Exemplo n.º 1
0
void EngineState::updateSlowSensors(DECLARE_ENGINE_PARAMETER_F) {
	iat = getIntakeAirTemperature(PASS_ENGINE_PARAMETER_F);
	clt = getCoolantTemperature(PASS_ENGINE_PARAMETER_F);

	warmupTargetAfr = interpolate2d(clt, engineConfiguration->warmupTargetAfrBins,
			engineConfiguration->warmupTargetAfr, WARMUP_TARGET_AFR_SIZE);
}
Exemplo n.º 2
0
float getLEValue(Engine *engine, calc_stack_t *s, le_action_e action) {
	engine_configuration_s *engineConfiguration = engine->engineConfiguration;
	efiAssert(engine!=NULL, "getLEValue", NAN);
	switch (action) {
	case LE_METHOD_FAN:
		return enginePins.fanRelay.getLogicValue();
	case LE_METHOD_AC_TOGGLE:
		return getAcToggle(engine);
	case LE_METHOD_COOLANT:
		return getCoolantTemperature(PASS_ENGINE_PARAMETER_F);
	case LE_METHOD_INTAKE_AIR:
		return getIntakeAirTemperature(PASS_ENGINE_PARAMETER_F);
	case LE_METHOD_RPM:
		return engine->rpmCalculator.rpm();
	case LE_METHOD_TIME_SINCE_BOOT:
		return getTimeNowSeconds();
	case LE_METHOD_FAN_OFF_SETTING:
		return engineConfiguration->fanOffTemperature;
	case LE_METHOD_FAN_ON_SETTING:
		return engineConfiguration->fanOnTemperature;
	case LE_METHOD_VBATT:
		return getVBatt(engine->engineConfiguration);
	default:
		warning(OBD_PCM_Processor_Fault, "FSIO unexpected %d", action);
		return NAN;
	}
}
Exemplo n.º 3
0
float getLEValue(Engine *engine, calc_stack_t *s, le_action_e action) {
	efiAssert(engine!=NULL, "getLEValue", NAN);
	switch (action) {
	case LE_METHOD_FAN:
		return getOutputPinValue(FAN_RELAY);
	case LE_METHOD_AC_TOGGLE:
		return getAcToggle(engine);
	case LE_METHOD_COOLANT:
		return getCoolantTemperature(engine);
	case LE_METHOD_INTAKE_AIR:
		return getIntakeAirTemperature(engine);
	case LE_METHOD_RPM:
		return engine->rpmCalculator.rpm();
	case LE_METHOD_TIME_SINCE_BOOT:
		return getTimeNowSeconds();
	case LE_METHOD_FAN_OFF_SETTING:
		return engine->engineConfiguration->fanOffTemperature;
	case LE_METHOD_FAN_ON_SETTING:
		return engine->engineConfiguration->fanOnTemperature;
	case LE_METHOD_VBATT:
		return getVBatt(engine->engineConfiguration);
	default:
		firmwareError("No value for %d", action);
		return NAN;
	}
}
Exemplo n.º 4
0
void EngineState::updateSlowSensors(DECLARE_ENGINE_PARAMETER_SIGNATURE) {
	engine->sensors.iat = getIntakeAirTemperature(PASS_ENGINE_PARAMETER_SIGNATURE);
	engine->sensors.clt = getCoolantTemperature(PASS_ENGINE_PARAMETER_SIGNATURE);
	engine->sensors.oilPressure = getOilPressure(PASS_ENGINE_PARAMETER_SIGNATURE);

	warmupTargetAfr = interpolate2d("warm", engine->sensors.clt, engineConfiguration->warmupTargetAfrBins,
			engineConfiguration->warmupTargetAfr, WARMUP_TARGET_AFR_SIZE);
}
Exemplo n.º 5
0
static char * prepareCltIatTpsLine(char *buffer) {
	char *ptr = buffer;
	*ptr++ = 'C';
	ptr = ftoa(ptr, getCoolantTemperature(), 10.0f);

	ptr = appendStr(ptr, " C");
	ptr = ftoa(ptr, getIntakeAirTemperature(), 10.0f);

	ptr = appendStr(ptr, " TP");
	ptr = itoa10(ptr, (int) getTPS());
	return ptr;
}
Exemplo n.º 6
0
/**
 * @return value in Milliseconds
 */
float getSpeedDensityFuel(Engine *engine, int rpm) {
	//int rpm = engine->rpmCalculator->rpm();

	engine_configuration_s *engineConfiguration = engine->engineConfiguration;

	float tps = getTPS(engineConfiguration);
	float coolantC = getCoolantTemperature(engine->engineConfiguration2);
	float intakeC = getIntakeAirTemperature(engine->engineConfiguration2);
	float tChargeK = convertCelsiusToKelvin(getTCharge(rpm, tps, coolantC, intakeC));
	float map = getMap();
	float VE = veMap.getValue(map, engineConfiguration->veLoadBins, rpm,
			engineConfiguration->veRpmBins);
	float AFR = afrMap.getValue(map, engineConfiguration->afrLoadBins, rpm,
			engineConfiguration->afrRpmBins);

	return sdMath(engine->engineConfiguration, VE, map, AFR, tChargeK) * 1000;
}
Exemplo n.º 7
0
/**
 * We are executing these heavy (logarithm) methods from outside the trigger callbacks for performance reasons.
 * See also periodicFastCallback
 */
void Engine::updateSlowSensors(DECLARE_ENGINE_PARAMETER_F) {
	int rpm = rpmCalculator.rpmValue;
	isEngineChartEnabled = CONFIG(isEngineChartEnabled) && rpm < CONFIG(engineSnifferRpmThreshold);
	sensorChartMode = rpm < CONFIG(sensorSnifferRpmThreshold) ? boardConfiguration->sensorChartMode : SC_OFF;

	engineState.iat = getIntakeAirTemperature(PASS_ENGINE_PARAMETER_F);
	engineState.clt = getCoolantTemperature(PASS_ENGINE_PARAMETER_F);

	if (engineConfiguration->fuelLevelSensor != EFI_ADC_NONE) {
		float fuelLevelVoltage = getVoltageDivided("fuel", engineConfiguration->fuelLevelSensor);
		engineState.fuelTankGauge = interpolate(boardConfiguration->fuelLevelEmptyTankVoltage, 0,
				boardConfiguration->fuelLevelFullTankVoltage, 100,
				fuelLevelVoltage);
	}
	float vBatt = hasVBatt(PASS_ENGINE_PARAMETER_F) ? getVBatt(PASS_ENGINE_PARAMETER_F) : 12;

	injectorLagMs = getInjectorLag(vBatt PASS_ENGINE_PARAMETER);
}
Exemplo n.º 8
0
static void printTemperatureInfo(void) {
#if EFI_ANALOG_SENSORS || defined(__DOXYGEN__)
	printThermistor("CLT", &engineConfiguration->clt, &engine->engineState.cltCurve);
	if (!isValidCoolantTemperature(getCoolantTemperature(PASS_ENGINE_PARAMETER_F))) {
		scheduleMsg(&logger, "CLT sensing error");
	}
	printThermistor("IAT", &engineConfiguration->iat, &engine->engineState.iatCurve);
	if (!isValidIntakeAirTemperature(getIntakeAirTemperature(PASS_ENGINE_PARAMETER_F))) {
		scheduleMsg(&logger, "IAT sensing error");
	}

	scheduleMsg(&logger, "fan=%s @ %s", boolToString(enginePins.fanRelay.getLogicValue()),
			hwPortname(boardConfiguration->fanPin));

	scheduleMsg(&logger, "A/C relay=%s @ %s", boolToString(enginePins.acRelay.getLogicValue()),
			hwPortname(boardConfiguration->acRelayPin));

#endif
}
Exemplo n.º 9
0
/**
 * We are executing these heavy (logarithm) methods from outside the trigger callbacks for performance reasons.
 */
void Engine::updateSlowSensors() {
	engineState.iat = getIntakeAirTemperature();
	engineState.clt = getCoolantTemperature();
}
Exemplo n.º 10
0
void testFuelMap(void) {
	printf("*************************************************** testFuelMap\r\n");

	EngineTestHelper eth(FORD_ASPIRE_1996);

	for (int k = 0; k < FUEL_LOAD_COUNT; k++) {
		for (int r = 0; r < FUEL_RPM_COUNT; r++) {
			eth.engine.engineConfiguration->fuelTable[k][r] = k * 200 + r;
		}
	}
	for (int i = 0; i < FUEL_LOAD_COUNT; i++)
		eth.engine.engineConfiguration->fuelLoadBins[i] = i;
	for (int i = 0; i < FUEL_RPM_COUNT; i++)
		eth.engine.engineConfiguration->fuelRpmBins[i] = i;

	assertEqualsM("base fuel table", 1005, getBaseTableFuel(eth.engine.engineConfiguration, 5, 5));

	printf("*************************************************** initThermistors\r\n");

	Engine *engine = &eth.engine;
	engine_configuration_s *engineConfiguration = engine->engineConfiguration;

	initThermistors(engine);


	printf("*** getInjectorLag\r\n");
	assertEquals(1.0, getInjectorLag(12 PASS_ENGINE_PARAMETER));

	eth.engine.engineConfiguration->injectorLag = 0.5;

	for (int i = 0; i < VBAT_INJECTOR_CURVE_SIZE; i++) {
		eth.engine.engineConfiguration->battInjectorLagCorrBins[i] = i;
		eth.engine.engineConfiguration->battInjectorLagCorr[i] = 2 * i;
	}


	// because all the correction tables are zero
	printf("*************************************************** getRunningFuel 1\r\n");
	float baseFuel = getBaseTableFuel(eth.engine.engineConfiguration, 5, getEngineLoadT(PASS_ENGINE_PARAMETER_F));
	assertEqualsM("base fuel", 5.05, getRunningFuel(baseFuel, 5 PASS_ENGINE_PARAMETER));

	printf("*************************************************** setting IAT table\r\n");
	for (int i = 0; i < IAT_CURVE_SIZE; i++) {
		eth.engine.engineConfiguration->iatFuelCorrBins[i] = i;
		eth.engine.engineConfiguration->iatFuelCorr[i] = 2 * i;
	}
	eth.engine.engineConfiguration->iatFuelCorr[0] = 2;

	printf("*************************************************** setting CLT table\r\n");
	for (int i = 0; i < CLT_CURVE_SIZE; i++) {
		eth.engine.engineConfiguration->cltFuelCorrBins[i] = i;
		eth.engine.engineConfiguration->cltFuelCorr[i] = 1;
	}
	eth.engine.engineConfiguration->injectorLag = 0;

	assertEquals(NAN, getIntakeAirTemperature(&eth.engine));
	float iatCorrection = getIatCorrection(-KELV PASS_ENGINE_PARAMETER);
	assertEqualsM("IAT", 2, iatCorrection);
	float cltCorrection = getCltCorrection(getCoolantTemperature(&eth.engine) PASS_ENGINE_PARAMETER);
	assertEqualsM("CLT", 1, cltCorrection);
	float injectorLag = getInjectorLag(getVBatt(engineConfiguration) PASS_ENGINE_PARAMETER);
	assertEquals(0, injectorLag);

	testMafValue = 5;

	// 1005 * 2 for IAT correction
	printf("*************************************************** getRunningFuel 2\r\n");
	 baseFuel = getBaseTableFuel(eth.engine.engineConfiguration, 5, getEngineLoadT(PASS_ENGINE_PARAMETER_F));
	assertEqualsM("v1", 30150, getRunningFuel(baseFuel, 5 PASS_ENGINE_PARAMETER));

	testMafValue = 0;

	engineConfiguration->crankingSettings.baseCrankingFuel = 4;

	printf("*************************************************** getStartingFuel\r\n");
	// NAN in case we have issues with the CLT sensor
	assertEqualsM("getStartingFuel nan", 4, getCrankingFuel3(engineConfiguration, NAN, 0));
	assertEqualsM("getStartingFuel#1", 23.7333, getCrankingFuel3(engineConfiguration, 0, 4));
	assertEqualsM("getStartingFuel#2", 18.0419, getCrankingFuel3(engineConfiguration, 8, 15));
	assertEqualsM("getStartingFuel#3", 11.2000, getCrankingFuel3(engineConfiguration, 70, 0));
	assertEqualsM("getStartingFuel#3", 5.6000, getCrankingFuel3(engineConfiguration, 70, 50));
}
Exemplo n.º 11
0
/**
 * @return Duration of fuel injection while craning
 */
floatms_t getCrankingFuel(DECLARE_ENGINE_PARAMETER_F) {
	return getCrankingFuel3(getCoolantTemperature(PASS_ENGINE_PARAMETER_F),
			engine->rpmCalculator.getRevolutionCounterSinceStart() PASS_ENGINE_PARAMETER);
}
Exemplo n.º 12
0
static void printSensors(Logging *log, bool fileFormat) {
	// current time, in milliseconds
	int nowMs = currentTimeMillis();
	float sec = ((float) nowMs) / 1000;
	reportSensorF(log, fileFormat, "time", "", sec, 3);

	int rpm = 0;
#if EFI_SHAFT_POSITION_INPUT || defined(__DOXYGEN__)
	rpm = getRpmE(engine);
	reportSensorI(log, fileFormat, "rpm", "RPM", rpm);

//	reportSensorF(log, fileFormat, "TRG_0_DUTY", "%", getTriggerDutyCycle(0), 2);
//	reportSensorF(log, fileFormat, "TRG_1_DUTY", "%", getTriggerDutyCycle(1), 2);
#endif

	if (hasMafSensor()) {
		reportSensorF(log, fileFormat, "maf", "V", getMaf(), 2);
		reportSensorF(log, fileFormat, "mafr", "kg/hr", getRealMaf(), 2);
	}

	reportSensorF(log, fileFormat, "ENGINE_LOAD", "x", getEngineLoadT(), 2);


#if EFI_ANALOG_SENSORS || defined(__DOXYGEN__)
	if (engineConfiguration->hasMapSensor) {
		reportSensorF(log, fileFormat, "MAP", "kPa", getMap(), 2);
//		reportSensorF(log, fileFormat, "map_r", "V", getRawMap(), 2);
	}
	if (hasBaroSensor()) {
		reportSensorF(log, fileFormat, "baro", "kPa", getBaroPressure(), 2);
	}
	if (engineConfiguration->hasAfrSensor) {
		reportSensorF(log, fileFormat, "afr", "AFR", getAfr(), 2);
	}
#endif

#if EFI_VEHICLE_SPEED || defined(__DOXYGEN__)
	if (engineConfiguration->hasVehicleSpeedSensor) {
		reportSensorF(log, fileFormat, "vss", "kph", getVehicleSpeed(), 2);
	}
#endif /* EFI_PROD_CODE */

	reportSensorF(log, fileFormat, "ks", "count", engine->knockCount, 0);
	reportSensorF(log, fileFormat, "kv", "v", engine->knockVolts, 2);


//	reportSensorF(log, fileFormat, "vref", "V", getVRef(engineConfiguration), 2);
	if (hasVBatt(PASS_ENGINE_PARAMETER_F)) {
		reportSensorF(log, fileFormat, "vbatt", "V", getVBatt(PASS_ENGINE_PARAMETER_F), 2);
	}

	reportSensorF(log, fileFormat, "TP", "%", getTPS(PASS_ENGINE_PARAMETER_F), 2);

	if (fileFormat) {
		reportSensorF(log, fileFormat, "tpsacc", "ms", engine->tpsAccelEnrichment.getTpsEnrichment(PASS_ENGINE_PARAMETER_F), 2);
		reportSensorF(log, fileFormat, "advance", "deg", engine->tpsAccelEnrichment.getTpsEnrichment(PASS_ENGINE_PARAMETER_F), 2);
	}

	if (engineConfiguration->hasCltSensor) {
		reportSensorF(log, fileFormat, "CLT", "C", getCoolantTemperature(PASS_ENGINE_PARAMETER_F), 2);
	}

	reportSensorF(log, fileFormat, "MAT", "C", getIntakeAirTemperature(PASS_ENGINE_PARAMETER_F), 2);

//	debugFloat(&logger, "tch", getTCharge1(tps), 2);

}
Exemplo n.º 13
0
#if EFI_TUNER_STUDIO || defined(__DOXYGEN__)

extern WallFuel wallFuel;

extern fuel_Map3D_t veMap;

void updateTunerStudioState(TunerStudioOutputChannels *tsOutputChannels DECLARE_ENGINE_PARAMETER_S) {
#if EFI_SHAFT_POSITION_INPUT || defined(__DOXYGEN__)
	int rpm = getRpmE(engine);
#else
	int rpm = 0;
#endif

	float tps = getTPS(PASS_ENGINE_PARAMETER_F);
	float coolant = getCoolantTemperature(PASS_ENGINE_PARAMETER_F);
	float intake = getIntakeAirTemperature(PASS_ENGINE_PARAMETER_F);

	float engineLoad = getEngineLoadT(PASS_ENGINE_PARAMETER_F);
	float baseFuelMs = getBaseFuel(rpm PASS_ENGINE_PARAMETER);

	// header
	tsOutputChannels->tsConfigVersion = TS_FILE_VERSION;

	// engine state
	tsOutputChannels->rpm = rpm;
	tsOutputChannels->coolant_temperature = coolant;
	tsOutputChannels->intakeAirTemperature = intake;
	tsOutputChannels->throttlePositon = tps;
	tsOutputChannels->massAirFlowVoltage = hasMafSensor() ? getMaf() : 0;
    tsOutputChannels->massAirFlowValue = hasMafSensor() ? getRealMaf() : 0;
Exemplo n.º 14
0
static void showLine(lcd_line_e line, int screenY) {
	static char buffer[10];

	switch (line) {
	case LL_VERSION:
		lcdPrintf("version %s", VCS_VERSION);
		return;
	case LL_CONFIG:
		lcdPrintf("config %s", getConfigurationName(engineConfiguration->engineType));
		return;
	case LL_RPM:
		lcdPrintf("RPM %d", getRpmE(engine));
		{
			char sdState;
			if (boardConfiguration->isSdCardEnabled) {
				sdState = isSdCardAlive() ? 'L' : 'n';
			} else {
				sdState = 'D';
			}
			int seconds = getTimeNowSeconds();
			if (seconds < 10000) {
				lcdPrintf("  %d%c", seconds, sdState);
			}
		}
		return;
	case LL_CLT_TEMPERATURE:
		lcdPrintf("Coolant %f", getCoolantTemperature(PASS_ENGINE_PARAMETER_F));
		return;
	case LL_IAT_TEMPERATURE:
		lcdPrintf("Intake Air %f", getIntakeAirTemperature(PASS_ENGINE_PARAMETER_F));
		return;
	case LL_ALGORITHM:
		lcdPrintf(getEngine_load_mode_e(engineConfiguration->algorithm));
		return;
	case LL_INJECTION:
		lcdPrintf(getInjection_mode_e(engineConfiguration->injectionMode));
		return;
	case LL_ING_FLOW:
		lcdPrintf("Inj %fcc", engineConfiguration->injector.flow);
		return;
	case LL_IGNITION:
		lcdPrintf(getIgnition_mode_e(engineConfiguration->ignitionMode));
		return;
	case LL_TPS:
		getPinNameByAdcChannel(engineConfiguration->tpsAdcChannel, buffer);

		lcdPrintf("Throttle %s %f%%", buffer, getTPS());
		return;
	case LL_VBATT:
		lcdPrintf("Battery %fv", getVBatt(PASS_ENGINE_PARAMETER_F));
		return;
	case LL_KNOCK:
		getPinNameByAdcChannel(engineConfiguration->hipOutputChannel, buffer);
		lcdPrintf("Knock %s %fv", buffer, engine->knockVolts);
		return;

#if	EFI_ANALOG_SENSORS || defined(__DOXYGEN__)
	case LL_BARO:
		if (hasBaroSensor()) {
			lcdPrintf("Baro: %f", getBaroPressure());
		} else {
			lcdPrintf("Baro: none");
		}
		return;
#endif
	case LL_AFR:
		if (engineConfiguration->hasAfrSensor) {
			lcdPrintf("AFR: %f", getAfr());
		} else {
			lcdPrintf("AFR: none");
		}
		return;
	case LL_MAP:
		if (engineConfiguration->hasMapSensor) {
			lcdPrintf("MAP %f", getMap());
		} else {
			lcdPrintf("MAP: none");
		}
		return;
	case LL_MAF_V:
		if (hasMafSensor()) {
			lcdPrintf("MAF: %fv", getMaf());
		} else {
			lcdPrintf("MAF: none");
		}
		return;
	case LL_MAF_KG_HR:
		if (hasMafSensor()) {
			lcdPrintf("MAF: %f kg/hr", getRealMaf());
		} else {
			lcdPrintf("MAF: none");
		}
		return;
	case LL_TRIGGER_ERRORS:
		lcdPrintf("Errors");
		return;
	case LL_TRIGGER_DUTY:
		lcdPrintf("Duty");
		return;
	default:
		lcdPrintf("()");
	}
}
Exemplo n.º 15
0
void testFuelMap(void) {
	chDbgCheck(engineConfiguration!=NULL, "engineConfiguration");

	printf("*************************************************** testFuelMap\r\n");

	for (int k = 0; k < FUEL_LOAD_COUNT; k++) {
		for (int r = 0; r < FUEL_RPM_COUNT; r++) {
			engineConfiguration->fuelTable[k][r] = k * 200 + r;
		}
	}
	printf("*************************************************** initThermistors\r\n");

	initThermistors();

	printf("*** getInjectorLag\r\n");
	assertEquals(0, getInjectorLag(12));

	for (int i = 0; i < FUEL_LOAD_COUNT; i++)
		engineConfiguration->fuelLoadBins[i] = i;
	for (int i = 0; i < FUEL_RPM_COUNT; i++)
		engineConfiguration->fuelRpmBins[i] = i;

	printf("*************************************************** prepareFuelMap\r\n");
	assertEquals(1005, getBaseTableFuel(5, 5));

	engineConfiguration->injectorLag = 0.5;

	for (int i = 0; i < VBAT_INJECTOR_CURVE_SIZE; i++) {
		engineConfiguration->battInjectorLagCorrBins[i] = i;
		engineConfiguration->battInjectorLagCorr[i] = 2 * i;
	}

	EngineTestHelper eth(FORD_ASPIRE_1996);

	// because all the correction tables are zero
	printf("*************************************************** getRunningFuel\r\n");
	float baseFuel = getBaseTableFuel(5, getEngineLoadT(&eth.engine));
	assertEqualsM("value", 0.5, getRunningFuel(baseFuel, &eth.engine, 5));

	printf("*************************************************** setting IAT table\r\n");
	for (int i = 0; i < IAT_CURVE_SIZE; i++) {
		engineConfiguration->iatFuelCorrBins[i] = i;
		engineConfiguration->iatFuelCorr[i] = 2 * i;
	}
	engineConfiguration->iatFuelCorr[0] = 2;

	printf("*************************************************** setting CLT table\r\n");
	for (int i = 0; i < CLT_CURVE_SIZE; i++) {
		engineConfiguration->cltFuelCorrBins[i] = i;
		engineConfiguration->cltFuelCorr[i] = 1;
	}
	engineConfiguration->injectorLag = 0;

	assertEquals(NAN, getIntakeAirTemperature());
	float iatCorrection = getIatCorrection(-KELV);
	assertEqualsM("IAT", 2, iatCorrection);
	float cltCorrection = getCltCorrection(getCoolantTemperature());
	assertEqualsM("CLT", 1, cltCorrection);
	float injectorLag = getInjectorLag(getVBatt());
	assertEquals(0, injectorLag);

	testMafValue = 5;

	// 1005 * 2 for IAT correction
	printf("*************************************************** getRunningFuel\r\n");
	 baseFuel = getBaseTableFuel(5, getEngineLoadT(&eth.engine));
	assertEqualsM("v1", 30150, getRunningFuel(baseFuel, &eth.engine, 5));

	testMafValue = 0;

	engineConfiguration->crankingSettings.coolantTempMaxC = 65; // 8ms at 65C
	engineConfiguration->crankingSettings.fuelAtMaxTempMs = 8;

	engineConfiguration->crankingSettings.coolantTempMinC = 0; // 20ms at 0C
	engineConfiguration->crankingSettings.fuelAtMinTempMs = 20;

	printf("*************************************************** getStartingFuel\r\n");
	// NAN in case we have issues with the CLT sensor
//	assertEquals(16, getStartingFuel(NAN));
	assertEquals(20, getStartingFuel(0));
	assertEquals(18.5231, getStartingFuel(8));
	assertEquals(8, getStartingFuel(70));
}
Exemplo n.º 16
0
static void printSensors(Logging *log, bool fileFormat) {
	// current time, in milliseconds
	int nowMs = currentTimeMillis();
	float sec = ((float) nowMs) / 1000;
	reportSensorF(log, fileFormat, "time", "", sec, 3); // log column 1

	int rpm = 0;
#if EFI_SHAFT_POSITION_INPUT || defined(__DOXYGEN__)
	rpm = getRpmE(engine);
	reportSensorI(log, fileFormat, "rpm", "RPM", rpm); // log column 2

//	reportSensorF(log, fileFormat, "TRG_0_DUTY", "%", getTriggerDutyCycle(0), 2);
//	reportSensorF(log, fileFormat, "TRG_1_DUTY", "%", getTriggerDutyCycle(1), 2);
#endif

#if EFI_PROD_CODE || defined(__DOXYGEN__)
	reportSensorF(log, fileFormat, "int_temp", "C", getMCUInternalTemperature(), 2); // log column #3
#endif

	reportSensorI(log, fileFormat, "mode", "v", packEngineMode(PASS_ENGINE_PARAMETER_F)); // log column #3

	if (hasCltSensor()) {
		reportSensorF(log, fileFormat, "CLT", "C", getCoolantTemperature(PASS_ENGINE_PARAMETER_F), 2); // log column #4
	}
	if (hasTpsSensor()) {
		reportSensorF(log, fileFormat, "TPS", "%", getTPS(PASS_ENGINE_PARAMETER_F), 2); // log column #5
	}

	if (hasVBatt(PASS_ENGINE_PARAMETER_F)) {
		reportSensorF(log, fileFormat, "vbatt", "V", getVBatt(PASS_ENGINE_PARAMETER_F), 2); // log column #6
	}

	if (hasIatSensor()) {
		reportSensorF(log, fileFormat, "IAT", "C", getIntakeAirTemperature(PASS_ENGINE_PARAMETER_F), 2); // log column #7
	}

	if (hasMafSensor()) {
		reportSensorF(log, fileFormat, "maf", "V", getMaf(PASS_ENGINE_PARAMETER_F), 2);
		reportSensorF(log, fileFormat, "mafr", "kg/hr", getRealMaf(PASS_ENGINE_PARAMETER_F), 2);
	}
#if EFI_ANALOG_SENSORS || defined(__DOXYGEN__)
	if (engineConfiguration->map.sensor.hwChannel != EFI_ADC_NONE) {
		reportSensorF(log, fileFormat, "MAP", "kPa", getMap(), 2);
//		reportSensorF(log, fileFormat, "map_r", "V", getRawMap(), 2);
	}
#endif /* EFI_ANALOG_SENSORS */
#if EFI_ANALOG_SENSORS || defined(__DOXYGEN__)
	if (hasBaroSensor()) {
		reportSensorF(log, fileFormat, "baro", "kPa", getBaroPressure(), 2);
	}
#endif /* EFI_ANALOG_SENSORS */

	if (hasAfrSensor(PASS_ENGINE_PARAMETER_F)) {
		reportSensorF(log, fileFormat, "afr", "AFR", getAfr(PASS_ENGINE_PARAMETER_F), 2);
	}

#if EFI_IDLE_CONTROL || defined(__DOXYGEN__)
	if (fileFormat) {
		reportSensorF(log, fileFormat, "idle", "%", getIdlePosition(), 2);
	}
#endif /* EFI_IDLE_CONTROL */

#if EFI_ANALOG_SENSORS || defined(__DOXYGEN__)
	reportSensorF(log, fileFormat, "target", "AFR", engine->engineState.targetAFR, 2);
#endif /* EFI_ANALOG_SENSORS */

	if (fileFormat) {
		reportSensorF(log, fileFormat, "tCharge", "K", engine->engineState.tChargeK, 2); // log column #8
		reportSensorF(log, fileFormat, "curVE", "%", veMap.getValue(rpm, getMap()), 2);
	}

	float engineLoad = getEngineLoadT(PASS_ENGINE_PARAMETER_F);
	reportSensorF(log, fileFormat, "ENGINE_LOAD", "x", engineLoad, 2);


	reportSensorF(log, fileFormat, "dwell", "ms", ENGINE(engineState.sparkDwell), 2);
	if (fileFormat) {
		reportSensorF(log, fileFormat, "timing", "deg", engine->engineState.timingAdvance, 2);

	}

	if (fileFormat) {
		floatms_t fuelBase = getBaseFuel(rpm PASS_ENGINE_PARAMETER);
		reportSensorF(log, fileFormat, "f: base", "ms", fuelBase, 2);
		reportSensorF(log, fileFormat, "f: actual", "ms", ENGINE(actualLastInjection), 2);
		reportSensorF(log, fileFormat, "f: lag", "ms", engine->engineState.injectorLag, 2);
		reportSensorF(log, fileFormat, "f: running", "ms", ENGINE(engineState.runningFuel), 2);

		reportSensorF(log, fileFormat, "f: wall amt", "v", ENGINE(wallFuel).getWallFuel(0), 2);
		reportSensorF(log, fileFormat, "f: wall crr", "v", ENGINE(wallFuelCorrection), 2);

		reportSensorI(log, fileFormat, "version", "#", getRusEfiVersion());
	}


	if (engineConfiguration->hasVehicleSpeedSensor) {
#if EFI_VEHICLE_SPEED || defined(__DOXYGEN__)
		float vehicleSpeed = getVehicleSpeed();
#else
		float vehicleSpeed = 0;
#endif /* EFI_PROD_CODE */
		reportSensorF(log, fileFormat, "vss", "kph", vehicleSpeed, 2);
		float sp2rpm = rpm == 0 ? 0 : vehicleSpeed / rpm;
		reportSensorF(log, fileFormat, "sp2rpm", "x", sp2rpm, 2);
	}

	reportSensorF(log, fileFormat, "knck_c", "count", engine->knockCount, 0);
	reportSensorF(log, fileFormat, "knck_v", "v", engine->knockVolts, 2);

//	reportSensorF(log, fileFormat, "vref", "V", getVRef(engineConfiguration), 2);

	if (fileFormat) {
		reportSensorF(log, fileFormat, "f: tps delta", "v", engine->tpsAccelEnrichment.getMaxDelta(), 2);
		reportSensorF(log, fileFormat, "f: tps fuel", "ms", engine->engineState.tpsAccelEnrich, 2);

		reportSensorF(log, fileFormat, "f: el delta", "v", engine->engineLoadAccelEnrichment.getMaxDelta(), 2);
		reportSensorF(log, fileFormat, "f: el fuel", "v", engine->engineLoadAccelEnrichment.getEngineLoadEnrichment(PASS_ENGINE_PARAMETER_F) * 100 / getMap(), 2);

		reportSensorF(log, fileFormat, "f: duty", "%", getInjectorDutyCycle(rpm PASS_ENGINE_PARAMETER), 2);
	}


//	debugFloat(&logger, "tch", getTCharge1(tps), 2);

	for (int i = 0;i<FSIO_ADC_COUNT;i++) {
		if (engineConfiguration->fsioAdc[i] != EFI_ADC_NONE) {
			strcpy(buf, "adcX");
			buf[3] = '0' + i;
			reportSensorF(log, fileFormat, buf, "", getVoltage("fsio", engineConfiguration->fsioAdc[i]), 2);
		}
	}

	reportSensorI(log, fileFormat, "warn", "count", engine->engineState.warningCounter);
	reportSensorI(log, fileFormat, "error", "code", engine->engineState.lastErrorCode);

}