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rusefi/firmware/config/engines/custom_engine.cpp

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/**
* @file custom_engine.cpp
*
*
* set engine_type 49
* FRANKENSO_QA_ENGINE
* See also DEFAULT_ENGINE_TYPE
* Frankenso QA 12 cylinder engine
*
* @date Jan 18, 2015
* @author Andrey Belomutskiy, (c) 2012-2020
*/
#include "pch.h"
#include "custom_engine.h"
#include "fsio_impl.h"
#include "mre_meta.h"
#include "proteus_meta.h"
#if EFI_ELECTRONIC_THROTTLE_BODY
#include "electronic_throttle.h"
#endif
#if EFI_PROD_CODE
#include "can_hw.h"
#include "scheduler.h"
#endif /* EFI_PROD_CODE */
#if HW_PROTEUS & EFI_PROD_CODE
#include "proteus_meta.h"
#endif
#if EFI_PROD_CODE
static int periodIndex = 0;
static OutputPin testPin;
static scheduling_s testScheduling;
static int test557[] = {5, 5, 10, 10, 20, 20, 50, 50, 100, 100, 200, 200, 500, 500, 500, 500};
#define TEST_LEN 16
efitimeus_t testTime;
static void toggleTestAndScheduleNext(void *) {
testPin.toggle();
periodIndex = (periodIndex + 1) % TEST_LEN;
testTime += test557[periodIndex];
engine->executor.scheduleByTimestamp("test", &testScheduling, testTime, &toggleTestAndScheduleNext);
}
/**
* https://github.com/rusefi/rusefi/issues/557 common rail / direct injection scheduling control test
*/
void runSchedulingPrecisionTestIfNeeded(void) {
if (!isBrainPinValid(engineConfiguration->test557pin)) {
return;
}
testPin.initPin("test", engineConfiguration->test557pin);
testPin.setValue(0);
testTime = getTimeNowUs();
toggleTestAndScheduleNext(/*unused*/ nullptr);
}
#endif /* EFI_PROD_CODE */
void setFrankenso_01_LCD(engine_configuration_s *engineConfiguration) {
engineConfiguration->HD44780_rs = GPIOE_7;
engineConfiguration->HD44780_e = GPIOE_9;
engineConfiguration->HD44780_db4 = GPIOE_11;
engineConfiguration->HD44780_db5 = GPIOE_13;
engineConfiguration->HD44780_db6 = GPIOE_15;
engineConfiguration->HD44780_db7 = GPIOB_10;
}
void disableLCD(engine_configuration_s *engineConfiguration) {
engineConfiguration->HD44780_rs = GPIO_UNASSIGNED;
engineConfiguration->HD44780_e = GPIO_UNASSIGNED;
engineConfiguration->HD44780_db4 = GPIO_UNASSIGNED;
engineConfiguration->HD44780_db5 = GPIO_UNASSIGNED;
engineConfiguration->HD44780_db6 = GPIO_UNASSIGNED;
engineConfiguration->HD44780_db7 = GPIO_UNASSIGNED;
}
// todo: should this be part of more default configurations?
void setFrankensoConfiguration() {
setDefaultFrankensoConfiguration();
engineConfiguration->trigger.type = TT_ONE_PLUS_ONE;
setFrankenso_01_LCD(engineConfiguration);
engineConfiguration->displayMode = DM_HD44780;
commonFrankensoAnalogInputs(engineConfiguration);
setFrankenso0_1_joystick(engineConfiguration);
/**
* Frankenso analog #1 PC2 ADC12 CLT
* Frankenso analog #2 PC1 ADC11 IAT
* Frankenso analog #3 PA0 ADC0 MAP
* Frankenso analog #4 PC3 ADC13 WBO / O2
* Frankenso analog #5 PA2 ADC2 TPS
* Frankenso analog #6 PA1 ADC1
* Frankenso analog #7 PA4 ADC4
* Frankenso analog #8 PA3 ADC3
* Frankenso analog #9 PA7 ADC7
* Frankenso analog #10 PA6 ADC6
* Frankenso analog #11 PC5 ADC15
* Frankenso analog #12 PC4 ADC14 VBatt
*/
engineConfiguration->tps1_1AdcChannel = EFI_ADC_2; // PA2
engineConfiguration->map.sensor.hwChannel = EFI_ADC_0;
engineConfiguration->clt.adcChannel = EFI_ADC_12;
engineConfiguration->iat.adcChannel = EFI_ADC_11;
engineConfiguration->afr.hwChannel = EFI_ADC_13;
setCommonNTCSensor(&engineConfiguration->clt, 2700);
setCommonNTCSensor(&engineConfiguration->iat, 2700);
/**
* http://rusefi.com/wiki/index.php?title=Manual:Hardware_Frankenso_board
*/
// Frankenso low out #1: PE6
// Frankenso low out #2: PE5
// Frankenso low out #3: PD7 Main Relay
// Frankenso low out #4: PC13 Idle valve solenoid
// Frankenso low out #5: PE3
// Frankenso low out #6: PE4 fuel pump relay
// Frankenso low out #7: PE1 (do not use with discovery!)
// Frankenso low out #8: PE2 injector #2
// Frankenso low out #9: PB9 injector #1
// Frankenso low out #10: PE0 (do not use with discovery!)
// Frankenso low out #11: PB8 injector #3
// Frankenso low out #12: PB7 injector #4
engineConfiguration->fuelPumpPin = GPIOE_4;
engineConfiguration->mainRelayPin = GPIOD_7;
engineConfiguration->idle.solenoidPin = GPIOC_13;
engineConfiguration->fanPin = GPIOE_5;
engineConfiguration->injectionPins[0] = GPIOB_9; // #1
engineConfiguration->injectionPins[1] = GPIOE_2; // #2
engineConfiguration->injectionPins[2] = GPIOB_8; // #3
#ifndef EFI_INJECTOR_PIN3
engineConfiguration->injectionPins[3] = GPIOB_7; // #4
#else /* EFI_INJECTOR_PIN3 */
engineConfiguration->injectionPins[3] = EFI_INJECTOR_PIN3; // #4
#endif /* EFI_INJECTOR_PIN3 */
setAlgorithm(LM_SPEED_DENSITY);
#if EFI_PWM_TESTER
engineConfiguration->injectionPins[4] = GPIOC_8; // #5
engineConfiguration->injectionPins[5] = GPIOD_10; // #6
engineConfiguration->injectionPins[6] = GPIOD_9;
engineConfiguration->injectionPins[7] = GPIOD_11;
engineConfiguration->injectionPins[8] = GPIOD_0;
engineConfiguration->injectionPins[9] = GPIOB_11;
engineConfiguration->injectionPins[10] = GPIOC_7;
engineConfiguration->injectionPins[11] = GPIOE_4;
/**
* We want to initialize all outputs for test
*/
engineConfiguration->specs.cylindersCount = 12;
engineConfiguration->displayMode = DM_NONE;
#else /* EFI_PWM_TESTER */
engineConfiguration->injectionPins[4] = GPIO_UNASSIGNED;
engineConfiguration->injectionPins[5] = GPIO_UNASSIGNED;
engineConfiguration->injectionPins[6] = GPIO_UNASSIGNED;
engineConfiguration->injectionPins[7] = GPIO_UNASSIGNED;
engineConfiguration->injectionPins[8] = GPIO_UNASSIGNED;
engineConfiguration->injectionPins[9] = GPIO_UNASSIGNED;
engineConfiguration->injectionPins[10] = GPIO_UNASSIGNED;
engineConfiguration->injectionPins[11] = GPIO_UNASSIGNED;
engineConfiguration->ignitionPins[0] = GPIOE_14;
engineConfiguration->ignitionPins[1] = GPIOC_7;
engineConfiguration->ignitionPins[2] = GPIOC_9;
// set_ignition_pin 4 PE10
engineConfiguration->ignitionPins[3] = GPIOE_10;
#endif /* EFI_PWM_TESTER */
// todo: 8.2 or 10k?
engineConfiguration->vbattDividerCoeff = ((float) (10 + 33)) / 10 * 2;
#if EFI_CAN_SUPPORT
enableFrankensoCan();
#endif /* EFI_CAN_SUPPORT */
}
/**
* set engine_type 49
*/
void setFrankensoBoardTestConfiguration() {
setFrankensoConfiguration();
engineConfiguration->triggerSimulatorFrequency = 300;
engineConfiguration->cranking.rpm = 100;
engineConfiguration->specs.cylindersCount = 12;
engineConfiguration->specs.firingOrder = FO_1_7_5_11_3_9_6_12_2_8_4_10;
// set ignition_mode 1
engineConfiguration->ignitionMode = IM_INDIVIDUAL_COILS;
engineConfiguration->injectionPins[0] = GPIOB_7; // injector in default pinout
engineConfiguration->injectionPins[1] = GPIOB_8; // injector in default pinout
engineConfiguration->injectionPins[2] = GPIOB_9; // injector in default pinout
engineConfiguration->injectionPins[3] = GPIOC_13;
engineConfiguration->injectionPins[4] = GPIOD_3;
engineConfiguration->injectionPins[5] = GPIOD_5;
engineConfiguration->injectionPins[6] = GPIOD_7;
engineConfiguration->injectionPins[7] = GPIOE_2; // injector in default pinout
engineConfiguration->injectionPins[8] = GPIOE_3;
engineConfiguration->injectionPins[9] = GPIOE_4;
engineConfiguration->injectionPins[10] = GPIOE_5;
engineConfiguration->injectionPins[11] = GPIOE_6;
engineConfiguration->fuelPumpPin = GPIO_UNASSIGNED;
engineConfiguration->mainRelayPin = GPIO_UNASSIGNED;
engineConfiguration->idle.solenoidPin = GPIO_UNASSIGNED;
engineConfiguration->fanPin = GPIO_UNASSIGNED;
engineConfiguration->ignitionPins[0] = GPIOC_9; // coil in default pinout
engineConfiguration->ignitionPins[1] = GPIOC_7; // coil in default pinout
engineConfiguration->ignitionPins[2] = GPIOE_10; // coil in default pinout
engineConfiguration->ignitionPins[3] = GPIOE_8; // Miata VVT tach
engineConfiguration->ignitionPins[4] = GPIOE_14; // coil in default pinout
engineConfiguration->ignitionPins[5] = GPIOE_12;
engineConfiguration->ignitionPins[6] = GPIOD_8;
engineConfiguration->ignitionPins[7] = GPIOD_9;
engineConfiguration->ignitionPins[8] = GPIOE_0; // brain board, not discovery
engineConfiguration->ignitionPins[9] = GPIOE_1; // brain board, not discovery
}
// ETB_BENCH_ENGINE
// set engine_type 58
void setEtbTestConfiguration() {
setDefaultFrankensoConfiguration();
// VAG test ETB
// set tps_min 54
engineConfiguration->tpsMin = 54;
// by the way this ETB has default position of ADC=74 which is about 4%
// set tps_max 540
engineConfiguration->tpsMax = 540;
// yes, 30K - that's a test configuration
engineConfiguration->rpmHardLimit = 30000;
setOperationMode(engineConfiguration, FOUR_STROKE_CRANK_SENSOR);
engineConfiguration->trigger.type = TT_TOOTHED_WHEEL_60_2;
engineConfiguration->ignitionPins[0] = GPIO_UNASSIGNED;
engineConfiguration->ignitionPins[1] = GPIO_UNASSIGNED;
engineConfiguration->ignitionPins[2] = GPIO_UNASSIGNED;
engineConfiguration->ignitionPins[3] = GPIO_UNASSIGNED;
/**
* remember that some H-bridges require 5v control lines, not just 3v logic outputs we have on stm32
*/
CONFIG(etbIo[0].directionPin1) = GPIOC_7; // Frankenso high-side in order to get 5v control
CONFIG(etbIo[0].directionPin2) = GPIOC_9;
CONFIG(etbIo[0].controlPin) = GPIOE_14;
#if EFI_ELECTRONIC_THROTTLE_BODY
setBoschVNH2SP30Curve();
// setDefaultEtbParameters();
#endif /* EFI_ELECTRONIC_THROTTLE_BODY */
engineConfiguration->tps1_1AdcChannel = EFI_ADC_2; // PA2
engineConfiguration->throttlePedalPositionAdcChannel = EFI_ADC_9; // PB1
engineConfiguration->debugMode = DBG_ELECTRONIC_THROTTLE_PID;
// turning off other PWMs to simplify debugging
engineConfiguration->triggerSimulatorFrequency = 0;
engineConfiguration->stepperEnablePin = GPIO_UNASSIGNED;
CONFIG(idle).stepperStepPin = GPIO_UNASSIGNED;
CONFIG(idle).stepperDirectionPin = GPIO_UNASSIGNED;
engineConfiguration->useStepperIdle = true;
// no analog dividers - all sensors with 3v supply, naked discovery bench setup
engineConfiguration->analogInputDividerCoefficient = 1;
// EFI_ADC_15 = PC5
engineConfiguration->clt.adcChannel = EFI_ADC_15;
set10K_4050K(&engineConfiguration->clt, 10000);
// see also setDefaultEtbBiasCurve
}
#if EFI_UNIT_TEST
void setIssue898() {
engineConfiguration->trigger.type = TT_MAZDA_MIATA_NA;
}
#endif /* EFI_UNIT_TEST */
// TLE8888_BENCH_ENGINE
// todo: remove this? this was used to play with "secret" red boards prior to MRE reality
// set engine_type 59
void setTle8888TestConfiguration() {
engineConfiguration->specs.cylindersCount = 8;
engineConfiguration->specs.firingOrder = FO_1_8_7_2_6_5_4_3;
engineConfiguration->ignitionMode = IM_INDIVIDUAL_COILS;
engineConfiguration->crankingInjectionMode = IM_SEQUENTIAL;
#if defined(STM32_HAS_GPIOG) && STM32_HAS_GPIOG
engineConfiguration->ignitionPins[0] = GPIOG_3;
engineConfiguration->ignitionPins[1] = GPIOG_4;
engineConfiguration->ignitionPins[2] = GPIOG_5;
engineConfiguration->ignitionPins[3] = GPIOG_6;
engineConfiguration->ignitionPins[4] = GPIOG_7;
engineConfiguration->ignitionPins[5] = GPIOG_8;
#endif /* STM32_HAS_GPIOG */
engineConfiguration->ignitionPins[6] = GPIOC_6;
engineConfiguration->ignitionPins[7] = GPIOC_7;
#if (BOARD_TLE8888_COUNT > 0)
engineConfiguration->tle8888spiDevice = SPI_DEVICE_1;
engineConfiguration->tle8888_cs = GPIOD_5;
// PB3 is nicely both SWO and SPI1 SCK so logic analyzer could be used on SWO header
engineConfiguration->spi1mosiPin = GPIOB_5;
engineConfiguration->spi1misoPin = GPIOB_4;
engineConfiguration->spi1sckPin = GPIOB_3; // please note that this pin is also SWO/SWD - Single Wire debug Output
engineConfiguration->is_enabled_spi_1 = true;
engineConfiguration->debugMode = DBG_TLE8888;
engineConfiguration->fuelPumpPin = TLE8888_PIN_20;
#endif /* BOARD_TLE8888_COUNT */
engineConfiguration->throttlePedalPositionAdcChannel = EFI_ADC_9; // PB1 // just any non-empty value for now
// ETB #1 top one - closer to 121 connector
// DIS PF12
// EN PF13
// IN1 PF15
// IN2 PF14
// SF PF11
#if defined(STM32_HAS_GPIOF) && STM32_HAS_GPIOF
#if EFI_FSIO
// todo lua setFsio(14, GPIOF_13, "1");
#endif /* EFI_FSIO */
CONFIG(etbIo[0].directionPin1) = GPIOF_15;
CONFIG(etbIo[0].directionPin2) = GPIOF_14;
CONFIG(etbIo[0].disablePin) = GPIOF_12;
#endif /* STM32_HAS_GPIOF */
CONFIG(etb_use_two_wires) = true;
engineConfiguration->isHip9011Enabled = false;
// ETB #2
// DIS PE5
// EN PE6
// IN1 PE2
// IN2 PE4
// SF PE3
#if EFI_FSIO
// todo lua setFsio(15, GPIOE_6, "1");
#endif
CONFIG(etbIo[0].directionPin1) = GPIOE_2;
CONFIG(etbIo[0].directionPin2) = GPIOE_4;
CONFIG(etbIo[0].disablePin) = GPIOE_5;
engineConfiguration->tps1_1AdcChannel = EFI_ADC_3; // PA3
engineConfiguration->throttlePedalPositionAdcChannel = EFI_ADC_7; // PA7
// engineConfiguration->etb.pFactor = 1.07;
// engineConfiguration->etb.iFactor = 0.18;
// engineConfiguration->etb.dFactor = 0.24;
// engineConfiguration->etb.offset = 80;
engineConfiguration->etb.pFactor = 22;
engineConfiguration->etb.iFactor = 0;
engineConfiguration->etb.dFactor = 0;
engineConfiguration->etb.offset = 0;
engineConfiguration->etb_iTermMin = -300;
engineConfiguration->etb_iTermMax = 300;
// VAG test ETB, no divider on red board - direct 3v TPS sensor
// set tps_min 332
engineConfiguration->tpsMin = 332;
// by the way this ETB has default position of ADC=74 which is about 4%
// set tps_max 540
engineConfiguration->tpsMax = 799;
}
/**
* This configuration is used for MRE board Quality Assurance validation
* todo: inline
*/
static void mreBoardOldTest() {
#if (BOARD_TLE8888_COUNT > 0)
engineConfiguration->debugMode = DBG_TLE8888;
engineConfiguration->triggerSimulatorFrequency = HW_CHECK_RPM;
// set cranking_rpm 500
engineConfiguration->cranking.rpm = 100;
// set cranking_dwell 200
engineConfiguration->ignitionDwellForCrankingMs = 200;
// set cranking_fuel 300
engineConfiguration->cranking.baseFuel = 190;
engineConfiguration->injectionMode = IM_SEQUENTIAL;
engineConfiguration->crankingInjectionMode = IM_SEQUENTIAL;
// EFI_ADC_1: "23 - AN temp 2"
// test harness: Red/Green, 2K PD. expected 2.0v
// iat in microrusefi/board_configuration.cpp
// EFI_ADC_2: "24 - AN temp 3"
// test harness: Blue/White, 2K PD. expected 2.0v
// EFI_ADC_10: "27 - AN volt 1"
// test harness: Blue/Red, 3.84K PD / 5.3 PU. expected 1.6v
engineConfiguration->mafAdcChannel = EFI_ADC_10;
// EFI_ADC_14: "32 - AN volt 6"
// test harness: Red/White 3.6K PD / 5.2 PU. expected 1.6v
engineConfiguration->throttlePedalPositionAdcChannel = EFI_ADC_14;
// EFI_ADC_4: "28 - AN volt 10"
// test harness: Red/Yellow
engineConfiguration->afr.hwChannel = EFI_ADC_4;
// EFI_ADC_7: "31 - AN volt 3"
// test harness: White/Red
engineConfiguration->map.sensor.hwChannel = EFI_ADC_7;
//engineConfiguration->baroSensor.hwChannel
//engineConfiguration->oilPressure.hwChannel
//engineConfiguration->fuelLevelSensor
// TPS tps1_1AdcChannel EFI_ADC_13
engineConfiguration->specs.cylindersCount = 10;
engineConfiguration->specs.firingOrder = FO_1_10_9_4_3_6_5_8_7_2;
// red LED #1
engineConfiguration->ignitionPins[1 - 1] = GPIOD_4;
engineConfiguration->ignitionPins[10 - 1] = GPIOD_3;
engineConfiguration->ignitionPins[9 - 1] = GPIOD_6;
engineConfiguration->ignitionPins[4 - 1] = GPIOD_7;
engineConfiguration->ignitionPins[3 - 1] = GPIOD_1;
engineConfiguration->ignitionPins[6 - 1] = GPIOD_2;
engineConfiguration->ignitionPins[1] = GPIO_UNASSIGNED;
engineConfiguration->ignitionPins[4] = GPIO_UNASSIGNED;
engineConfiguration->ignitionPins[6] = GPIO_UNASSIGNED;
engineConfiguration->ignitionPins[7] = GPIO_UNASSIGNED;
engineConfiguration->fuelPumpPin = GPIO_UNASSIGNED;
engineConfiguration->idle.solenoidPin = GPIO_UNASSIGNED;
engineConfiguration->fanPin = GPIO_UNASSIGNED;
// fuel pump is useful to test power on/off scenario
// engineConfiguration->fuelPumpPin = TLE8888_PIN_22;
// LED #1
// TLE8888_PIN_22: "34 - GP Out 2"
engineConfiguration->injectionPins[1 - 1] = TLE8888_PIN_22;
// LED #2
// TLE8888_PIN_23: "33 - GP Out 3"
engineConfiguration->injectionPins[10 - 1] = TLE8888_PIN_23;
// TLE8888_PIN_1: LED #3 - INJ#2
engineConfiguration->injectionPins[9 - 1] = TLE8888_PIN_1;
// TLE8888_PIN_2: LED #4 - INJ#1
engineConfiguration->injectionPins[4 - 1] = TLE8888_PIN_2;
// TLE8888_PIN_3: LED #5 - INJ#3
engineConfiguration->injectionPins[3 - 1] = TLE8888_PIN_3;
// TLE8888_PIN_4: LED #6 - INJ#4
engineConfiguration->injectionPins[6 - 1] = TLE8888_PIN_4;
// LED #7
// TLE8888_PIN_24: "43 - GP Out 4"
engineConfiguration->injectionPins[5 - 1] = TLE8888_PIN_24;
// LED #8
// TLE8888 half bridges (pushpull, lowside, or high-low) IN12
// TLE8888_PIN_21: "35 - GP Out 1"
engineConfiguration->injectionPins[8 - 1] = TLE8888_PIN_21;
// LED #9
// TLE8888 high current low side: IN10
// TLE8888_PIN_6: "7 - Lowside 1"
engineConfiguration->injectionPins[7 - 1] = TLE8888_PIN_6;
// LED #10
// TLE8888 high current low side: VVT2 IN9 / OUT5
// TLE8888_PIN_5: "3 - Lowside 2"
engineConfiguration->injectionPins[2 - 1] = TLE8888_PIN_5;
#endif /* BOARD_TLE8888_COUNT */
}
#if HW_PROTEUS
/**
* PROTEUS_QC_TEST_BOARD
* set engine_type 42
*/
void proteusBoardTest() {
engineConfiguration->specs.cylindersCount = 12;
engineConfiguration->specs.firingOrder = FO_1_2_3_4_5_6_7_8_9_10_11_12;
engineConfiguration->triggerSimulatorFrequency = 600;
engineConfiguration->cranking.rpm = 100;
engineConfiguration->injectionMode = IM_SEQUENTIAL;
engineConfiguration->crankingInjectionMode = IM_SEQUENTIAL;
engineConfiguration->mainRelayPin = GPIO_UNASSIGNED;
CONFIG(fanPin) = GPIO_UNASSIGNED;
CONFIG(fuelPumpPin) = GPIO_UNASSIGNED;
#if EFI_PROD_CODE
engineConfiguration->injectionPins[0] = PROTEUS_LS_1;
engineConfiguration->injectionPins[1] = PROTEUS_LS_2;
engineConfiguration->injectionPins[2] = PROTEUS_LS_3;
engineConfiguration->injectionPins[3] = PROTEUS_LS_4;
engineConfiguration->injectionPins[4] = GPIOG_12;// "Lowside 5"
engineConfiguration->injectionPins[5] = GPIOG_13;// "Lowside 6"
engineConfiguration->injectionPins[6] = GPIOB_5;// "Lowside 9"
engineConfiguration->injectionPins[7] = GPIOB_4;// "Lowside 8"
engineConfiguration->injectionPins[8] = GPIOB_7;// "Lowside 11"
engineConfiguration->injectionPins[9] = PROTEUS_LS_10;
engineConfiguration->injectionPins[10] = GPIOB_8;// "Lowside 12"
engineConfiguration->injectionPins[11] = GPIOB_9;// "Lowside 13" # pin 10/black35
engineConfiguration->ignitionPins[0] = PROTEUS_IGN_1;
engineConfiguration->ignitionPins[1] = PROTEUS_IGN_2;
engineConfiguration->ignitionPins[2] = PROTEUS_IGN_4;
engineConfiguration->ignitionPins[3] = PROTEUS_IGN_5;
engineConfiguration->ignitionPins[4] = PROTEUS_IGN_6;
engineConfiguration->ignitionPins[5] = PROTEUS_IGN_7;
engineConfiguration->ignitionPins[6] = GPIOD_15;// "Highside 3" # pin 13/black35
engineConfiguration->ignitionPins[7] = PROTEUS_IGN_3;
engineConfiguration->ignitionPins[8] = PROTEUS_IGN_9;
engineConfiguration->ignitionPins[9] = PROTEUS_IGN_8;
engineConfiguration->ignitionPins[10] = PROTEUS_IGN_1;
engineConfiguration->ignitionPins[11] = PROTEUS_IGN_12;
#endif // EFI_PROD_CODE
setProteusHitachiEtbDefaults();
}
#endif // HW_PROTEUS
void mreBCM() {
for (int i = 0; i < MAX_CYLINDER_COUNT;i++) {
engineConfiguration->ignitionPins[i] = GPIO_UNASSIGNED;
engineConfiguration->injectionPins[i] = GPIO_UNASSIGNED;
}
engineConfiguration->fanPin = GPIO_UNASSIGNED;
engineConfiguration->consumeObdSensors = true;
}
void mreSecondaryCan() {
engineConfiguration->tps1_1AdcChannel = EFI_ADC_NONE;
engineConfiguration->tps2_1AdcChannel = EFI_ADC_NONE;
engineConfiguration->clt.adcChannel = EFI_ADC_NONE;
engineConfiguration->iat.adcChannel = EFI_ADC_NONE;
engineConfiguration->map.sensor.hwChannel = EFI_ADC_NONE;
engineConfiguration->auxAnalogInputs[0] = MRE_IN_TPS;
engineConfiguration->auxAnalogInputs[1] = MRE_IN_MAP;
engineConfiguration->auxAnalogInputs[2] = MRE_IN_CLT;
engineConfiguration->auxAnalogInputs[3] = MRE_IN_IAT;
// engineConfiguration->auxAnalogInputs[0] =
// EFI_ADC_14: "32 - AN volt 6"
// engineConfiguration->afr.hwChannel = EFI_ADC_14;
strncpy(config->luaScript, R"(
txPayload = {}
function onTick()
auxV = getAuxAnalog(0)
print('Hello analog ' .. auxV )
-- first byte: integer part, would be autoboxed to int
txPayload[1] = auxV
-- second byte: fractional part, would be autoboxed to int, overflow would be ignored
txPayload[2] = auxV * 256;
auxV = getAuxAnalog(1)
print('Hello analog ' .. auxV )
txPayload[3] = auxV
txPayload[4] = auxV * 256;
auxV = getAuxAnalog(2)
print('Hello analog ' .. auxV )
txPayload[5] = auxV
txPayload[6] = auxV * 256;
txCan(1, 0x600, 1, txPayload)
end
)", efi::size(config->luaScript));
}
/**
* MRE_BOARD_NEW_TEST
* set engine_type 31
*/
void mreBoardNewTest() {
mreBoardOldTest();
engineConfiguration->specs.cylindersCount = 12;
engineConfiguration->specs.firingOrder = FO_1_2_3_4_5_6_7_8_9_10_11_12;
#if (BOARD_TLE8888_COUNT > 0)
engineConfiguration->ignitionPins[1 - 1] = GPIOD_6;
engineConfiguration->ignitionPins[2 - 1] = GPIOD_7;
engineConfiguration->ignitionPins[3 - 1] = GPIOD_1;
engineConfiguration->ignitionPins[4 - 1] = GPIOD_2;
engineConfiguration->ignitionPins[5 - 1] = GPIOD_3;
engineConfiguration->ignitionPins[6 - 1] = GPIOD_4;
engineConfiguration->ignitionPins[7 - 1] = TLE8888_PIN_11;
engineConfiguration->ignitionPins[8 - 1] = TLE8888_PIN_12;
// LED #8
// TLE8888 half bridges (pushpull, lowside, or high-low) IN12
// TLE8888_PIN_21: "35 - GP Out 1"
engineConfiguration->ignitionPins[9 - 1] = TLE8888_PIN_21;
// LED #1
// TLE8888_PIN_22: "34 - GP Out 2"
engineConfiguration->ignitionPins[10- 1] = TLE8888_PIN_22;
// LED #2
// TLE8888_PIN_23: "33 - GP Out 3"
engineConfiguration->ignitionPins[11 - 1] = TLE8888_PIN_23;
// LED #7
// TLE8888_PIN_24: "43 - GP Out 4"
engineConfiguration->ignitionPins[12 - 1] = TLE8888_PIN_24;
engineConfiguration->afr.hwChannel = EFI_ADC_6;
engineConfiguration->throttlePedalPositionAdcChannel = EFI_ADC_NONE;
// TLE8888 high current low side: IN10
// TLE8888_PIN_6: "7 - Lowside 1"
engineConfiguration->injectionPins[1 - 1] = TLE8888_PIN_6;
// TLE8888 high current low side: VVT2 IN9 / OUT5
// TLE8888_PIN_5: "3 - Lowside 2"
engineConfiguration->injectionPins[2 - 1] = TLE8888_PIN_5;
// TLE8888_PIN_4: INJ#4
engineConfiguration->injectionPins[3 - 1] = TLE8888_PIN_4;
// TLE8888_PIN_3: INJ#3
engineConfiguration->injectionPins[4 - 1] = TLE8888_PIN_3;
// TLE8888_PIN_2: INJ#2
engineConfiguration->injectionPins[5 - 1] = TLE8888_PIN_2;
// TLE8888_PIN_1: LED #3 - INJ#1
engineConfiguration->injectionPins[6 - 1] = TLE8888_PIN_1;
engineConfiguration->injectionPins[7 - 1] = GPIOA_4; // AV10
engineConfiguration->injectionPins[8 - 1] = GPIOB_1; // AV9
engineConfiguration->injectionPins[9 - 1] = GPIOB_0; // AV8
engineConfiguration->injectionPins[10 - 1] = GPIOC_4; // AV6
engineConfiguration->injectionPins[11- 1] = TLE8888_PIN_13;
engineConfiguration->injectionPins[12- 1] = TLE8888_PIN_10;
#endif /* BOARD_TLE8888_COUNT */
}
void setBoschHDEV_5_injectors() {
// This is the configuration for bosch HDEV 5 injectors
// all times in microseconds/us
CONFIG(mc33_hvolt) = 65;
CONFIG(mc33_i_boost) = 13000;
CONFIG(mc33_i_peak) = 9400;
CONFIG(mc33_i_hold) = 3700;
CONFIG(mc33_t_max_boost) = 470;
CONFIG(mc33_t_peak_off) = 10;
CONFIG(mc33_t_peak_tot) = 700;
CONFIG(mc33_t_bypass) = 15;
CONFIG(mc33_t_hold_off) = 60;
CONFIG(mc33_t_hold_tot) = 10000;
}
/**
* set engine_type 108
*/
void setVrThresholdTest() {
engineConfiguration->trigger.type = TT_HONDA_1_24;
setHellenDefaultVrThresholds();
engineConfiguration->vrThreshold[0].pin = GPIOB_4;
engineConfiguration->triggerInputPins[0] = GPIOA_5;
engineConfiguration->triggerInputPins[1] = GPIOC_6;
}
/**
* set engine_type 107
*/
void setRotary() {
engineConfiguration->specs.cylindersCount = 2;
engineConfiguration->specs.firingOrder = FO_1_2;
engineConfiguration->trigger.type = TT_36_2_2_2;
setOperationMode(engineConfiguration, TWO_STROKE);
strcpy(CONFIG(engineMake), ENGINE_MAKE_MAZDA);
strcpy(CONFIG(engineCode), "13B");
strcpy(CONFIG(vehicleName), "test");
engineConfiguration->ignitionMode = IM_INDIVIDUAL_COILS;
engineConfiguration->injectionPins[2] = GPIO_UNASSIGNED; // injector in default pinout
engineConfiguration->injectionPins[3] = GPIO_UNASSIGNED;
engineConfiguration->enableTrailingSparks = true;
engineConfiguration->trailingCoilPins[0] = GPIOC_9;
engineConfiguration->trailingCoilPins[1] = GPIOE_10;
}
/**
* set engine_type 103
*/
void setTest33816EngineConfiguration() {
// grey
// default spi3mosiPin PB5
// white
// default spi3misoPin PB4
// violet
// default spi3sckPin PB3
CONFIG(triggerSimulatorPins[0]) = GPIO_UNASSIGNED;
CONFIG(triggerSimulatorPins[1]) = GPIO_UNASSIGNED;
CONFIG(triggerSimulatorPins[2]) = GPIO_UNASSIGNED;
engineConfiguration->injectionPins[0] = GPIOB_9; // #1
engineConfiguration->injectionPins[1] = GPIOE_2; // #2
engineConfiguration->injectionPins[2] = GPIOB_8; // #3
engineConfiguration->injectionPins[3] = GPIOB_7; // #4
// blue
CONFIG(mc33816_cs) = GPIOD_7;
// green
CONFIG(mc33816_rstb) = GPIOD_4;
// yellow
CONFIG(mc33816_driven) = GPIOD_6;
CONFIG(mc33816_flag0) = GPIOD_3;
// enable_spi 3
CONFIG(is_enabled_spi_3) = true;
// Wire up spi3
engineConfiguration->spi3mosiPin = GPIOB_5;
engineConfiguration->spi3misoPin = GPIOB_4;
engineConfiguration->spi3sckPin = GPIOB_3;
CONFIG(isSdCardEnabled) = false;
CONFIG(mc33816spiDevice) = SPI_DEVICE_3;
setBoschHDEV_5_injectors();
}
void setHellen72etb() {
CONFIG(etbIo[0].directionPin1) = GPIOC_6;
CONFIG(etbIo[0].directionPin2) = GPIOC_7;
engineConfiguration->etb_use_two_wires = true;
}
void setHellenDefaultVrThresholds() {
for (int i = 0;i<VR_THRESHOLD_COUNT;i++) {
setLinearCurve(engineConfiguration->vrThreshold[i].rpmBins, 600 / RPM_1_BYTE_PACKING_MULT, 7000 / RPM_1_BYTE_PACKING_MULT, 100 / RPM_1_BYTE_PACKING_MULT);
setLinearCurve(engineConfiguration->vrThreshold[i].values, PACK_PERCENT_BYTE_MULT * 0.6, PACK_PERCENT_BYTE_MULT * 1.2, PACK_PERCENT_BYTE_MULT * 0.1);
}
}
/**
* set engine_type 6
*/
void proteusHarley() {
strcpy(engineConfiguration->scriptSettingName[0], "compReleaseRpm");
engineConfiguration->scriptSetting[0] = 300;
strcpy(engineConfiguration->scriptSettingName[1], "compReleaseDur");
engineConfiguration->scriptSetting[1] = 5000;
engineConfiguration->luaOutputPins[0] = PROTEUS_LS_12;
#if HW_PROTEUS
strncpy(config->luaScript, R"(
outputIndex = 0
startPwm(outputIndex, 100, 0)
rpmLimitSetting = findSetting("compReleaseRpm", 300)
compReleaseDulationLimit = findSetting("compReleaseDur", 6000)
function onTick()
rpm = getSensor("RPM")
-- handle nil RPM, todo: change firmware to avoid nil RPM
rpm = (rpm == nil and 0 or rpm)
print('Rpm ' .. rpm)
print('getTimeSinceTriggerEventMs ' .. getTimeSinceTriggerEventMs())
enableCompressionReleaseSolenoid = getTimeSinceTriggerEventMs() < compReleaseDulationLimit and rpm < rpmLimitSetting
duty = enableCompressionReleaseSolenoid and 100 or 0
print("Compression release solenoid " .. duty)
setPwmDuty(outputIndex, duty)
end
)", efi::size(config->luaScript));
#endif
}
void proteusLuaDemo() {
#if HW_PROTEUS
engineConfiguration->tpsMin = 889;
engineConfiguration->tpsMax = 67;
engineConfiguration->tps1SecondaryMin = 105;
engineConfiguration->tps1SecondaryMax = 933;
strcpy(engineConfiguration->scriptCurveName[2 - 1], "rateofchange");
strcpy(engineConfiguration->scriptCurveName[3 - 1], "bias");
/**
* for this demo I use ETB just a sample object to control with PID. No reasonable person should consider actually using
* Lua for actual intake ETB control while driving around the racing track - hard-coded ETB control is way smarter!
*/
static const float defaultBiasBins[] = {
0, 1, 2, 4, 7, 98, 99, 100
};
static const float defaultBiasValues[] = {
-20, -18, -17, 0, 20, 21, 22, 25
};
engineConfiguration->luaOutputPins[0] = GPIOD_12;
engineConfiguration->luaOutputPins[1] = GPIOD_10;
engineConfiguration->luaOutputPins[2] = GPIOD_11;
setLinearCurve(CONFIG(scriptCurve2Bins), 0, 8000, 1);
setLinearCurve(CONFIG(scriptCurve2), 0, 100, 1);
copyArray(CONFIG(scriptCurve3Bins), defaultBiasBins);
copyArray(CONFIG(scriptCurve3), defaultBiasValues);
engineConfiguration->auxAnalogInputs[0] = PROTEUS_IN_ANALOG_VOLT_10;
engineConfiguration->afr.hwChannel = EFI_ADC_NONE;
// ETB direction #1 PD10
engineConfiguration->etbIo[0].directionPin1 = GPIO_UNASSIGNED;
// ETB control PD12
engineConfiguration->etbIo[0].controlPin = GPIO_UNASSIGNED;
// ETB disable PD11
engineConfiguration->etbIo[0].disablePin = GPIO_UNASSIGNED;
/**
controlIndex = 0
directionIndex = 1
print('pid output ' .. output)
print('')
local duty = (bias + output) / 100
-- isPositive = duty > 0;
-- pwmValue = isPositive and duty or -duty
-- setPwmDuty(controlIndex, pwmValue)
-- dirValue = isPositive and 1 or 0;
-- setPwmDuty(directionIndex, dirValue)
-- print('pwm ' .. pwmValue .. ' dir ' .. dirValue)
*
*/
auto script = R"(
startPwm(0, 800, 0.1)
-- direction
startPwm(1, 80, 1.0)
-- disable
startPwm(2, 80, 0.0)
pid = Pid.new(2, 0, 0, -100, 100)
biasCurveIndex = findCurveIndex("bias")
canRxAdd(0x600)
voltageFromCan = nil
canRxAdd(0x600)
function onCanRx(bus, id, dlc, data)
print('got CAN id=' .. id .. ' dlc=' .. dlc)
voltageFromCan = data[2] / 256.0 + data[1]
end
function onTick()
local targetVoltage = getAuxAnalog(0)
-- local target = interpolate(1, 0, 3.5, 100, targetVoltage)
local target = interpolate(1, 0, 3.5, 100, voltageFromCan)
-- clamp 0 to 100
target = math.max(0, target)
target = math.min(100, target)
print('Decoded target: ' .. target)
local tps = getSensor("TPS1")
tps = (tps == nil and 'invalid TPS' or tps)
print('Tps ' .. tps)
local output = pid:get(target, tps)
local bias = curve(biasCurveIndex, target)
print('bias ' .. bias)
local duty = (bias + output) / 100
isPositive = duty > 0;
pwmValue = isPositive and duty or -duty
setPwmDuty(0, pwmValue)
dirValue = isPositive and 1 or 0;
setPwmDuty(1, dirValue)
print('pwm ' .. pwmValue .. ' dir ' .. dirValue)
print('')
end
)";
strncpy(config->luaScript, script, efi::size(config->luaScript));
#endif
}
#if HW_HELLEN
void setHellen144LedPins() {
#ifdef EFI_COMMUNICATION_PIN
engineConfiguration->communicationLedPin = EFI_COMMUNICATION_PIN;
#else
engineConfiguration->communicationLedPin = GPIOE_7;
#endif /* EFI_COMMUNICATION_PIN */
engineConfiguration->runningLedPin = GPIOG_1;
engineConfiguration->warningLedPin = GPIOE_8;
}
void setHellen176LedPins() {
#ifdef EFI_COMMUNICATION_PIN
engineConfiguration->communicationLedPin = EFI_COMMUNICATION_PIN;
#else
engineConfiguration->communicationLedPin = GPIOH_10;
#endif /* EFI_COMMUNICATION_PIN */
engineConfiguration->runningLedPin = GPIOH_9; // green
engineConfiguration->warningLedPin = GPIOH_11; // yellow
}
#endif //HW_HELLEN
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