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Master_Control/Core/Src/AIR_State_Maschine.c

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Initial commit
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/*
* AIR_State_Maschine.c
*
* Created on: Jun 15, 2022
* Author: max
*/
#include "AIR_State_Maschine.h"
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#include "stm32g4xx_hal.h"
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DMA_HandleTypeDef* air_current_dma = {0};
DMA_HandleTypeDef* sdc_voltage_dma = {0};
uint8_t air_adc_complete = 0;
uint8_t sdc_adc_complete = 0;
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AIRStateHandler init_AIR_State_Maschine() {
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AIRStateHandler airstate = {0};
airstate.targetTSState = TS_INACTIVE;
airstate.currentTSState = TS_INACTIVE;
airstate.BatteryVoltageBatterySide = 0;
airstate.BatteryVoltageVehicleSide = 0;
return airstate;
}
void Update_AIR_Info(AIRStateHandler* airstate) {
uint16_t relay_adc_buffer[4] = {0};
uint16_t sdc_adc_buffer[1] = {0};
/*//HAL_ADC_Start_DMA(air_current_adc, (uint32_t*)relay_adc_buffer, 4);
//HAL_ADC_Start_DMA(sdc_voltage_adc, (uint32_t*)sdc_adc_buffer, 1);
HAL_ADC_Start(sdc_voltage_adc);
HAL_StatusTypeDef status = HAL_ADC_PollForConversion(sdc_voltage_adc, 10);
uint32_t adcval1 = HAL_ADC_GetValue(sdc_voltage_adc);
HAL_ADC_Stop(sdc_voltage_adc);
HAL_ADC_Start(air_current_adc);
status = HAL_ADC_PollForConversion(air_current_adc, 10);
uint32_t adcval2 = HAL_ADC_GetValue(air_current_adc);
HAL_ADC_Start(air_current_adc);
status = HAL_ADC_PollForConversion(air_current_adc, 10);
uint32_t adcval3 = HAL_ADC_GetValue(air_current_adc);
HAL_ADC_Start(air_current_adc);
status = HAL_ADC_PollForConversion(air_current_adc, 10);
uint32_t adcval4 = HAL_ADC_GetValue(air_current_adc);
HAL_ADC_Start(air_current_adc);
status = HAL_ADC_PollForConversion(air_current_adc, 10);
uint32_t adcval5 = HAL_ADC_GetValue(air_current_adc);
HAL_ADC_Stop(air_current_adc);*/
}
uint8_t Update_AIR_State(AIRStateHandler* airstate) {
Update_AIR_Info(airstate);
//--------------------------------------------------State Transition
// Rules----------------------------------------------------------
/*if(airstate->currentTSState == airstate->targetTSState) //Target TS
State is Equal to actual TS State
{
return airstate->currentTSState;
}*/
if (airstate->currentTSState == TS_ERROR) // No Escape from TS Error State
{
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// Don't change anything, but prevent any other if from being entered
}
else if (airstate->targetTSState ==
TS_ERROR) // Error State is Entered if Target State is Error State
{
airstate->currentTSState = TS_ERROR;
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}
else if ((airstate->currentTSState == TS_INACTIVE) &&
(airstate->targetTSState ==
TS_ACTIVE)) // Transition from Inactive to Active via Precharge
{
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airstate->currentTSState = TS_PRECHARGE;
airstate->precharge95ReachedTimestamp = 0;
}
else if ((airstate->currentTSState == TS_INACTIVE) &&
(airstate->targetTSState == TS_CHARGING)) {
airstate->currentTSState = TS_CHARGING_CHECK;
airstate->chargingCheckTimestamp = HAL_GetTick();
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}
// TODO: Is it correct that we also go from precharge to discharge?
else if ((airstate->currentTSState == TS_ACTIVE ||
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airstate->currentTSState == TS_PRECHARGE ||
airstate->currentTSState == TS_CHARGING_CHECK ||
airstate->currentTSState == TS_CHARGING) &&
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(airstate->targetTSState ==
TS_INACTIVE)) // Transition from Active to Inactive via Discharge
{
airstate->currentTSState = TS_DISCHARGE;
}
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else if ((airstate->targetTSState == TS_CHARGING) &&
(airstate->currentTSState == TS_CHARGING_CHECK)) {
if (airstate->BatteryVoltageVehicleSide >
airstate->BatteryVoltageBatterySide) {
airstate->currentTSState = TS_CHARGING;
} else if (HAL_GetTick() > airstate->chargingCheckTimestamp + 2000) {
airstate->currentTSState = TS_ERROR;
}
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}
else if (airstate->currentTSState ==
TS_PRECHARGE) // Change from Precharge to Active at 95% TS Voltage at
// Vehicle Side
{
if ((airstate->BatteryVoltageVehicleSide >
LOWER_VEHICLE_SIDE_VOLTAGE_LIMIT)) {
if (airstate->BatteryVoltageVehicleSide >
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(airstate->BatteryVoltageBatterySide * 0.95)) {
if (airstate->precharge95ReachedTimestamp == 0) {
airstate->precharge95ReachedTimestamp = HAL_GetTick();
} else if (HAL_GetTick() - airstate->precharge95ReachedTimestamp >=
PRECHARGE_95_DURATION) {
airstate->currentTSState = TS_ACTIVE;
}
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}
}
}
else if (airstate->currentTSState ==
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TS_DISCHARGE) // Change from Discharge to Inactive at 95% TS
// Voltage at Vehicle Side
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{
airstate->currentTSState = TS_INACTIVE;
}
//_-----------------------------------------------AIR
// Positions--------------------------------------------------------
if (airstate->currentTSState == TS_PRECHARGE) {
AIR_Precharge_Position();
}
if (airstate->currentTSState == TS_DISCHARGE) {
AIR_Discharge_Position();
}
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if (airstate->currentTSState == TS_CHARGING_CHECK) {
AIR_Precharge_Position();
}
if (airstate->currentTSState == TS_CHARGING) {
AIR_Active_Position();
}
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if (airstate->currentTSState == TS_ACTIVE) {
AIR_Active_Position();
}
if (airstate->currentTSState == TS_INACTIVE) {
AIR_Inactive_Position();
}
if (airstate->currentTSState == TS_ERROR) {
AIR_Error_Position();
}
return airstate->currentTSState;
}
void Activate_TS(AIRStateHandler* airstate) {
airstate->targetTSState = TS_ACTIVE;
}
void Deactivate_TS(AIRStateHandler* airstate) {
airstate->targetTSState = TS_INACTIVE;
}
void AIR_Precharge_Position() {
HAL_GPIO_WritePin(PreCharge_Control_GPIO_Port, PreCharge_Control_Pin,
GPIO_PIN_SET);
HAL_GPIO_WritePin(AIR_negative_Control_GPIO_Port, AIR_negative_Control_Pin,
GPIO_PIN_SET);
HAL_GPIO_WritePin(AIR_Positive_Control_GPIO_Port, AIR_Positive_Control_Pin,
GPIO_PIN_RESET);
}
void AIR_Inactive_Position() {
HAL_GPIO_WritePin(PreCharge_Control_GPIO_Port, PreCharge_Control_Pin,
GPIO_PIN_RESET);
HAL_GPIO_WritePin(AIR_negative_Control_GPIO_Port, AIR_negative_Control_Pin,
GPIO_PIN_RESET);
HAL_GPIO_WritePin(AIR_Positive_Control_GPIO_Port, AIR_Positive_Control_Pin,
GPIO_PIN_RESET);
}
void AIR_Discharge_Position() {
HAL_GPIO_WritePin(PreCharge_Control_GPIO_Port, PreCharge_Control_Pin,
GPIO_PIN_SET);
HAL_GPIO_WritePin(AIR_negative_Control_GPIO_Port, AIR_negative_Control_Pin,
GPIO_PIN_SET);
HAL_GPIO_WritePin(AIR_Positive_Control_GPIO_Port, AIR_Positive_Control_Pin,
GPIO_PIN_RESET);
}
void AIR_Active_Position() // TODO Deactivate Precharge after a while to
// decrease current Consumption
{
HAL_GPIO_WritePin(PreCharge_Control_GPIO_Port, PreCharge_Control_Pin,
GPIO_PIN_SET);
HAL_GPIO_WritePin(AIR_negative_Control_GPIO_Port, AIR_negative_Control_Pin,
GPIO_PIN_SET);
HAL_GPIO_WritePin(AIR_Positive_Control_GPIO_Port, AIR_Positive_Control_Pin,
GPIO_PIN_SET);
}
void AIR_Error_Position() {
HAL_GPIO_WritePin(PreCharge_Control_GPIO_Port, PreCharge_Control_Pin,
GPIO_PIN_RESET);
HAL_GPIO_WritePin(AIR_negative_Control_GPIO_Port, AIR_negative_Control_Pin,
GPIO_PIN_RESET);
HAL_GPIO_WritePin(AIR_Positive_Control_GPIO_Port, AIR_Positive_Control_Pin,
GPIO_PIN_RESET);
}