "j"
|
||
;dataReadCommand = "T" ; Basic TS command format. Note that this is shared with the composite logger. Firmware detects which log is currently running
|
||
dataReadCommand = "T\$tsCanId\x00\x00\x00\x02\x7B" ; Basic TS command format. Note that this is shared with the composite logger. Firmware detects which log is currently running
|
||
dataReadTimeout = 5000 ; time in ms
|
||
dataReadyCondition = { toothLog1Ready == 1 }
|
||
continuousRead = true
|
||
dataLength = 127 ; Number of records to show on a single screen. Should match TOOTH_LOG_SIZE in the code
|
||
|
||
;recordDef = headerLen. footerLen, recordLen
|
||
recordDef = 0, 0, 5; in bytes, the recordLen is for each record, currently limited to 4 bytes
|
||
|
||
;recordField = Name, HeaderName, startBit, bitCount, scale, units, updateCondition
|
||
recordField = priLevel, "PriLevel", 0, 1, 1.0, "Flag"
|
||
recordField = secLevel, "SecLevel", 1, 1, 1.0, "Flag"
|
||
recordField = ThirdLevel, "ThirdLevel", 2, 1, 1.0, "Flag"
|
||
recordField = trigger, "Trigger", 3, 1, 1.0, "Flag"
|
||
recordField = sync, "Sync", 4, 1, 1.0, "Flag"
|
||
recordField = cycle, "Cycle", 5, 1, 1.0, "Flag"
|
||
recordField = refTime, "RefTime", 8, 32, 0.001, "ms"
|
||
|
||
; hidden calcField serves as intermediate variable
|
||
calcField = maxTime, "MaxTime", "ms", { maxValue(refTime) }, hidden
|
||
|
||
calcField = toothTime, "ToothTime", "ms", { refTime - pastValue(refTime, 1) }
|
||
;recordField = time, "Time", 24, 16, 1.0, "ms"
|
||
calcField = time, "Time", "ms", { refTime }
|
||
|
||
loggerDef = compositeLogger2, "Composite Logger 2nd Cam", composite
|
||
startCommand = "O"
|
||
stopCommand = "o"
|
||
;dataReadCommand = "T" ; Basic TS command format. Note that this is shared with the composite logger. Firmware detects which log is currently running
|
||
dataReadCommand = "T\$tsCanId\x00\x00\x00\x02\x7B" ; Basic TS command format. Note that this is shared with the composite logger. Firmware detects which log is currently running
|
||
dataReadTimeout = 50000 ; time in ms
|
||
dataReadyCondition = { toothLog1Ready == 1 }
|
||
continuousRead = true
|
||
dataLength = 127 ; Number of records to show on a single screen. Should match TOOTH_LOG_SIZE in the code
|
||
|
||
;recordDef = headerLen. footerLen, recordLen
|
||
recordDef = 0, 0, 5; in bytes, the recordLen is for each record, currently limited to 4 bytes
|
||
|
||
;recordField = Name, HeaderName, startBit, bitCount, scale, units, updateCondition
|
||
recordField = priLevel, "PriLevel", 0, 1, 1.0, "Flag"
|
||
recordField = secLevel, "SecLevel", 1, 1, 1.0, "Flag"
|
||
recordField = ThirdLevel, "ThirdLevel", 2, 1, 1.0, "Flag"
|
||
recordField = trigger, "Trigger", 3, 1, 1.0, "Flag"
|
||
recordField = sync, "Sync", 4, 1, 1.0, "Flag"
|
||
recordField = cycle, "Cycle", 5, 1, 1.0, "Flag"
|
||
recordField = refTime, "RefTime", 8, 32, 0.001, "ms"
|
||
|
||
; hidden calcField serves as intermediate variable
|
||
calcField = maxTime, "MaxTime", "ms", { maxValue(refTime) }, hidden
|
||
|
||
calcField = toothTime, "ToothTime", "ms", { refTime - pastValue(refTime, 1) }
|
||
;recordField = time, "Time", 24, 16, 1.0, "ms"
|
||
calcField = time, "Time", "ms", { refTime }
|
||
loggerDef = compositeLogger3, "Composite Logger Both cams", composite
|
||
startCommand = "X"
|
||
stopCommand = "x"
|
||
;dataReadCommand = "T" ; Basic TS command format. Note that this is shared with the composite logger. Firmware detects which log is currently running
|
||
dataReadCommand = "T\$tsCanId\x00\x00\x00\x02\x7B" ; Basic TS command format. Note that this is shared with the composite logger. Firmware detects which log is currently running
|
||
dataReadTimeout = 50000 ; time in ms
|
||
dataReadyCondition = { toothLog1Ready == 1 }
|
||
continuousRead = true
|
||
dataLength = 127 ; Number of records to show on a single screen. Should match TOOTH_LOG_SIZE in the code
|
||
|
||
;recordDef = headerLen. footerLen, recordLen
|
||
recordDef = 0, 0, 5; in bytes, the recordLen is for each record, currently limited to 4 bytes
|
||
|
||
;recordField = Name, HeaderName, startBit, bitCount, scale, units, updateCondition
|
||
recordField = priLevel, "PriLevel", 0, 1, 1.0, "Flag"
|
||
recordField = secLevel, "SecLevel", 1, 1, 1.0, "Flag"
|
||
recordField = ThirdLevel, "ThirdLevel", 2, 1, 1.0, "Flag"
|
||
recordField = trigger, "Trigger", 3, 1, 1.0, "Flag"
|
||
recordField = sync, "Sync", 4, 1, 1.0, "Flag"
|
||
recordField = cycle, "Cycle", 5, 1, 1.0, "Flag"
|
||
recordField = refTime, "RefTime", 8, 32, 0.001, "ms"
|
||
|
||
; hidden calcField serves as intermediate variable
|
||
calcField = maxTime, "MaxTime", "ms", { maxValue(refTime) }, hidden
|
||
|
||
calcField = toothTime, "ToothTime", "ms", { refTime - pastValue(refTime, 1) }
|
||
;recordField = time, "Time", 24, 16, 1.0, "ms"
|
||
calcField = time, "Time", "ms", { refTime }
|
||
|
||
|
||
|
||
[ReferenceTables]
|
||
tableWriteCommand = "t\$tsCanId%2i%2o%2c%v"; "t%2i%2o%2c%v"; "t\x01\xFC\x00\x01\xFC" "t\%2i%2o%2c%v"
|
||
#if mcu_stm32
|
||
tableBlockingFactor = 64
|
||
#else
|
||
tableBlockingFactor = 256
|
||
#endif
|
||
#if COMMS_COMPAT
|
||
tableBlockingFactor = 64
|
||
#endif
|
||
|
||
referenceTable = std_ms2gentherm, "Calibrate Thermistor Tables."
|
||
topicHelp = "http://wiki.speeduino.com/en/configuration/Sensor_Calibration"
|
||
tableIdentifier = 000, "Coolant Temperature Sensor", 001, "Air Temperature Sensor"
|
||
; tableLimits (optional) = intentifier, min, max, defaultVal
|
||
; will set the default value if value is outside the min and max limits.
|
||
tableLimits = 000, -40, 350, 180 ;Coolant
|
||
tableLimits = 001, -40, 350, 70 ;IAT
|
||
;Table 002 is AFR
|
||
|
||
adcCount = 32 ; length of the table
|
||
bytesPerAdc = 2 ; using shorts
|
||
scale = 10 ; scale by 10 before sending to controller
|
||
;tableGenerator = Generator type, Label
|
||
tableGenerator = thermGenerator, "Thermistor Measurements"
|
||
tableGenerator = fileBrowseGenerator, "Browse for Inc File"
|
||
; thermOption = name, resistor bias, tempPoint1(C), resPoint1, tempPoint2, resPoint2, tempPoint3, resPoint3
|
||
thermOption = "GM", 2490, -40, 100700, 30, 2238, 99, 177
|
||
thermOption = "Chrysler 85 up", 2490, 5.5, 24500, 30.5, 8100, 88.3, 850
|
||
thermOption = "Ford", 2490, 0, 94000, 50, 11000, 98, 2370
|
||
thermOption = "Saab (Bosch)", 2490, 0, 5800, 80, 320, 100, 180
|
||
thermOption = "Mazda", 50000, -40, 2022088, 21, 68273, 99, 3715
|
||
thermOption = "Mitsu", 2490, -40, 100490, 30, 1875, 99, 125
|
||
thermOption = "Toyota", 2490, -40, 101890, 30, 2268, 99, 156
|
||
thermOption = "RX-7_CLT(S4 & S5)", 2490, -20, 16200, 20, 2500, 80, 300
|
||
thermOption = "RX-7_MAT", 42200, 20, 41500, 50, 11850, 85, 3500
|
||
thermOption = "VW L-Jet Cylinder Head Temp Sensor II", 1100, -13.888, 11600,53.888, 703, 95.555, 207
|
||
thermOption = "RX-7_AFM(S5 in AFM)", 2490, -20, 16200, 20, 2500, 80, 300
|
||
thermOption = "BMW E30 325i", 2490, -10, 9300, 20, 2500, 80, 335
|
||
solution = "3 Point Therm Generator", thermGenerator
|
||
solution = "Custom inc File", fileBrowseGenerator
|
||
|
||
referenceTable = std_ms2geno2, "Calibrate AFR Table..."
|
||
topicHelp = "https://wiki.speeduino.com/en/configuration/Sensor_Calibration"
|
||
tableIdentifier = 002, "AFR Table"
|
||
adcCount = 1024 ; length of the table
|
||
bytesPerAdc = 1 ; using bytes
|
||
scale = 10 ; scale by 10 before sending to controller
|
||
;tableGenerator = Generator Type, Label, xUnits, yUnits, xLow, xHi, yLow, yHi
|
||
tableGenerator = linearGenerator, "Custom Linear WB", "Volts","AFR", 1, 4, 9.7, 18.7
|
||
tableGenerator = fileBrowseGenerator, "Browse for Inc File"
|
||
|
||
solutionsLabel = "EGO Sensor"
|
||
solution = " ", { } ; blank row in case no match found. Must reman at top.
|
||
solution = "Narrowband", { table(adcValue*5/1023 , "nb.inc") } ;
|
||
solution = "14Point7", { 10.0001 + ( adcValue * 0.0097752 )} ; 10.0001 causes 1 adc to round different for unique match.
|
||
solution = "AEM Linear AEM-30-42xx", { 9.72 + (adcValue * 0.0096665) } ; 9.72:1 - 19.60:1
|
||
solution = "AEM Linear (30-2310 & 30-4900)", { 7.3125 + (adcValue * 0.0116080) } ; 7.31:1 - 19.18:1
|
||
solution = "Autometer 0V=10:1, 4V=16:1", { 10 + (adcValue * 0.0073313783) }
|
||
solution = "Ballenger AFR500 0V=9:1, 5V=16:1", { 9 + (adcValue * 0.00684262) }
|
||
solution = "Ballenger AFR500 0V=6:1, 5V=20:1", { 6 + (adcValue * 0.01368524) }
|
||
solution = "Daytona TwinTec", { 10.01 + (adcValue * 0.0097752) }
|
||
solution = "DIY-EFI TinyWB", { 10.0001 + ( adcValue * 0.0097752 )} ; Same as 14point7 units
|
||
solution = "DynoJet Wideband Commander", { adcValue * 0.00784325 + 10 }
|
||
solution = "F.A.S.T. Wideband", { adcValue * 0.01357317 + 9.6 } ; 838.8608
|
||
solution = "FJO WB", { table(adcValue*5/1023 , "fjoWB.inc" ) }
|
||
solution = "Fueltech WB-02 Nano Anhydr. Eth.", { 5.11043 + (adcValue * 0.997826) }
|
||
solution = "Fueltech WB-02 Nano Hydr. Ethan.", { 4.74685 + (adcValue * 0.927739) }
|
||
solution = "Fueltech WB-02 Nano Gasoline", { 8.37391 + (adcValue * 0.00796111) }
|
||
solution = "Fueltech WB-02 Nano Methanol", { 3.65652 + (adcValue * 0.00350289) }
|
||
solution = "Innovate LC-1 / LC-2 Default", { 7.35 + (adcValue * 0.01470186 )}
|
||
solution = "Innovate / PLX 0.0-5.0 10:1-20:1", { 10 + (adcValue * 0.0097752)}
|
||
solution = "Innovate 1.0-2.0", { adcValue * 0.049025}
|
||
solution = "LambdaBoy", { table(adcValue*5/1023 , "lambdaBoy.inc" ) }
|
||
solution = "NGK Powerdex", { 9 + ( adcValue * 0.0068359375 ) }
|
||
solution = "ODG Wideband - Faixa 1", { 8.3470 + (adcValue * 0.00795792) }
|
||
solution = "ODG Wideband - Faixa 2", { 9.1447 + (adcValue * 0.01013714) }
|
||
solution = "TechEdge DIY Non-Linear", { table(adcValue*5/1023 , "TechEdge_DIYwbo2.inc") }
|
||
solution = "TechEdge Linear", { adcValue * 0.0097752 + 9 }
|
||
solution = "Zeitronix - Non Linear", { table(adcValue*5/1023 , "zeitronix.inc") }
|
||
solution = "Zeitronix - Linear Default", { 9.6 + (adcValue * 0.0097752) }
|
||
|
||
solution = "Custom Linear WB", linearGenerator
|
||
solution = "Custom inc File", fileBrowseGenerator
|
||
|
||
[Tools]
|
||
;addTool = toolName, PanelName
|
||
addTool = veTableGenerator, "VE Table Generator", veTable1Tbl
|
||
addTool = afrTableGenerator, "AFR Table Generator", afrTable1Tbl
|
||
|
||
; The AFR Table Generator does not work with the lambda target table
|
||
;addTool = afrTableGenerator, "AFR Table Generator", lambdaTable1Tbl
|
||
|
||
[VeAnalyze]
|
||
; tableName, lambdaTargetTableName, lambdaChannel, egoCorrectionChannel, activeCondition
|
||
#if LAMBDA
|
||
veAnalyzeMap = veTable1Tbl, lambdaTable1Tbl, lambda, egoCorrection
|
||
lambdaTargetTables = lambdaTable1Tbl, afrTSCustom
|
||
#else
|
||
veAnalyzeMap = veTable1Tbl, afrTable1Tbl, afr, egoCorrection
|
||
lambdaTargetTables = afrTable1Tbl, afrTSCustom
|
||
#endif
|
||
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.
|
||
|
||
|
||
[WueAnalyze]
|
||
; wueCurveName, afrTempCompensationCurve, lambdaTargetTableName, lambdaChannel, coolantTempChannel, wueChannel, egoCorrectionChannel, activeCondition
|
||
#if LAMBDA
|
||
wueAnalyzeMap = warmup_analyzer_curve, warmup_afr_curve, lambdaTable1Tbl, lambda, coolant, warmupEnrich, egoCorrection
|
||
lambdaTargetTables = lambdaTable1Tbl, afrTSCustom
|
||
#else
|
||
wueAnalyzeMap = warmup_analyzer_curve, warmup_afr_curve, afrTable1Tbl, afr, coolant, warmupEnrich, egoCorrection
|
||
lambdaTargetTables = afrTable1Tbl, afrTSCustom
|
||
#endif
|
||
filter = std_DeadLambda ; Auto build
|
||
filter = accelFilter, "Accel Flag", engine, &, 16, false
|
||
filter = aseFilter, "ASE Flag", engine, &, 4, false
|
||
filter = overrunFilter, "Overrun", pulseWidth, =, 0, false
|
||
filter = maxTPS, "Max TPS", throttle, >, 15, true
|
||
filter = minRPM, "Min RPM", rpm, <, 300, true
|
||
filter = std_Custom ; Standard Custom Expression Filter.
|