添加088

2025-10-07 02:53:20 +08:00 · 2025-10-07 02:53:20 +08:00 · 83354623d1
commit 83354623d1
parent 96b6389a46
10 changed files with 541 additions and 3 deletions
--- a/User/device/bmi088.c
+++ b/User/device/bmi088.c
@ -0,0 +1,381 @@
 /*
     BMI088 陀螺仪+加速度计传感器。
 */
 /* Includes ----------------------------------------------------------------- */
 #include "bmi088.h"
 #include <cmsis_os2.h>
 #include <gpio.h>
 #include <stdbool.h>
 #include <string.h>
 #include "bsp/time.h"
 #include "bsp/gpio.h"
 #include "bsp/spi.h"
 #include "component/user_math.h"
 /* USER INCLUDE BEGIN */
 /* USER INCLUDE END */
 /* Private define ----------------------------------------------------------- */
 /* Private define ----------------------------------------------------------- */
 #define BMI088_REG_ACCL_CHIP_ID (0x00)
 #define BMI088_REG_ACCL_ERR (0x02)
 #define BMI088_REG_ACCL_STATUS (0x03)
 #define BMI088_REG_ACCL_X_LSB (0x12)
 #define BMI088_REG_ACCL_X_MSB (0x13)
 #define BMI088_REG_ACCL_Y_LSB (0x14)
 #define BMI088_REG_ACCL_Y_MSB (0x15)
 #define BMI088_REG_ACCL_Z_LSB (0x16)
 #define BMI088_REG_ACCL_Z_MSB (0x17)
 #define BMI088_REG_ACCL_SENSORTIME_0 (0x18)
 #define BMI088_REG_ACCL_SENSORTIME_1 (0x19)
 #define BMI088_REG_ACCL_SENSORTIME_2 (0x1A)
 #define BMI088_REG_ACCL_INT_STAT_1 (0x1D)
 #define BMI088_REG_ACCL_TEMP_MSB (0x22)
 #define BMI088_REG_ACCL_TEMP_LSB (0x23)
 #define BMI088_REG_ACCL_CONF (0x40)
 #define BMI088_REG_ACCL_RANGE (0x41)
 #define BMI088_REG_ACCL_INT1_IO_CONF (0x53)
 #define BMI088_REG_ACCL_INT2_IO_CONF (0x54)
 #define BMI088_REG_ACCL_INT1_INT2_MAP_DATA (0x58)
 #define BMI088_REG_ACCL_SELF_TEST (0x6D)
 #define BMI088_REG_ACCL_PWR_CONF (0x7C)
 #define BMI088_REG_ACCL_PWR_CTRL (0x7D)
 #define BMI088_REG_ACCL_SOFTRESET (0x7E)
 #define BMI088_REG_GYRO_CHIP_ID (0x00)
 #define BMI088_REG_GYRO_X_LSB (0x02)
 #define BMI088_REG_GYRO_X_MSB (0x03)
 #define BMI088_REG_GYRO_Y_LSB (0x04)
 #define BMI088_REG_GYRO_Y_MSB (0x05)
 #define BMI088_REG_GYRO_Z_LSB (0x06)
 #define BMI088_REG_GYRO_Z_MSB (0x07)
 #define BMI088_REG_GYRO_INT_STAT_1 (0x0A)
 #define BMI088_REG_GYRO_RANGE (0x0F)
 #define BMI088_REG_GYRO_BANDWIDTH (0x10)
 #define BMI088_REG_GYRO_LPM1 (0x11)
 #define BMI088_REG_GYRO_SOFTRESET (0x14)
 #define BMI088_REG_GYRO_INT_CTRL (0x15)
 #define BMI088_REG_GYRO_INT3_INT4_IO_CONF (0x16)
 #define BMI088_REG_GYRO_INT3_INT4_IO_MAP (0x18)
 #define BMI088_REG_GYRO_SELF_TEST (0x3C)
 #define BMI088_CHIP_ID_ACCL (0x1E)
 #define BMI088_CHIP_ID_GYRO (0x0F)
 #define BMI088_LEN_RX_BUFF (19)
 /* Private macro ------------------------------------------------------------ */
 #define BMI088_ACCL_NSS_SET() \
  BSP_GPIO_WritePin(BSP_GPIO_ACCL_CS, GPIO_PIN_SET)
 #define BMI088_ACCL_NSS_RESET() \
  BSP_GPIO_WritePin(BSP_GPIO_ACCL_CS, GPIO_PIN_RESET)
 #define BMI088_GYRO_NSS_SET() \
  BSP_GPIO_WritePin(BSP_GPIO_GYRO_CS, GPIO_PIN_SET)
 #define BMI088_GYRO_NSS_RESET() \
  BSP_GPIO_WritePin(BSP_GPIO_GYRO_CS, GPIO_PIN_RESET)
 /* Private typedef ---------------------------------------------------------- */
 typedef enum {
  BMI_ACCL,
  BMI_GYRO,
 } BMI_Device_t;
 /* USER STRUCT BEGIN */
 /* USER STRUCT END */
 /* Private variables -------------------------------------------------------- */
 static uint8_t buffer[2];
 static uint8_t bmi088_rxbuf[BMI088_LEN_RX_BUFF];
 static osThreadId_t thread_alert;
 static bool inited = false;
 /* Private function  -------------------------------------------------------- */
 /* USER FUNCTION BEGIN */
 /* USER FUNCTION END */
 static void BMI_WriteSingle(BMI_Device_t dv, uint8_t reg, uint8_t data) {
  buffer[0] = (reg & 0x7f);
  buffer[1] = data;
  BSP_TIME_Delay(1);
  switch (dv) {
    case BMI_ACCL:
      BMI088_ACCL_NSS_RESET();
      break;
    case BMI_GYRO:
      BMI088_GYRO_NSS_RESET();
      break;
  }
  BSP_SPI_Transmit(BSP_SPI_BMI088, buffer, 2u, false);
  switch (dv) {
    case BMI_ACCL:
      BMI088_ACCL_NSS_SET();
      break;
    case BMI_GYRO:
      BMI088_GYRO_NSS_SET();
      break;
  }
 }
 static uint8_t BMI_ReadSingle(BMI_Device_t dv, uint8_t reg) {
  BSP_TIME_Delay(1);
  switch (dv) {
    case BMI_ACCL:
      BMI088_ACCL_NSS_RESET();
      break;
    case BMI_GYRO:
      BMI088_GYRO_NSS_RESET();
      break;
  }
  buffer[0] = (uint8_t)(reg | 0x80);
  BSP_SPI_Transmit(BSP_SPI_BMI088, buffer, 1u, false);
  BSP_SPI_Receive(BSP_SPI_BMI088, buffer, 2u, false);
  switch (dv) {
    case BMI_ACCL:
      BMI088_ACCL_NSS_SET();
      return buffer[1];
    case BMI_GYRO:
      BMI088_GYRO_NSS_SET();
      return buffer[0];
  }
 }
 static void BMI_Read(BMI_Device_t dv, uint8_t reg, uint8_t *data, uint8_t len) {
  if (data == NULL) return;
  switch (dv) {
    case BMI_ACCL:
      BMI088_ACCL_NSS_RESET();
      break;
    case BMI_GYRO:
      BMI088_GYRO_NSS_RESET();
      break;
  }
  buffer[0] = (uint8_t)(reg | 0x80);
  BSP_SPI_Transmit(BSP_SPI_BMI088, buffer, 1u, false); 
  BSP_SPI_Receive(BSP_SPI_BMI088, data, len, true);
 }
 static void BMI088_RxCpltCallback(void) {
  if (BSP_GPIO_ReadPin(BSP_GPIO_ACCL_CS) == GPIO_PIN_RESET) {
    BMI088_ACCL_NSS_SET();
    osThreadFlagsSet(thread_alert, SIGNAL_BMI088_ACCL_RAW_REDY);
  }
  if (BSP_GPIO_ReadPin(BSP_GPIO_GYRO_CS) == GPIO_PIN_RESET) {
    BMI088_GYRO_NSS_SET();
    osThreadFlagsSet(thread_alert, SIGNAL_BMI088_GYRO_RAW_REDY);
  }
 }
 static void BMI088_AcclIntCallback(void) {
  osThreadFlagsSet(thread_alert, SIGNAL_BMI088_ACCL_NEW_DATA);
 }
 static void BMI088_GyroIntCallback(void) {
  osThreadFlagsSet(thread_alert, SIGNAL_BMI088_GYRO_NEW_DATA);
 }
 /* Exported functions ------------------------------------------------------- */
 int8_t BMI088_Init(BMI088_t *bmi088, const BMI088_Cali_t *cali) {
  if (bmi088 == NULL) return DEVICE_ERR_NULL;
  if (cali == NULL) return DEVICE_ERR_NULL;
  if (inited) return DEVICE_ERR_INITED;
  if ((thread_alert = osThreadGetId()) == NULL) return DEVICE_ERR_NULL;
  bmi088->cali = cali;
  BMI_WriteSingle(BMI_ACCL, BMI088_REG_ACCL_SOFTRESET, 0xB6);
  BMI_WriteSingle(BMI_GYRO, BMI088_REG_GYRO_SOFTRESET, 0xB6);
  BSP_TIME_Delay(30);
  /* Switch accl to SPI mode. */
  BMI_ReadSingle(BMI_ACCL, BMI088_CHIP_ID_ACCL);
  if (BMI_ReadSingle(BMI_ACCL, BMI088_REG_ACCL_CHIP_ID) != BMI088_CHIP_ID_ACCL)
    return DEVICE_ERR_NO_DEV;
  if (BMI_ReadSingle(BMI_GYRO, BMI088_REG_GYRO_CHIP_ID) != BMI088_CHIP_ID_GYRO)
    return DEVICE_ERR_NO_DEV;
  BSP_GPIO_DisableIRQ(BSP_GPIO_ACCL_INT);
  BSP_GPIO_DisableIRQ(BSP_GPIO_GYRO_INT);
  BSP_SPI_RegisterCallback(BSP_SPI_BMI088, BSP_SPI_RX_CPLT_CB,
                           BMI088_RxCpltCallback);
  BSP_GPIO_RegisterCallback(BSP_GPIO_ACCL_INT, BMI088_AcclIntCallback);
  BSP_GPIO_RegisterCallback(BSP_GPIO_GYRO_INT, BMI088_GyroIntCallback);
  /* Accl init. */
  /* Filter setting: Normal. */
  /* ODR: 0xAB: 800Hz. 0xAA: 400Hz. 0xA9: 200Hz. 0xA8: 100Hz. 0xA6: 25Hz. */
  BMI_WriteSingle(BMI_ACCL, BMI088_REG_ACCL_CONF, 0xAA);
  /* 0x00: +-3G. 0x01: +-6G. 0x02: +-12G. 0x03: +-24G. */
  BMI_WriteSingle(BMI_ACCL, BMI088_REG_ACCL_RANGE, 0x01);
  /* INT1 as output. Push-pull. Active low. Output. */
  BMI_WriteSingle(BMI_ACCL, BMI088_REG_ACCL_INT1_IO_CONF, 0x08);
  /* Map data ready interrupt to INT1. */
  BMI_WriteSingle(BMI_ACCL, BMI088_REG_ACCL_INT1_INT2_MAP_DATA, 0x04);
  /* Turn on accl. Now we can read data. */
  BMI_WriteSingle(BMI_ACCL, BMI088_REG_ACCL_PWR_CTRL, 0x04);
  BSP_TIME_Delay(50);
  /* Gyro init. */
  /* 0x00: +-2000. 0x01: +-1000. 0x02: +-500. 0x03: +-250. 0x04: +-125. */
  BMI_WriteSingle(BMI_GYRO, BMI088_REG_GYRO_RANGE, 0x01);
  /* Filter bw: 47Hz. */
  /* ODR: 0x02: 1000Hz. 0x03: 400Hz. 0x06: 200Hz. 0x07: 100Hz. */
  BMI_WriteSingle(BMI_GYRO, BMI088_REG_GYRO_BANDWIDTH, 0x03);
  /* INT3 and INT4 as output. Push-pull. Active low. */
  BMI_WriteSingle(BMI_GYRO, BMI088_REG_GYRO_INT3_INT4_IO_CONF, 0x00);
  /* Map data ready interrupt to INT3. */
  BMI_WriteSingle(BMI_GYRO, BMI088_REG_GYRO_INT3_INT4_IO_MAP, 0x01);
  /* Enable new data interrupt. */
  BMI_WriteSingle(BMI_GYRO, BMI088_REG_GYRO_INT_CTRL, 0x80);
  BSP_TIME_Delay(10);
  inited = true;
  BSP_GPIO_EnableIRQ(BSP_GPIO_ACCL_INT);
  BSP_GPIO_EnableIRQ(BSP_GPIO_GYRO_INT);
  return DEVICE_OK;
 }
 bool BMI088_GyroStable(AHRS_Gyro_t *gyro) {
  return ((gyro->x < 0.03f) && (gyro->y < 0.03f) && (gyro->z < 0.03f));
 }
 uint32_t BMI088_WaitNew() {
  return osThreadFlagsWait(
      SIGNAL_BMI088_ACCL_NEW_DATA | SIGNAL_BMI088_GYRO_NEW_DATA, osFlagsWaitAll,
      osWaitForever);
 }
 int8_t BMI088_AcclStartDmaRecv() {
  BMI_Read(BMI_ACCL, BMI088_REG_ACCL_X_LSB, bmi088_rxbuf, BMI088_LEN_RX_BUFF);
  return DEVICE_OK;
 }
 uint32_t BMI088_AcclWaitDmaCplt() {
  return osThreadFlagsWait(SIGNAL_BMI088_ACCL_RAW_REDY, osFlagsWaitAll,
                           osWaitForever);
 }
 int8_t BMI088_GyroStartDmaRecv() {
  BMI_Read(BMI_GYRO, BMI088_REG_GYRO_X_LSB, bmi088_rxbuf + 7, 6u);
  return DEVICE_OK;
 }
 uint32_t BMI088_GyroWaitDmaCplt() {
  return osThreadFlagsWait(SIGNAL_BMI088_GYRO_RAW_REDY, osFlagsWaitAll,
                           osWaitForever);
 }
 int8_t BMI088_ParseAccl(BMI088_t *bmi088) {
  if (bmi088 == NULL) return DEVICE_ERR_NULL;
 #if 1
  int16_t raw_x, raw_y, raw_z;
  memcpy(&raw_x, bmi088_rxbuf + 1, sizeof(raw_x));
  memcpy(&raw_y, bmi088_rxbuf + 3, sizeof(raw_y));
  memcpy(&raw_z, bmi088_rxbuf + 5, sizeof(raw_z));
  bmi088->accl.x = (float)raw_x;
  bmi088->accl.y = (float)raw_y;
  bmi088->accl.z = (float)raw_z;
 #else
  const int16_t *praw_x = (int16_t *)(bmi088_rxbuf + 1);
  const int16_t *praw_y = (int16_t *)(bmi088_rxbuf + 3);
  const int16_t *praw_z = (int16_t *)(bmi088_rxbuf + 5);
  bmi088->accl.x = (float)*praw_x;
  bmi088->accl.y = (float)*praw_y;
  bmi088->accl.z = (float)*praw_z;
 #endif
  /* 3G: 10920. 6G: 5460. 12G: 2730. 24G: 1365. */
  bmi088->accl.x /= 5460.0f;
  bmi088->accl.y /= 5460.0f;
  bmi088->accl.z /= 5460.0f;
  int16_t raw_temp =
      (uint16_t)((bmi088_rxbuf[17] << 3) | (bmi088_rxbuf[18] >> 5));
  if (raw_temp > 1023) raw_temp -= 2048;
  bmi088->temp = (float)raw_temp * 0.125f + 23.0f;
  return DEVICE_OK;
 }
 int8_t BMI088_ParseGyro(BMI088_t *bmi088) {
  if (bmi088 == NULL) return DEVICE_ERR_NULL;
 #if 1
  /* Gyroscope imu_raw -> degrees/sec -> radians/sec */
  int16_t raw_x, raw_y, raw_z;
  memcpy(&raw_x, bmi088_rxbuf + 7, sizeof(raw_x));
  memcpy(&raw_y, bmi088_rxbuf + 9, sizeof(raw_y));
  memcpy(&raw_z, bmi088_rxbuf + 11, sizeof(raw_z));
  bmi088->gyro.x = (float)raw_x;
  bmi088->gyro.y = (float)raw_y;
  bmi088->gyro.z = (float)raw_z;
 #else
  /* Gyroscope imu_raw -> degrees/sec -> radians/sec */
  const int16_t *raw_x = (int16_t *)(bmi088_rxbuf + 7);
  const int16_t *raw_y = (int16_t *)(bmi088_rxbuf + 9);
  const int16_t *raw_z = (int16_t *)(bmi088_rxbuf + 11);
  bmi088->gyro.x = (float)*raw_x;
  bmi088->gyro.y = (float)*raw_y;
  bmi088->gyro.z = (float)*raw_z;
 #endif
  /* FS125: 262.144. FS250: 131.072. FS500: 65.536. FS1000: 32.768.
   * FS2000: 16.384.*/
  bmi088->gyro.x /= 32.768f;
  bmi088->gyro.y /= 32.768f;
  bmi088->gyro.z /= 32.768f;
  bmi088->gyro.x *= M_DEG2RAD_MULT;
  bmi088->gyro.y *= M_DEG2RAD_MULT;
  bmi088->gyro.z *= M_DEG2RAD_MULT;
  bmi088->gyro.x -= bmi088->cali->gyro_offset.x;
  bmi088->gyro.y -= bmi088->cali->gyro_offset.y;
  bmi088->gyro.z -= bmi088->cali->gyro_offset.z;
  return DEVICE_ERR_NULL;
 }
 float BMI088_GetUpdateFreq(BMI088_t *bmi088) {
  (void)bmi088;
  return 400.0f;
 }
--- a/User/device/bmi088.h
+++ b/User/device/bmi088.h
@ -0,0 +1,81 @@
 #pragma once
 #ifdef __cplusplus
 extern "C" {
 #endif
 /* Includes ----------------------------------------------------------------- */
 #include <stdbool.h>
 #include <stdint.h>
 #include "component/ahrs.h"
 #include "device/device.h"
 /* USER INCLUDE BEGIN */
 /* USER INCLUDE END */
 /* USER DEFINE BEGIN */
 /* USER DEFINE END */
 /* Exported constants ------------------------------------------------------- */
 /* Exported macro ----------------------------------------------------------- */
 /* Exported types ----------------------------------------------------------- */
 typedef struct {
  struct {
    float x;
    float y;
    float z;
  } gyro_offset; /* 陀螺仪偏置 */
 } BMI088_Cali_t; /* BMI088校准数据 */
 typedef struct {
  DEVICE_Header_t header;
  AHRS_Accl_t accl;
  AHRS_Gyro_t gyro;
  float temp; /* 温度 */
  const BMI088_Cali_t *cali;
 } BMI088_t;
 /* USER STRUCT BEGIN */
 /* USER STRUCT END */
 /* Exported functions prototypes -------------------------------------------- */
 int8_t BMI088_Init(BMI088_t *bmi088, const BMI088_Cali_t *cali);
 int8_t BMI088_Restart(void);
 bool BMI088_GyroStable(AHRS_Gyro_t *gyro);
 /* Sensor use right-handed coordinate system. */
 /*
                x < R(logo)
                        y
                UP is z
        All implementation should follow this rule.
 */
 uint32_t BMI088_WaitNew();
 /*
  BMI088的Accl和Gyro共用同一个DMA通道，所以一次只能读一个传感器。
  即BMI088_AcclStartDmaRecv() 和 BMI088_AcclWaitDmaCplt() 中间不能
  出现 BMI088_GyroStartDmaRecv()。
 */
 int8_t BMI088_AcclStartDmaRecv();
 uint32_t BMI088_AcclWaitDmaCplt();
 int8_t BMI088_GyroStartDmaRecv();
 uint32_t BMI088_GyroWaitDmaCplt();
 int8_t BMI088_ParseAccl(BMI088_t *bmi088);
 int8_t BMI088_ParseGyro(BMI088_t *bmi088);
 float BMI088_GetUpdateFreq(BMI088_t *bmi088);
 /* USER FUNCTION BEGIN */
 /* USER FUNCTION END */
 #ifdef __cplusplus
 }
 #endif
--- a/User/device/device.h
+++ b/User/device/device.h
@ -23,6 +23,10 @@ extern "C" {
 /* AUTO GENERATED SIGNALS BEGIN */
 #define SIGNAL_DR16_RAW_REDY (1u << 0)
 #define SIGNAL_BMI088_ACCL_RAW_REDY (1u << 1)
 #define SIGNAL_BMI088_GYRO_RAW_REDY (1u << 2)
 #define SIGNAL_BMI088_ACCL_NEW_DATA (1u << 3)
 #define SIGNAL_BMI088_GYRO_NEW_DATA (1u << 4)
 /* AUTO GENERATED SIGNALS END */
 /* USER SIGNALS BEGIN */
--- a/User/device/device_config.yaml
+++ b/User/device/device_config.yaml
@ -1,3 +1,11 @@
 bmi088:
  bsp_config:
    BSP_GPIO_ACCL_CS: BSP_GPIO_ACCL_CS
    BSP_GPIO_ACCL_INT: BSP_GPIO_ACCL_INT
    BSP_GPIO_GYRO_CS: BSP_GPIO_GYRO_CS
    BSP_GPIO_GYRO_INT: BSP_GPIO_GYRO_INT
    BSP_SPI_BMI088: BSP_SPI_BMI088
  enabled: true
 buzzer:
  bsp_config:
    BSP_PWM_BUZZER: BSP_PWM_TIM8_CH1
--- a/User/task/config.yaml
+++ b/User/task/config.yaml
@ -33,3 +33,10 @@
  function: Task_ctrl_gimbal
  name: ctrl_gimbal
  stack: 256
 - delay: 0
  description: ''
  freq_control: true
  frequency: 500.0
  function: Task_imu
  name: imu
  stack: 256
--- a/User/task/ctrl_gimbal.c
+++ b/User/task/ctrl_gimbal.c
@ -4,7 +4,6 @@
 */
 /* Includes ----------------------------------------------------------------- */
 #include "device/motor_rm.h"
 #include "task/user_task.h"
 /* USER INCLUDE BEGIN */
 #include "bsp/can.h"
@ -75,9 +74,9 @@ void Task_ctrl_gimbal(void *argument) {
  uint32_t tick = osKernelGetTickCount(); /* 控制任务运行频率的计时 */
  /* USER CODE INIT BEGIN */
  BSP_CAN_Init();
  // MOTOR_DM_Register(&dm_4310_param);
  /* USER CODE INIT END */
  while (1) {
    tick += delay_tick; /* 计算下一个唤醒时刻 */
    /* USER CODE BEGIN */
--- a/User/task/imu.c
+++ b/User/task/imu.c
@ -0,0 +1,44 @@
 /*
    imu Task
 */
 /* Includes ----------------------------------------------------------------- */
 #include "task/user_task.h"
 /* USER INCLUDE BEGIN */
 /* USER INCLUDE END */
 /* Private typedef ---------------------------------------------------------- */
 /* Private define ----------------------------------------------------------- */
 /* Private macro ------------------------------------------------------------ */
 /* Private variables -------------------------------------------------------- */
 /* USER STRUCT BEGIN */
 /* USER STRUCT END */
 /* Private function --------------------------------------------------------- */
 /* Exported functions ------------------------------------------------------- */
 void Task_imu(void *argument) {
  (void)argument; /* 未使用argument，消除警告 */
  /* 计算任务运行到指定频率需要等待的tick数 */
  const uint32_t delay_tick = osKernelGetTickFreq() / IMU_FREQ;
  osDelay(IMU_INIT_DELAY); /* 延时一段时间再开启任务 */
  uint32_t tick = osKernelGetTickCount(); /* 控制任务运行频率的计时 */
  /* USER CODE INIT BEGIN */
  /* USER CODE INIT END */
  while (1) {
    tick += delay_tick; /* 计算下一个唤醒时刻 */
    /* USER CODE BEGIN */
    /* USER CODE END */
    osDelayUntil(tick); /* 运行结束，等待下一次唤醒 */
  }
 }
--- a/User/task/init.c
+++ b/User/task/init.c
@ -37,6 +37,7 @@ void Task_Init(void *argument) {
  task_runtime.thread.atti_esti = osThreadNew(Task_atti_esti, NULL, &attr_atti_esti);
  task_runtime.thread.ctrl_chassis = osThreadNew(Task_ctrl_chassis, NULL, &attr_ctrl_chassis);
  task_runtime.thread.ctrl_gimbal = osThreadNew(Task_ctrl_gimbal, NULL, &attr_ctrl_gimbal);
  task_runtime.thread.imu = osThreadNew(Task_imu, NULL, &attr_imu);
  // 创建消息队列
  /* USER MESSAGE BEGIN */
--- a/User/task/user_task.c
+++ b/User/task/user_task.c
@ -33,4 +33,9 @@ const osThreadAttr_t attr_ctrl_gimbal = {
    .name = "ctrl_gimbal",
    .priority = osPriorityNormal,
    .stack_size = 256 * 4,
 };
 const osThreadAttr_t attr_imu = {
    .name = "imu",
    .priority = osPriorityNormal,
    .stack_size = 256 * 4,
 };
--- a/User/task/user_task.h
+++ b/User/task/user_task.h
@ -18,6 +18,7 @@ extern "C" {
 #define ATTI_ESTI_FREQ (1000.0)
 #define CTRL_CHASSIS_FREQ (500.0)
 #define CTRL_GIMBAL_FREQ (500.0)
 #define IMU_FREQ (500.0)
 /* 任务初始化延时ms */
 #define TASK_INIT_DELAY (100u)
@ -26,6 +27,7 @@ extern "C" {
 #define ATTI_ESTI_INIT_DELAY (0)
 #define CTRL_CHASSIS_INIT_DELAY (500)
 #define CTRL_GIMBAL_INIT_DELAY (0)
 #define IMU_INIT_DELAY (0)
 /* Exported defines --------------------------------------------------------- */
 /* Exported macro ----------------------------------------------------------- */
@ -40,6 +42,7 @@ typedef struct {
        osThreadId_t atti_esti;
        osThreadId_t ctrl_chassis;
        osThreadId_t ctrl_gimbal;
        osThreadId_t imu;
    } thread;
    /* USER MESSAGE BEGIN */
@ -70,6 +73,7 @@ typedef struct {
        UBaseType_t atti_esti;
        UBaseType_t ctrl_chassis;
        UBaseType_t ctrl_gimbal;
        UBaseType_t imu;
    } stack_water_mark;
    /* 各任务运行频率 */
@ -79,6 +83,7 @@ typedef struct {
        float atti_esti;
        float ctrl_chassis;
        float ctrl_gimbal;
        float imu;
    } freq;
    /* 任务最近运行时间 */
@ -88,6 +93,7 @@ typedef struct {
        float atti_esti;
        float ctrl_chassis;
        float ctrl_gimbal;
        float imu;
    } last_up_time;
 } Task_Runtime_t;
@ -102,6 +108,7 @@ extern const osThreadAttr_t attr_rc;
 extern const osThreadAttr_t attr_atti_esti;
 extern const osThreadAttr_t attr_ctrl_chassis;
 extern const osThreadAttr_t attr_ctrl_gimbal;
 extern const osThreadAttr_t attr_imu;
 /* 任务函数声明 */
 void Task_Init(void *argument);
@ -110,6 +117,7 @@ void Task_rc(void *argument);
 void Task_atti_esti(void *argument);
 void Task_ctrl_chassis(void *argument);
 void Task_ctrl_gimbal(void *argument);
 void Task_imu(void *argument);
 #ifdef __cplusplus
 }