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mv-bms/Core/Src/state_machine.c
Hamza fc24a34740 updated state machine
2024-05-27 13:29:53 +02:00

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C
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#include "state_machine.h"
StateHandle state;
static bool relay_closed = 0;
static bool precharge_closed = 0;
static int16_t RELAY_BAT_SIDE_VOLTAGE = 0;
static int16_t RELAY_ESC_SIDE_VOLTAGE = 0;
static int16_t CURRENT_MEASUREMENT_VOLTAGE = 0;
static int16_t timestamp;
void sm_init(){
state.current_state = STATE_INACTIVE;
state.target_state = STATE_INACTIVE;
state.error_source = 0;
RELAY_BAT_SIDE_VOLTAGE = module.auxVoltages[0];
RELAY_ESC_SIDE_VOLTAGE = module.auxVoltages[1];
CURRENT_MEASUREMENT_VOLTAGE = module.auxVoltages[2];
}
void sm_update(){
sm_handle_ams_in();
switch (state.current_state) {
case STATE_INACTIVE:
state.current_state = sm_update_inactive(); // monitor only
break;
case STATE_PRECHARGE:
state.current_state = sm_update_precharge(); // set PRECHARGE and turn on cooling at 50% or such
break;
case STATE_READY:
state.current_state = sm_update_ready(); // keep cooling at 50%, get ready to turn on powerground
break;
case STATE_ACTIVE:
state.current_state = sm_update_active(); // set PRECHARGE and turn on cooling at 50% or such
break;
case STATE_DISCHARGE:
state.current_state = sm_update_discharge(); // open the main relay, keep PRECHARGE closed
break;
case STATE_CHARGING_PRECHARGE:
state.current_state = sm_update_charging_precharge();
break;
case STATE_CHARGING:
state.current_state = sm_update_charging(); // monitor and turn on cooling if needed.
break;
case STATE_ERROR:
state.current_state = sm_update_error(); // enter the correct ERROR state
break;
}
sm_set_relay_positions(state.current_state);
}
State sm_update_inactive(){
switch (state.target_state) {
case STATE_PRECHARGE:
return STATE_PRECHARGE;
case STATE_CHARGING_PRECHARGE:
return STATE_CHARGING_PRECHARGE;
default:
return STATE_INACTIVE;
}
}
State sm_update_precharge(){
switch (state.target_state) {
case STATE_INACTIVE: // if CAN Signal 0000 0000 then immidiete shutdown
return STATE_DISCHARGE;
case STATE_READY:
if (RELAY_BAT_SIDE_VOLTAGE == RELAY_ESC_SIDE_VOLTAGE)
return STATE_READY;
default:
return STATE_PRECHARGE;
}
}
State sm_update_ready(){
switch (state.target_state) {
case STATE_ACTIVE: // if CAN Signal 1100 0000 then turn on powerground
return STATE_ACTIVE;
case STATE_DISCHARGE: // if CAN Signal 0000 0000 then shutdown
return STATE_DISCHARGE;
default:
return STATE_READY;
}
}
State sm_update_active(){
switch (state.target_state) {
case STATE_READY: // if CAN Signal 1000 0000 then turn oof powerground but stay ready
return STATE_READY;
case STATE_DISCHARGE: // if CAN Signal 0000 0000 then shutdown
return STATE_DISCHARGE;
default:
return STATE_ACTIVE;
}
}
State sm_update_discharge(){
switch (state.target_state) {
case STATE_INACTIVE:
if (RELAY_ESC_SIDE_VOLTAGE == 0)
return STATE_INACTIVE;
case STATE_PRECHARGE: // if CAN Signal 1000 0000 then get ready
return STATE_PRECHARGE;
default:
return STATE_DISCHARGE;
}
}
State sm_update_charging_precharge(){
switch (state.target_state) {
case STATE_CHARGING:
return STATE_CHARGING;
case STATE_DISCHARGE:
return STATE_DISCHARGE;
default:
return STATE_CHARGING_PRECHARGE;
}
}
State sm_update_charging(){
switch (state.target_state) {
case STATE_DISCHARGE:
return STATE_DISCHARGE;
default:
return STATE_CHARGING;
}
}
State sm_update_error(){
switch (state.target_state) {
case STATE_DISCHARGE:
return STATE_DISCHARGE;
default:
return STATE_ERROR;
}
}
void sm_set_relay_positions(State current_state){
switch (state.target_state) {
case STATE_INACTIVE:
sm_set_relay(RELAY_MAIN, 0);
sm_set_relay(RELAY_PRECHARGE, 0);
break;
case STATE_PRECHARGE:
sm_set_relay(RELAY_MAIN, 0);
sm_set_relay(RELAY_PRECHARGE, 1);
break;
case STATE_READY:
sm_set_relay(RELAY_MAIN, 1);
sm_set_relay(RELAY_PRECHARGE, 0);
break;
case STATE_ACTIVE:
sm_set_relay(RELAY_MAIN, 1);
sm_set_relay(RELAY_PRECHARGE, 0);
case STATE_DISCHARGE:
sm_set_relay(RELAY_MAIN, 0);
sm_set_relay(RELAY_PRECHARGE, 0);
break;
case STATE_CHARGING:
sm_set_relay(RELAY_MAIN, 1);
sm_set_relay(RELAY_PRECHARGE, 1);
break;
case STATE_ERROR:
sm_set_relay(RELAY_MAIN, 0);
sm_set_relay(RELAY_PRECHARGE, 0);
break;
}
}
void sm_set_relay(Relay relay, bool closed){
GPIO_PinState state = closed ? GPIO_PIN_SET : GPIO_PIN_RESET;
switch (relay) {
case RELAY_MAIN:
HAL_GPIO_WritePin(RELAY_EN_GPIO_Port, RELAY_EN_Pin, state);
relay_closed = closed;
break;
case RELAY_PRECHARGE:
HAL_GPIO_WritePin(PRECHARGE_EN_GPIO_Port, PRECHARGE_EN_Pin, state);
precharge_closed = closed;
break;
}
}
void sm_handle_ams_in(){
uint8_t data[2] = {};
can_handle_recieve_command(&data);
switch (data[0]) {
case 0b00000000:
if (state.current_state != STATE_INACTIVE){
PWM_powerground_control(0);
state.target_state = STATE_DISCHARGE;
}
break;
case 0b10000000:
if (state.target_state == STATE_INACTIVE || state.target_state == STATE_DISCHARGE){
PWM_powerground_control(0);
state.target_state = STATE_PRECHARGE;
} else if (state.target_state == STATE_ACTIVE){
PWM_powerground_control(0);
state.target_state = STATE_READY;
}
break;
case 0b11000000:
PWM_powerground_control(data[1]);
state.target_state = STATE_ACTIVE; // READY -> ACTIVE
break;
}
}
void sm_set_error(ErrorKind error_kind, bool is_errored){}
void sm_check_errors(){
if (module.status.THSD == 1) {
state.error_type.bms_overtemp = 1;
}
if (RELAY_BAT_SIDE_VOLTAGE < 40){
state.error_source = (1 << 10);
}
}
void sm_charging_check(){
if (RELAY_BAT_SIDE_VOLTAGE < RELAY_ESC_SIDE_VOLTAGE && timestamp == 0)
timestamp = HAL_GetTick() + 5000;
if (timestamp < HAL_GetTick())
state.target_state = STATE_CHARGING_PRECHARGE;
}
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