HVAC_M7
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HVAC_M7_ADC_TASKS
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Обновление

This commit is contained in:
cfif 2026-04-27 17:38:44 +03:00
parent 10ac079551
commit 1d4d1f2ded
2 changed files with 72 additions and 70 deletions
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149
AdcTasks.c
View File

@ -5,13 +5,16 @@
#include "CmsisRtosThreadUtils.h" #include "CmsisRtosThreadUtils.h"
#include <SystemDelayInterface.h> #include <SystemDelayInterface.h>
#include "memory.h" #include "memory.h"
#include "HVAC_model.h"
void Adc_0_Init(tAdcTask *env, void Adc_0_Init(tAdcTask *env,
osMutexId_t modelTaskAccess,
tAdcIO *adcIO, tAdcIO *adcIO,
tGpios *gpios tGpios *gpios
) { ) {
env->adcIO = adcIO; env->adcIO = adcIO;
env->modelTaskAccess = modelTaskAccess;
env->access = osMutexNew(NULL); env->access = osMutexNew(NULL);
env->gpios = gpios; env->gpios = gpios;
@ -31,71 +34,8 @@ static _Noreturn void Adc0_Thread(tAdcTask *env) {
env->ADC_ChannelCount = env->adcIO->get(env->adcIO->env, &ADC_Pointer_Data, 5000); env->ADC_ChannelCount = env->adcIO->get(env->adcIO->env, &ADC_Pointer_Data, 5000);
if (osMutexAcquire(env->access, 5000) == osOK) {
uint32_t *pData = (uint32_t *) ADC_Pointer_Data; uint32_t *pData = (uint32_t *) ADC_Pointer_Data;
env->ADC0_Data.Sensor_Ambient_Temp = pData[0];
env->ADC0_Data.IGN_ANS = pData[1];
env->ADC0_Data.Sensor_AC_Pressure = pData[2];
env->ADC0_Data.Sensor_Incar_Temp_FL = pData[3];
env->ADC0_Data.Sensor_Incar_Temp_RL = pData[4];
env->ADC0_Data.Sensor_Rear_Evap_Temp = pData[5];
env->ADC0_Data.Sensor_Evap_Temp = pData[6];
env->ADC0_Data.Sensor_Rear_Duct1 = pData[7];
env->ADC0_Data.Sensor_Rear_Duct2 = pData[8];
env->ADC0_Data.Sensor_Front_Duct1 = pData[9];
env->ADC0_Data.Sensor_Front_Duct2 = pData[10];
env->ADC0_Data.Sensor_Front_Duct3 = pData[11];
env->ADC0_Data.Sensor_Front_Duct4 = pData[12];
env->ADC0_Data.Sensor_Rear_Duct3 = pData[13];
env->ADC0_Data.Sensor_Rear_Duct4 = pData[14];
env->ADC0_Data.Sensor_Incar_Temp_FR = pData[15];
env->ADC0_Data.Sensor_Incar_Temp_RR = pData[16];
env->ADC0_Data.Sensor_Rear_Duct5 = pData[17];
env->ADC0_Data.Sensor_Rear_Duct6 = pData[18];
env->ADC0_Data.Reserve_Sensor_Duct_Temp_1 = pData[19];
env->ADC0_Data.Sensor_Front_Duct5 = pData[20];
env->ADC0_Data.Sensor_Front_Duct6 = pData[21];
env->ADC0_Data.Pressure_DIAG = pData[23];
env->ADC0_Data.Reserve_Sensor_Duct_Temp_2 = pData[28];
if (env->ADC0_BTS5120_2EKA_Channel == 0) {
env->ADC0_BTS5120_2EKA_Channel = 1;
GpioPinSet(&env->gpios->power.BTS5120_2EKA_ShutoffValvePowerTXV.ShutSelTXV_SEL_Diag, true);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_ShutOFFValveFrontRear.ShutSel_SEL_Diag, true);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_TwoWayValveAndReservePowerSupply.TwoWayValve_SEL_Diag, true);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_FrontRearIncarMotor.Incar_SEL_Diag, true);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_2xChannelPTCPower.PtcRelayDriver_SEL_Diag, true);
env->ADC0_Data.BTS5120_2EKA_ShutoffValvePowerTXV1 = pData[22]; //
env->ADC0_Data.BTS5180_2EKA_ShutOFFValveFront = pData[24]; //
env->ADC0_Data.BTS5180_2EKA_TwoWayValve = pData[25]; //
env->ADC0_Data.BTS5180_2EKA_FrontIncarMotor = pData[26]; //
env->ADC0_Data.BTS5180_2EKA_ChannelPTCPower1 = pData[27]; //
} else {
env->ADC0_BTS5120_2EKA_Channel = 0;
GpioPinSet(&env->gpios->power.BTS5120_2EKA_ShutoffValvePowerTXV.ShutSelTXV_SEL_Diag, false);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_ShutOFFValveFrontRear.ShutSel_SEL_Diag, false);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_TwoWayValveAndReservePowerSupply.TwoWayValve_SEL_Diag,
false);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_FrontRearIncarMotor.Incar_SEL_Diag, false);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_2xChannelPTCPower.PtcRelayDriver_SEL_Diag, false);
env->ADC0_Data.BTS5120_2EKA_ShutoffValvePowerTXV2 = pData[22]; //
env->ADC0_Data.BTS5180_2EKA_ShutOFFValveRear = pData[24]; //
env->ADC0_Data.BTS5180_2EKA_ReservePowerSupply = pData[25]; //
env->ADC0_Data.BTS5180_2EKA_RearIncarMotor = pData[26]; //
env->ADC0_Data.BTS5180_2EKA_ChannelPTCPower2 = pData[27]; //
env->ADC_isUpdate = true;
}
uint32_t count = osMessageQueueGetSpace(env->queueRandom); uint32_t count = osMessageQueueGetSpace(env->queueRandom);
if (count) { if (count) {
@ -114,9 +54,69 @@ static _Noreturn void Adc0_Thread(tAdcTask *env) {
} }
//memcpy(env->ADC_Data, (uint8_t *)ADC_Pointer_Data, env->ADC_ChannelCount << 2); if (osMutexAcquire(env->modelTaskAccess, 5000) == osOK) {
osMutexRelease(env->access); rtDW.ADC_Data_Model.Sensor_Ambient_Temp = pData[0];
rtDW.ADC_Data_Model.IGN_ANS = pData[1];
rtDW.ADC_Data_Model.Sensor_AC_Pressure = pData[2];
rtDW.ADC_Data_Model.Sensor_Incar_Temp_FL = pData[3];
rtDW.ADC_Data_Model.Sensor_Incar_Temp_RL = pData[4];
rtDW.ADC_Data_Model.Sensor_Rear_Evap_Temp = pData[5];
rtDW.ADC_Data_Model.Sensor_Evap_Temp = pData[6];
rtDW.ADC_Data_Model.Sensor_Rear_Duct1 = pData[7];
rtDW.ADC_Data_Model.Sensor_Rear_Duct2 = pData[8];
rtDW.ADC_Data_Model.Sensor_Front_Duct1 = pData[9];
rtDW.ADC_Data_Model.Sensor_Front_Duct2 = pData[10];
rtDW.ADC_Data_Model.Sensor_Front_Duct3 = pData[11];
rtDW.ADC_Data_Model.Sensor_Front_Duct4 = pData[12];
rtDW.ADC_Data_Model.Sensor_Rear_Duct3 = pData[13];
rtDW.ADC_Data_Model.Sensor_Rear_Duct4 = pData[14];
rtDW.ADC_Data_Model.Sensor_Incar_Temp_FR = pData[15];
rtDW.ADC_Data_Model.Sensor_Incar_Temp_RR = pData[16];
rtDW.ADC_Data_Model.Sensor_Rear_Duct5 = pData[17];
rtDW.ADC_Data_Model.Sensor_Rear_Duct6 = pData[18];
rtDW.ADC_Data_Model.Reserve_Sensor_Duct_Temp_1 = pData[19];
rtDW.ADC_Data_Model.Sensor_Front_Duct5 = pData[20];
rtDW.ADC_Data_Model.Sensor_Front_Duct6 = pData[21];
rtDW.ADC_Data_Model.Pressure_DIAG = pData[23];
rtDW.ADC_Data_Model.Reserve_Sensor_Duct_Temp_2 = pData[28];
if (env->ADC0_BTS5120_2EKA_Channel == 0) {
env->ADC0_BTS5120_2EKA_Channel = 1;
GpioPinSet(&env->gpios->power.BTS5120_2EKA_ShutoffValvePowerTXV.ShutSelTXV_SEL_Diag, true);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_ShutOFFValveFrontRear.ShutSel_SEL_Diag, true);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_TwoWayValveAndReservePowerSupply.TwoWayValve_SEL_Diag, true);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_FrontRearIncarMotor.Incar_SEL_Diag, true);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_2xChannelPTCPower.PtcRelayDriver_SEL_Diag, true);
rtDW.ADC_Data_Model.BTS5120_2EKA_ShutoffValvePowerTXV1 = pData[22]; //
rtDW.ADC_Data_Model.BTS5180_2EKA_ShutOFFValveFront = pData[24]; //
rtDW.ADC_Data_Model.BTS5180_2EKA_TwoWayValve = pData[25]; //
rtDW.ADC_Data_Model.BTS5180_2EKA_FrontIncarMotor = pData[26]; //
rtDW.ADC_Data_Model.BTS5180_2EKA_ChannelPTCPower1 = pData[27]; //
} else {
env->ADC0_BTS5120_2EKA_Channel = 0;
GpioPinSet(&env->gpios->power.BTS5120_2EKA_ShutoffValvePowerTXV.ShutSelTXV_SEL_Diag, false);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_ShutOFFValveFrontRear.ShutSel_SEL_Diag, false);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_TwoWayValveAndReservePowerSupply.TwoWayValve_SEL_Diag,
false);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_FrontRearIncarMotor.Incar_SEL_Diag, false);
GpioPinSet(&env->gpios->power.BTS5180_2EKA_2xChannelPTCPower.PtcRelayDriver_SEL_Diag, false);
rtDW.ADC_Data_Model.BTS5120_2EKA_ShutoffValvePowerTXV2 = pData[22]; //
rtDW.ADC_Data_Model.BTS5180_2EKA_ShutOFFValveRear = pData[24]; //
rtDW.ADC_Data_Model.BTS5180_2EKA_ReservePowerSupply = pData[25]; //
rtDW.ADC_Data_Model.BTS5180_2EKA_RearIncarMotor = pData[26]; //
rtDW.ADC_Data_Model.BTS5180_2EKA_ChannelPTCPower2 = pData[27]; //
}
osMutexRelease(env->modelTaskAccess);
} }
SystemDelayMs(500); SystemDelayMs(500);
@ -145,10 +145,12 @@ void Adc_0_StartThread(tAdcTask *env) {
void Adc_1_Init(tAdcTask *env, void Adc_1_Init(tAdcTask *env,
osMutexId_t modelTaskAccess,
tAdcIO *adcIO, tAdcIO *adcIO,
tGpios *gpios) { tGpios *gpios) {
env->adcIO = adcIO; env->adcIO = adcIO;
env->modelTaskAccess = modelTaskAccess;
env->access = osMutexNew(NULL); env->access = osMutexNew(NULL);
env->gpios = gpios; env->gpios = gpios;
@ -165,20 +167,17 @@ static _Noreturn void Adc1_Thread(tAdcTask *env) {
env->ADC_ChannelCount = env->adcIO->get(env->adcIO->env, &ADC_Pointer_Data, 5000); env->ADC_ChannelCount = env->adcIO->get(env->adcIO->env, &ADC_Pointer_Data, 5000);
if (osMutexAcquire(env->access, 5000) == osOK) { if (osMutexAcquire(env->modelTaskAccess, 5000) == osOK) {
//memcpy(env->ADC_Data, (uint8_t *)ADC_Pointer_Data, env->ADC_ChannelCount << 2);
uint32_t *pData = (uint32_t *) ADC_Pointer_Data; uint32_t *pData = (uint32_t *) ADC_Pointer_Data;
env->ADC1_Data.VN7008AJ_DIAG_FrontLINActuatorPowerDriverAB = pData[0]; rtDW.ADC_Data_Model.VN7008AJ_DIAG_FrontLINActuatorPowerDriverAB = pData[0];
env->ADC1_Data.VN7008AJ_DIAG_RearLINActuatorPowerDriverC = pData[1]; rtDW.ADC_Data_Model.VN7008AJ_DIAG_RearLINActuatorPowerDriverC = pData[1];
env->ADC1_Data.PBATT_CHECK = pData[2]; rtDW.ADC_Data_Model.PBATT_CHECK = pData[2];
env->ADC1_Data.VN7008AJ_FrontLINActuatorPowerDriverAB = pData[3]; rtDW.ADC_Data_Model.VN7008AJ_FrontLINActuatorPowerDriverAB = pData[3];
env->ADC1_Data.VN7008AJ_RearLINActuatorPowerDriverC = pData[4]; rtDW.ADC_Data_Model.VN7008AJ_RearLINActuatorPowerDriverC = pData[4];
env->ADC_isUpdate = true; osMutexRelease(env->modelTaskAccess);
osMutexRelease(env->access);
} }
SystemDelayMs(500); SystemDelayMs(500);

7
AdcTasks.h
View File

@ -71,18 +71,19 @@ typedef struct {
tADC0_data ADC0_Data; tADC0_data ADC0_Data;
tADC1_data ADC1_Data; tADC1_data ADC1_Data;
osMutexId_t modelTaskAccess;
uint8_t ADC_ChannelCount; uint8_t ADC_ChannelCount;
tGpios *gpios; tGpios *gpios;
uint8_t ADC0_BTS5120_2EKA_Channel; uint8_t ADC0_BTS5120_2EKA_Channel;
bool ADC_isUpdate;
osMessageQueueId_t queueRandom; osMessageQueueId_t queueRandom;
struct { struct {
osThreadId_t id; osThreadId_t id;
uint32_t stack[256]; uint32_t stack[384];
StaticTask_t controlBlock; StaticTask_t controlBlock;
osThreadAttr_t attr; osThreadAttr_t attr;
} thread; } thread;
@ -92,12 +93,14 @@ typedef struct {
uint32_t getRandom32(tAdcTask *env); uint32_t getRandom32(tAdcTask *env);
void Adc_0_Init(tAdcTask *env, void Adc_0_Init(tAdcTask *env,
osMutexId_t modelTaskAccess,
tAdcIO *adcIO, tAdcIO *adcIO,
tGpios *gpios); tGpios *gpios);
void Adc_0_StartThread(tAdcTask *env); void Adc_0_StartThread(tAdcTask *env);
void Adc_1_Init(tAdcTask *env, void Adc_1_Init(tAdcTask *env,
osMutexId_t modelTaskAccess,
tAdcIO *adcIO, tAdcIO *adcIO,
tGpios *gpios); tGpios *gpios);