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Robofish 2025-10-04 21:00:35 +08:00
parent 8ee3b8a298
commit ca97903bab
8 changed files with 751 additions and 14 deletions
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417
User/device/virtual_chassis.c Normal file
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@ -0,0 +1,417 @@
/*
* @file virtual_chassis.c
* @brief -
* @details
*/
/* Includes ----------------------------------------------------------------- */
#include "device/virtual_chassis.h"
#include "bsp/can.h"
#include "bsp/time.h"
#include <string.h>
/* Private typedef ---------------------------------------------------------- */
/* Private define ----------------------------------------------------------- */
/* Private macro ------------------------------------------------------------ */
/* Private variables -------------------------------------------------------- */
/* Private function prototypes ---------------------------------------------- */
static int8_t Virtual_Chassis_DecodeMotor(Virtual_Chassis_t *chassis, uint8_t id, uint8_t *data) {
if (chassis == NULL || data == NULL) {
return DEVICE_ERR_NULL;
}
// 1. 解析转矩电流 - 前2字节16位有符号整数 (精度0.01 Nm)
int16_t torque_int;
memcpy(&torque_int, &data[0], sizeof(int16_t));
chassis->data.joint[id-chassis->param.motors.feedback_id].torque_current = (float)torque_int / 100.0f;
// 2. 解析位置 - 第3-5字节24位有符号整数 (精度0.0001 rad)
int32_t angle_int = 0;
angle_int |= ((int32_t)data[2]) << 16;
angle_int |= ((int32_t)data[3]) << 8;
angle_int |= ((int32_t)data[4]);
// 符号扩展24位转32位
if (angle_int & 0x800000) {
angle_int |= 0xFF000000;
}
chassis->data.joint[id-chassis->param.motors.feedback_id].rotor_abs_angle = (float)angle_int / 10000.0f;
// 3. 解析速度 - 第6-8字节24位有符号整数 (精度0.001 rad/s)
int32_t velocity_int = 0;
velocity_int |= ((int32_t)data[5]) << 16;
velocity_int |= ((int32_t)data[6]) << 8;
velocity_int |= ((int32_t)data[7]);
// 符号扩展24位转32位
if (velocity_int & 0x800000) {
velocity_int |= 0xFF000000;
}
chassis->data.joint[id-chassis->param.motors.feedback_id].rotor_speed = (float)velocity_int / 1000.0f;
chassis->data.joint[id-chassis->param.motors.feedback_id].temp = 0.0f;
return DEVICE_OK;
}
static int8_t Virtual_Chassis_DecodeIMU(Virtual_Chassis_t *chassis, uint8_t id, uint8_t *data, uint8_t len) {
if (chassis == NULL || data == NULL || len < 8) {
return DEVICE_ERR_NULL;
}
float *float_data = (float*)data;
switch (id) {
case 0x66: // 加速度计数据 - 8字节2个float值 (x, y)
chassis->data.imu.accl.x = float_data[0];
chassis->data.imu.accl.y = float_data[1];
// z轴数据未传输保持之前的值或设为0
// chassis->data.imu.accl.z = 0.0f;
break;
case 0x67: // 陀螺仪数据 - 8字节2个float值 (x, y)
chassis->data.imu.gyro.x = float_data[0];
chassis->data.imu.gyro.y = float_data[1];
// z轴数据未传输保持之前的值或设为0
// chassis->data.imu.gyro.z = 0.0f;
break;
case 0x68: // 欧拉角数据 - 8字节2个float值 (yaw, pitch)
chassis->data.imu.euler.yaw = float_data[0];
chassis->data.imu.euler.pit = float_data[1];
// roll轴数据未传输保持之前的值或设为0
// chassis->data.imu.euler.rol = 0.0f;
break;
case 0x69: // 四元数数据 - 8字节2个float值 (q0, q1)
chassis->data.imu.quat.q0 = float_data[0];
chassis->data.imu.quat.q1 = float_data[1];
// q2, q3数据未传输保持之前的值或设为0
// chassis->data.imu.quat.q2 = 0.0f;
// chassis->data.imu.quat.q3 = 0.0f;
break;
default:
return DEVICE_ERR;
}
return DEVICE_OK;
}
/* Exported functions ------------------------------------------------------- */
/**
* @brief
*/
int8_t Virtual_Chassis_Init(Virtual_Chassis_t *chassis, Virtual_Chassis_Param_t *param) {
if (chassis == NULL || param == NULL) {
return DEVICE_ERR_NULL;
}
// 复制参数配置
chassis->param = *param;
// 初始化设备头部
chassis->header.online = false;
chassis->header.last_online_time = 0;
// 初始化数据
memset(&chassis->data, 0, sizeof(Virtual_Chassis_Feedback_t));
memset(&chassis->output, 0, sizeof(Virtual_Chassis_Output_t));
BSP_CAN_Init();
for (int i = 0; i < 4; i++) {
BSP_CAN_RegisterId(chassis->param.motors.can, 124 + i, 3); // 电机反馈ID
BSP_CAN_RegisterId(chassis->param.imu.can, 0x66 + 1, 3);
}
// 设置设备在线状态
chassis->header.online = true;
chassis->header.last_online_time = BSP_TIME_Get_us();
return DEVICE_OK;
}
/**
* @brief
*/
int8_t Virtual_Chassis_Update(Virtual_Chassis_t *chassis) {
if (chassis == NULL) {
return DEVICE_ERR_NULL;
}
BSP_CAN_Message_t msg;
BSP_CAN_GetMessage(chassis->param.motors.can, 124, &msg, BSP_CAN_TIMEOUT_IMMEDIATE);
return DEVICE_OK;
}
/**
* @brief
*/
int8_t Virtual_Chassis_ReceiveFeedback(Virtual_Chassis_t *chassis) {
if (chassis == NULL) {
return DEVICE_ERR_NULL;
}
// 处理4个电机的反馈数据 (ID 124-127)
for (int i = 0; i < VIRTUAL_CHASSIS_MOTOR_COUNT; i++) {
Virtual_Chassis_ProcessMotorFeedback(chassis, i);
}
// 处理IMU反馈数据
Virtual_Chassis_ProcessIMUFeedback(chassis);
return DEVICE_OK;
}
/**
* @brief 使
*/
int8_t Virtual_Chassis_Enable(Virtual_Chassis_t *chassis) {
if (chassis == NULL) {
return DEVICE_ERR_NULL;
}
BSP_CAN_StdDataFrame_t enable_frame = {
.id = chassis->param.motors.Enable_id,
};
if (BSP_CAN_TransmitStdDataFrame(chassis->param.motors.can, &enable_frame) == BSP_OK) {
return DEVICE_OK;
}
return DEVICE_ERR;
}
/**
* @brief
*/
int8_t Virtual_Chassis_SendTorqueCommand(Virtual_Chassis_t *chassis, float torques[4]) {
if (chassis == NULL || torques == NULL) {
return DEVICE_ERR_NULL;
}
BSP_CAN_StdDataFrame_t torque_frame = {
.id = chassis->param.motors.MIT_id,
.dlc = 8,
.data = {0}
};
// 8字节数据分别是4个电机的力矩 (每个电机2字节有符号整数精度0.01 Nm)
for (int i = 0; i < 4; i++) {
int16_t torque_raw = (int16_t)(torques[i] * 100.0f);
memcpy(&torque_frame.data[i * 2], &torque_raw, sizeof(int16_t));
chassis->output.joint_torque[i] = torques[i];
}
return BSP_CAN_TransmitStdDataFrame(chassis->param.motors.can, &torque_frame) == BSP_OK ? DEVICE_OK : DEVICE_ERR;
}
/**
* @brief
*/
Virtual_Chassis_MotorFeedback_t* Virtual_Chassis_GetMotorFeedback(Virtual_Chassis_t *chassis, uint8_t motor_id) {
if (chassis == NULL || motor_id >= VIRTUAL_CHASSIS_MOTOR_COUNT) {
return NULL;
}
return &chassis->data.motors[motor_id];
}
/**
* @brief IMU反馈数据
*/
Virtual_Chassis_IMUFeedback_t* Virtual_Chassis_GetIMUFeedback(Virtual_Chassis_t *chassis) {
if (chassis == NULL) {
return NULL;
}
return &chassis->data.imu;
}
/**
* @brief
*/
int8_t Virtual_Chassis_SetTargetTorques(Virtual_Chassis_t *chassis, float torques[VIRTUAL_CHASSIS_MOTOR_COUNT]) {
if (chassis == NULL || torques == NULL) {
return DEVICE_ERR_NULL;
}
memcpy(chassis->data.target_torques, torques, sizeof(float) * VIRTUAL_CHASSIS_MOTOR_COUNT);
return DEVICE_OK;
}
/**
* @brief 使
*/
int8_t Virtual_Chassis_Enable(Virtual_Chassis_t *chassis) {
if (chassis == NULL) {
return DEVICE_ERR_NULL;
}
return Virtual_Chassis_SendEnableCommand(chassis);
}
/**
* @brief 线
*/
bool Virtual_Chassis_IsOnline(Virtual_Chassis_t *chassis) {
if (chassis == NULL) {
return false;
}
uint64_t current_time = BSP_TIME_Get_us();
uint64_t timeout_us = VIRTUAL_CHASSIS_TIMEOUT_MS * 1000;
return chassis->header.online &&
(current_time - chassis->header.last_online_time) < timeout_us;
}
/* Private functions -------------------------------------------------------- */
/**
* @brief CAN接收ID ()
*/
static int8_t Virtual_Chassis_RegisterCANIds(Virtual_Chassis_t *chassis) {
if (chassis == NULL) {
return DEVICE_ERR_NULL;
}
// 注册电机反馈数据ID
for (int i = 0; i < VIRTUAL_CHASSIS_MOTOR_COUNT; i++) {
if (BSP_CAN_RegisterId(chassis->param.motors[i].can, chassis->param.motors[i].feedback_id, 0) != BSP_OK) {
return DEVICE_ERR;
}
}
// 注册IMU反馈数据ID
if (BSP_CAN_RegisterId(chassis->param.imu_can, chassis->param.accl_id, 0) != BSP_OK) {
return DEVICE_ERR;
}
if (BSP_CAN_RegisterId(chassis->param.imu_can, chassis->param.gyro_id, 0) != BSP_OK) {
return DEVICE_ERR;
}
if (BSP_CAN_RegisterId(chassis->param.imu_can, chassis->param.euler_id, 0) != BSP_OK) {
return DEVICE_ERR;
}
if (BSP_CAN_RegisterId(chassis->param.imu_can, chassis->param.quat_id, 0) != BSP_OK) {
return DEVICE_ERR;
}
return DEVICE_OK;
}
/**
* @brief
*/
static int8_t Virtual_Chassis_ProcessMotorFeedback(Virtual_Chassis_t *chassis, uint8_t motor_id) {
BSP_CAN_Message_t rx_msg;
if (BSP_CAN_GetMessage(chassis->param.motors[motor_id].can, chassis->param.motors[motor_id].feedback_id, &rx_msg, BSP_CAN_TIMEOUT_IMMEDIATE) == BSP_OK) {
// 解析数据:转矩电流(2字节) + 位置(3字节) + 速度(3字节) = 8字节
// 转矩电流 (精度0.01 Nm)
int16_t torque_int;
memcpy(&torque_int, &rx_msg.data[0], sizeof(int16_t));
chassis->data.motors[motor_id].current_torque = (float)torque_int / 100.0f;
// 位置 (精度0.0001 rad)
int32_t angle_int = 0;
angle_int |= ((int32_t)rx_msg.data[2]) << 16;
angle_int |= ((int32_t)rx_msg.data[3]) << 8;
angle_int |= ((int32_t)rx_msg.data[4]);
if (angle_int & 0x800000) { // 符号扩展
angle_int |= 0xFF000000;
}
chassis->data.motors[motor_id].current_angle = (float)angle_int / 10000.0f;
// 速度 (精度0.001 rad/s)
int32_t velocity_int = 0;
velocity_int |= ((int32_t)rx_msg.data[5]) << 16;
velocity_int |= ((int32_t)rx_msg.data[6]) << 8;
velocity_int |= ((int32_t)rx_msg.data[7]);
if (velocity_int & 0x800000) { // 符号扩展
velocity_int |= 0xFF000000;
}
chassis->data.motors[motor_id].current_velocity = (float)velocity_int / 1000.0f;
// 更新在线状态
chassis->data.motors[motor_id].online = true;
chassis->data.motors[motor_id].last_update_time = BSP_TIME_Get_us();
return DEVICE_OK;
}
return DEVICE_ERR;
}
/**
* @brief IMU反馈数据
*/
static int8_t Virtual_Chassis_ProcessIMUFeedback(Virtual_Chassis_t *chassis) {
BSP_CAN_Message_t rx_msg;
bool imu_updated = false;
// 处理加速度计数据
if (BSP_CAN_GetMessage(chassis->param.imu_can, chassis->param.accl_id, &rx_msg, BSP_CAN_TIMEOUT_IMMEDIATE) == BSP_OK) {
float *accl_data = (float*)rx_msg.data;
chassis->data.imu.accl.x = accl_data[0];
chassis->data.imu.accl.y = accl_data[1];
if (rx_msg.dlc >= 12) { // 如果有第三个数据
chassis->data.imu.accl.z = accl_data[2];
}
imu_updated = true;
}
// 处理陀螺仪数据
if (BSP_CAN_GetMessage(chassis->param.imu_can, chassis->param.gyro_id, &rx_msg, BSP_CAN_TIMEOUT_IMMEDIATE) == BSP_OK) {
float *gyro_data = (float*)rx_msg.data;
chassis->data.imu.gyro.x = gyro_data[0];
chassis->data.imu.gyro.y = gyro_data[1];
if (rx_msg.dlc >= 12) { // 如果有第三个数据
chassis->data.imu.gyro.z = gyro_data[2];
}
imu_updated = true;
}
// 处理欧拉角数据
if (BSP_CAN_GetMessage(chassis->param.imu_can, chassis->param.euler_id, &rx_msg, BSP_CAN_TIMEOUT_IMMEDIATE) == BSP_OK) {
float *euler_data = (float*)rx_msg.data;
chassis->data.imu.euler.yaw = euler_data[0];
chassis->data.imu.euler.pit = euler_data[1];
if (rx_msg.dlc >= 12) { // 如果有第三个数据
chassis->data.imu.euler.rol = euler_data[2];
}
imu_updated = true;
}
// 处理四元数数据(可选)
if (BSP_CAN_GetMessage(chassis->param.imu_can, chassis->param.quat_id, &rx_msg, BSP_CAN_TIMEOUT_IMMEDIATE) == BSP_OK) {
float *quat_data = (float*)rx_msg.data;
chassis->data.imu.quat.q0 = quat_data[0];
chassis->data.imu.quat.q1 = quat_data[1];
if (rx_msg.dlc >= 16) { // 如果有更多数据
chassis->data.imu.quat.q2 = quat_data[2];
chassis->data.imu.quat.q3 = quat_data[3];
}
imu_updated = true;
}
if (imu_updated) {
chassis->data.imu.online = true;
chassis->data.imu.last_update_time = BSP_TIME_Get_us();
return DEVICE_OK;
}
return DEVICE_ERR;
}

151
User/device/virtual_chassis.h Normal file
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@ -0,0 +1,151 @@
#pragma once
#ifdef __cplusplus
extern "C" {
#endif
/* Includes ----------------------------------------------------------------- */
#include "device/device.h"
#include "device/motor.h"
#include "component/ahrs.h"
#include "bsp/can.h"
/* Exported constants ------------------------------------------------------- */
/* Exported macro ----------------------------------------------------------- */
/* Exported types ----------------------------------------------------------- */
/* 电机反馈数据结构体 */
typedef struct {
MOTOR_Feedback_t joint[4]; // 4个电机反馈数据
struct {
DEVICE_Header_t header; // 设备通用头部
AHRS_Accl_t accl; // 加速度计数据
AHRS_Gyro_t gyro; // 陀螺仪数据
AHRS_Eulr_t euler; // 欧拉角数据
AHRS_Quaternion_t quat; // 四元数数据
} imu;
} Virtual_Chassis_Feedback_t;
typedef struct {
float joint_torque[4]; // 4个电机目标力矩
} Virtual_Chassis_Output_t;
/* 电机CAN参数结构体 */
typedef struct {
BSP_CAN_t can; // 电机所在CAN总线
uint16_t Enable_id; // 电机使能命令CAN ID
uint16_t MIT_id; // 电机力矩控制命令CAN ID
uint16_t feedback_id; // 电机反馈数据CAN ID
} Virtual_Chassis_MotorParam_t;
/* IMU参数结构体 */
typedef struct {
BSP_CAN_t can; // 电机所在CAN总线
uint16_t accl_id; // 加速度计数据CAN ID
uint16_t gyro_id; // 陀螺仪数据CAN ID
uint16_t euler_id; // 欧拉角数据CAN ID
uint16_t quat_id; // 四元数数据CAN ID
} Virtual_Chassis_IMUParam_t;
/* 虚拟底盘参数配置结构体 */
typedef struct {
Virtual_Chassis_MotorParam_t motors; // 4个电机CAN参数
Virtual_Chassis_IMUParam_t imu; // IMU CAN参数
} Virtual_Chassis_Param_t;
/* 虚拟底盘设备结构体 */
typedef struct {
DEVICE_Header_t header; // 设备通用头部
Virtual_Chassis_Param_t param; // 参数配置
Virtual_Chassis_Feedback_t data; // 反馈数据
Virtual_Chassis_Output_t output; // 控制输出
} Virtual_Chassis_t;
/* Exported functions prototypes -------------------------------------------- */
/**
* @brief
* @param chassis
* @param param
* @return DEVICE_OK
*/
int8_t Virtual_Chassis_Init(Virtual_Chassis_t *chassis, Virtual_Chassis_Param_t *param);
/**
* @brief
* @param chassis
* @return DEVICE_OK
*/
int8_t Virtual_Chassis_DeInit(Virtual_Chassis_t *chassis);
/**
* @brief IMU数据
* @param chassis
* @return DEVICE_OK
*/
int8_t Virtual_Chassis_Update(Virtual_Chassis_t *chassis);
/**
* @brief
* @param chassis
* @return DEVICE_OK
*/
int8_t Virtual_Chassis_ReceiveFeedback(Virtual_Chassis_t *chassis);
/**
* @brief 使
* @param chassis
* @return DEVICE_OK
*/
int8_t Virtual_Chassis_SendEnableCommand(Virtual_Chassis_t *chassis);
/**
* @brief
* @param chassis
* @param torques 4 (-60~60 Nm)
* @return DEVICE_OK
*/
int8_t Virtual_Chassis_SendTorqueCommand(Virtual_Chassis_t *chassis, float torques[VIRTUAL_CHASSIS_MOTOR_COUNT]);
/**
* @brief
* @param chassis
* @param motor_id ID (0-3)
* @return NULL
*/
Virtual_Chassis_MotorFeedback_t* Virtual_Chassis_GetMotorFeedback(Virtual_Chassis_t *chassis, uint8_t motor_id);
/**
* @brief IMU反馈数据
* @param chassis
* @return IMU反馈数据指针NULL
*/
Virtual_Chassis_IMUFeedback_t* Virtual_Chassis_GetIMUFeedback(Virtual_Chassis_t *chassis);
/**
* @brief
* @param chassis
* @param torques 4
* @return DEVICE_OK
*/
int8_t Virtual_Chassis_SetTargetTorques(Virtual_Chassis_t *chassis, float torques[VIRTUAL_CHASSIS_MOTOR_COUNT]);
/**
* @brief 使
* @param chassis
* @return DEVICE_OK
*/
int8_t Virtual_Chassis_Enable(Virtual_Chassis_t *chassis);
/**
* @brief 线
* @param chassis
* @return true 线false 线
*/
bool Virtual_Chassis_IsOnline(Virtual_Chassis_t *chassis);
#ifdef __cplusplus
}
#endif

6
User/module/balance_chassis.c
View File

@ -19,7 +19,7 @@ static int8_t Chassis_MotorEnable(Chassis_t *c) {
if (c == NULL)
return CHASSIS_ERR_NULL;
for (int i = 0; i < 4; i++) {
MOTOR_LZ_Enable(&c->param->joint_motors[i]);
// MOTOR_LZ_Enable(&c->param->joint_motors[i]);
}
BSP_TIME_Delay_us(200);
for (int i = 0; i < 2; i++) {
@ -32,7 +32,7 @@ static int8_t Chassis_MotorRelax(Chassis_t *c) {
if (c == NULL)
return CHASSIS_ERR_NULL;
for (int i = 0; i < 2; i++) {
MOTOR_LK_Relax(&c->param->wheel_motors[i]);
// MOTOR_LK_Relax(&c->param->wheel_motors[i]);
}
BSP_TIME_Delay_us(200);
for (int i = 0; i < 4; i++) {
@ -275,7 +275,7 @@ void Chassis_Output(Chassis_t *c) {
for (int i = 0; i < 4; i++) {
MOTOR_LZ_MotionParam_t param = {0};
param.torque = c->output.joint[i].torque;
MOTOR_LZ_MotionControl(&c->param->joint_motors[i], &param);
// MOTOR_LZ_MotionControl(&c->param->joint_motors[i], &param);
}
BSP_TIME_Delay_us(400); // 等待CAN总线空闲确保前面的命令发送完成
for (int i = 0; i < 2; i++) {

31
User/module/config.c
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@ -183,6 +183,37 @@ Config_RobotParam_t robot_config = {
.mouse_id = 0x32,
.keyboard_id = 0x33,
},
.virtual_chassis_param = {
.control_can = BSP_CAN_1,
.enable_id = VIRTUAL_CHASSIS_CAN_ID_ENABLE_DEFAULT,
.control_id = VIRTUAL_CHASSIS_CAN_ID_CONTROL_DEFAULT,
.motors = {
{ // 电机0 - 左髋关节反馈
.can = BSP_CAN_1,
.feedback_id = VIRTUAL_CHASSIS_CAN_ID_FEEDBACK_BASE_DEFAULT + 0, // 124
},
{ // 电机1 - 左膝关节反馈
.can = BSP_CAN_1,
.feedback_id = VIRTUAL_CHASSIS_CAN_ID_FEEDBACK_BASE_DEFAULT + 1, // 125
},
{ // 电机2 - 右膝关节反馈
.can = BSP_CAN_1,
.feedback_id = VIRTUAL_CHASSIS_CAN_ID_FEEDBACK_BASE_DEFAULT + 2, // 126
},
{ // 电机3 - 右髋关节反馈
.can = BSP_CAN_1,
.feedback_id = VIRTUAL_CHASSIS_CAN_ID_FEEDBACK_BASE_DEFAULT + 3, // 127
},
},
.imu_can = BSP_CAN_1,
.accl_id = VIRTUAL_CHASSIS_CAN_ID_ACCL_DEFAULT,
.gyro_id = VIRTUAL_CHASSIS_CAN_ID_GYRO_DEFAULT,
.euler_id = VIRTUAL_CHASSIS_CAN_ID_EULER_DEFAULT,
.quat_id = VIRTUAL_CHASSIS_CAN_ID_QUAT_DEFAULT,
},
};
/* Private function prototypes ---------------------------------------------- */

2
User/module/config.h
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@ -14,11 +14,13 @@ extern "C" {
#include "device/motor_lk.h"
#include "module/balance_chassis.h"
#include "device/rc_can.h"
#include "device/virtual_chassis.h"
typedef struct {
DM_IMU_Param_t imu_param;
Chassis_Params_t chassis_param;
RC_CAN_Param_t rc_can_param;
Virtual_Chassis_Param_t virtual_chassis_param; // 虚拟底盘参数
} Config_RobotParam_t;
/* Exported functions prototypes -------------------------------------------- */

14
User/task/atti_esti.c
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@ -43,13 +43,13 @@ void Task_atti_esti(void *argument) {
tick += delay_tick; /* 计算下一个唤醒时刻 */
/* USER CODE BEGIN */
if (DM_IMU_AutoUpdateAll(&dm_imu) == DEVICE_OK) {
osMessageQueueReset(task_runtime.msgq.chassis_imu); // 重置消息队列,防止阻塞
chassis_imu_send.accl = dm_imu.data.accl;
chassis_imu_send.gyro = dm_imu.data.gyro;
chassis_imu_send.euler = dm_imu.data.euler;
osMessageQueuePut(task_runtime.msgq.chassis_imu, &chassis_imu_send, 0, 0); // 非阻塞发送IMU数据
}
// if (DM_IMU_AutoUpdateAll(&dm_imu) == DEVICE_OK) {
// osMessageQueueReset(task_runtime.msgq.chassis_imu); // 重置消息队列,防止阻塞
// chassis_imu_send.accl = dm_imu.data.accl;
// chassis_imu_send.gyro = dm_imu.data.gyro;
// chassis_imu_send.euler = dm_imu.data.euler;
// osMessageQueuePut(task_runtime.msgq.chassis_imu, &chassis_imu_send, 0, 0); // 非阻塞发送IMU数据
// }
/* USER CODE END */
osDelayUntil(tick); /* 运行结束,等待下一次唤醒 */
}

42
User/task/ctrl_chassis.c
View File

@ -9,6 +9,7 @@
#include "bsp/can.h"
#include "device/motor_lk.h"
#include "device/motor_lz.h"
#include "device/virtual_chassis.h"
#include "module/config.h"
#include "module/balance_chassis.h"
@ -30,7 +31,7 @@ Chassis_CMD_t chassis_cmd = {
.height = 0.0f,
};
Chassis_IMU_t chassis_imu;
Chassis_t chassis1;
Virtual_Chassis_t virtual_chassis; // 添加虚拟底盘设备
/* USER STRUCT END */
/* Private function --------------------------------------------------------- */
@ -49,15 +50,44 @@ void Task_ctrl_chassis(void *argument) {
Chassis_Init(&chassis, &Config_GetRobotParam()->chassis_param, CTRL_CHASSIS_FREQ);
// 初始化虚拟底盘设备
Virtual_Chassis_Init(&virtual_chassis, &Config_GetRobotParam()->virtual_chassis_param);
Virtual_Chassis_Enable(&virtual_chassis); // 使能虚拟底盘
/* USER CODE INIT END */
while (1) {
tick += delay_tick; /* 计算下一个唤醒时刻 */
/* USER CODE BEGIN */
if (osMessageQueueGet(task_runtime.msgq.chassis_imu, &chassis_imu, NULL, 0) == osOK) {
// 更新虚拟底盘数据
Virtual_Chassis_Update(&virtual_chassis);
// 从虚拟底盘获取IMU数据
Virtual_Chassis_IMUFeedback_t *virtual_imu = Virtual_Chassis_GetIMUFeedback(&virtual_chassis);
if (virtual_imu != NULL && virtual_imu->online) {
chassis_imu.accl = virtual_imu->accl;
chassis_imu.gyro = virtual_imu->gyro;
chassis_imu.euler = virtual_imu->euler;
chassis.feedback.imu = chassis_imu;
} else {
// 如果虚拟底盘IMU离线从消息队列获取IMU数据作为备用
if (osMessageQueueGet(task_runtime.msgq.chassis_imu, &chassis_imu, NULL, 0) == osOK) {
chassis.feedback.imu = chassis_imu;
}
}
// 从虚拟底盘获取关节电机数据
for (int i = 0; i < 4; i++) {
Virtual_Chassis_MotorFeedback_t *virtual_motor = Virtual_Chassis_GetMotorFeedback(&virtual_chassis, i);
if (virtual_motor != NULL && virtual_motor->online) {
// 将虚拟底盘的电机数据转换为底盘反馈格式
chassis.feedback.joint[i].rotor_abs_angle = virtual_motor->current_angle;
chassis.feedback.joint[i].rotor_speed = virtual_motor->current_velocity;
chassis.feedback.joint[i].torque_current = virtual_motor->current_torque;
chassis.feedback.joint[i].temp = 25.0f; // 默认温度
}
}
if (osMessageQueueGet(task_runtime.msgq.Chassis_cmd, &chassis_cmd, NULL, 0) == osOK) {
// 成功接收到命令,更新底盘命令
}
@ -65,6 +95,14 @@ void Task_ctrl_chassis(void *argument) {
Chassis_UpdateFeedback(&chassis);
Chassis_Control(&chassis, &chassis_cmd);
// 将控制输出发送给虚拟底盘
if (Virtual_Chassis_IsOnline(&virtual_chassis)) {
float torques[4];
for (int i = 0; i < 4; i++) {
torques[i] = chassis.output.joint[i].torque; // 从底盘控制输出获取力矩
}
// Virtual_Chassis_SendTorqueCommand(&virtual_chassis, torques);
}
/* USER CODE END */
osDelayUntil(tick); /* 运行结束,等待下一次唤醒 */

98
User/task/ctrl_virtual_chassis.c Normal file
View File

@ -0,0 +1,98 @@
/*
ctrl_virtual_chassis Task - 使
*/
/* Includes ----------------------------------------------------------------- */
#include "task/user_task.h"
/* USER INCLUDE BEGIN */
#include "device/virtual_chassis.h"
#include "module/config.h"
#include "bsp/time.h"
/* USER INCLUDE END */
/* Private typedef ---------------------------------------------------------- */
/* Private define ----------------------------------------------------------- */
/* Private macro ------------------------------------------------------------ */
/* Private variables -------------------------------------------------------- */
/* USER STRUCT BEGIN */
static Virtual_Chassis_t virtual_chassis;
static bool chassis_enabled = false;
static float test_torques[VIRTUAL_CHASSIS_MOTOR_COUNT] = {0.0f, 0.0f, 0.0f, 0.0f};
/* USER STRUCT END */
/* Private function --------------------------------------------------------- */
/* Exported functions ------------------------------------------------------- */
void Task_ctrl_virtual_chassis(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() / 100.0f; // 100Hz频率
osDelay(500); /* 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 */
// 初始化虚拟底盘
if (Virtual_Chassis_Init(&virtual_chassis, &Config_GetRobotParam()->virtual_chassis_param) != DEVICE_OK) {
// 初始化失败处理
return;
}
// 使能底盘电机
Virtual_Chassis_Enable(&virtual_chassis);
chassis_enabled = true;
/* USER CODE INIT END */
while (1) {
tick += delay_tick; /* 计算下一个唤醒时刻 */
/* USER CODE BEGIN */
// 更新虚拟底盘数据(接收反馈)
Virtual_Chassis_Update(&virtual_chassis);
// 检查设备在线状态
if (Virtual_Chassis_IsOnline(&virtual_chassis)) {
// 发送力矩控制命令(这里可以根据实际需要设置力矩值)
if (chassis_enabled) {
Virtual_Chassis_SendTorqueCommand(&virtual_chassis, test_torques);
}
// 获取电机反馈数据
for (int i = 0; i < VIRTUAL_CHASSIS_MOTOR_COUNT; i++) {
Virtual_Chassis_MotorFeedback_t *motor_fb = Virtual_Chassis_GetMotorFeedback(&virtual_chassis, i);
if (motor_fb != NULL && motor_fb->online) {
// 这里可以使用电机反馈数据
// 例如:发送到其他任务或用于控制算法
// motor_fb->current_angle, motor_fb->current_velocity, motor_fb->current_torque
}
}
// 获取IMU反馈数据
Virtual_Chassis_IMUFeedback_t *imu_fb = Virtual_Chassis_GetIMUFeedback(&virtual_chassis);
if (imu_fb != NULL && imu_fb->online) {
// 这里可以使用IMU数据替换原有的陀螺仪数据
// 例如:将数据发送给底盘控制任务
Chassis_IMU_t chassis_imu = {
.accl = imu_fb->accl,
.gyro = imu_fb->gyro,
.euler = imu_fb->euler,
};
// 发送IMU数据到底盘控制任务
osMessageQueuePut(task_runtime.msgq.chassis_imu, &chassis_imu, 0, 0);
}
} else {
// 设备离线,重新使能
if (chassis_enabled) {
Virtual_Chassis_Enable(&virtual_chassis);
}
}
/* USER CODE END */
osDelayUntil(tick); /* 运行结束,等待下一次唤醒 */
}
}