sentry_right/modules/motor/ECmotor/ECA8210.c

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2024-04-16 16:49:26 +08:00
//
// Created by SJQ on 2023/12/11.
//
#include "ECA8210.h"
ECMotor_Report_t ECMotor_Report;
ECMotor_SpdCMD_t ECMotor_SpdCMD;
ECMotor_PosCMD_t ECMotor_PosCMD;
static uint8_t idx;
static ECMotorInstance *ecmotor_instance[EC_MOTOR_MX_CNT] = {NULL};
static void swap ( uint8_t *a ,uint8_t *b )
{
uint8_t temp = *a;
*a = *b;
*b = temp;
}
/**
* @brief
*
* @param _instance caninstance
*/
static void ECMotorDecode(CANInstance *_instance)
{
ECMotorInstance *motor = (ECMotorInstance *)_instance->id; // 通过caninstance保存的father id获取对应的motorinstance
ECMotor_Measure_t *measure = &motor->measure;
uint8_t *rx_buff = _instance->rx_buff;
swap(rx_buff+1,rx_buff+2);// 输出端位置 高位在前
memcpy(&ECMotor_Report,rx_buff,sizeof(ECMotor_Report));
//高位在前 这两个12位数据需要做特殊处理
ECMotor_Report.speed_raw = (uint16_t)(rx_buff[3]<<4|(rx_buff[4]>>4));
ECMotor_Report.current_raw = (uint16_t)(rx_buff[4]<<8|(rx_buff[5]));
DaemonReload(motor->daemon); // 喂狗
measure->feed_dt = DWT_GetDeltaT(&measure->feed_dwt_cnt);
measure->angle_single_round = (float)(ECMotor_Report.angle_raw-32768) * 0.0003814697;
measure->speed_rads = (float)(ECMotor_Report.speed_raw-2048) * 0.008789;
measure->real_current = (float)(ECMotor_Report.current_raw-2048) * 0.014648;
measure->temperature = (ECMotor_Report.temperature_raw - 50) /2;
}
static void ECMotorLostCallback(void *motor_ptr)
{
ECMotorInstance *motor = (ECMotorInstance *)motor_ptr;
LOGWARNING("[ECMotor] motor lost, id: %d", motor->motor_can_ins->tx_id);
}
ECMotorInstance *ECMotorInit(Motor_Init_Config_s *config)
{
ECMotorInstance *motor = (ECMotorInstance *)malloc(sizeof(ECMotorInstance));
motor = (ECMotorInstance *)malloc(sizeof(ECMotorInstance));
memset(motor, 0, sizeof(ECMotorInstance));
motor->motor_settings = config->controller_setting_init_config;
PIDInit(&motor->current_PID, &config->controller_param_init_config.current_PID);
PIDInit(&motor->speed_PID, &config->controller_param_init_config.speed_PID);
PIDInit(&motor->angle_PID, &config->controller_param_init_config.angle_PID);
motor->other_angle_feedback_ptr = config->controller_param_init_config.other_angle_feedback_ptr;
motor->other_speed_feedback_ptr = config->controller_param_init_config.other_speed_feedback_ptr;
config->can_init_config.id = motor;
config->can_init_config.can_module_callback = ECMotorDecode;
config->can_init_config.rx_id = config->can_init_config.tx_id;
config->can_init_config.tx_id = config->can_init_config.tx_id;
motor->motor_can_ins = CANRegister(&config->can_init_config);
ECMotorEnable(motor);
DWT_GetDeltaT(&motor->measure.feed_dwt_cnt);
ecmotor_instance[idx++] = motor;
Daemon_Init_Config_s daemon_config = {
.callback = ECMotorLostCallback,
.owner_id = motor,
.reload_count = 5, // 50ms
};
motor->daemon = DaemonRegister(&daemon_config);
return motor;
}
void ECMotorControl()
{
float pid_measure, pid_ref;
int16_t set;
ECMotorInstance *motor;
ECMotor_Measure_t *measure;
Motor_Control_Setting_s *setting;
for (size_t i = 0; i < idx; ++i)
{
motor = ecmotor_instance[i];
measure = &motor->measure;
setting = &motor->motor_settings;
pid_ref = motor->pid_ref;
if ((setting->close_loop_type & ANGLE_LOOP) && setting->outer_loop_type == ANGLE_LOOP)
{
if (setting->angle_feedback_source == OTHER_FEED)
pid_measure = *motor->other_angle_feedback_ptr;
else
pid_measure = measure->real_current;
pid_ref = PIDCalculate(&motor->angle_PID, pid_measure, pid_ref);
if (setting->feedforward_flag & SPEED_FEEDFORWARD)
pid_ref += *motor->speed_feedforward_ptr;
}
if ((setting->close_loop_type & SPEED_LOOP) && setting->outer_loop_type & (ANGLE_LOOP | SPEED_LOOP))
{
if (setting->angle_feedback_source == OTHER_FEED)
pid_measure = *motor->other_speed_feedback_ptr;
else
pid_measure = measure->speed_rads;
pid_ref = PIDCalculate(&motor->angle_PID, pid_measure, pid_ref);
if (setting->feedforward_flag & CURRENT_FEEDFORWARD)
pid_ref += *motor->current_feedforward_ptr;
}
if (setting->close_loop_type & CURRENT_LOOP)
{
pid_ref = PIDCalculate(&motor->current_PID, measure->real_current, pid_ref);
}
set = pid_ref;
if (setting->motor_reverse_flag == MOTOR_DIRECTION_REVERSE)
set *= -1;
ECMotor_SpdCMD.mode = 0b010;
ECMotor_SpdCMD.reserve = 0b000;
ECMotor_SpdCMD.ack_type = 0b01;
ECMotor_SpdCMD.spd_target = set;
ECMotor_SpdCMD.max_current = 1000;
// 这里随便写的,为了兼容多电机命令.后续应该将tx_id以更好的方式表达电机id,单独使用一个CANInstance,而不是用第一个电机的CANInstance
//memcpy(sender_instance->tx_buff + (motor->motor_can_ins->tx_id - 0x280) * 2, &set, sizeof(uint16_t));
CANSetDLC(motor->motor_can_ins,7);
memcpy(motor->motor_can_ins->tx_buff,&ECMotor_SpdCMD,sizeof(ECMotor_SpdCMD));
//发送数据高位在前!! 交换一下顺序
swap(motor->motor_can_ins->tx_buff+1,motor->motor_can_ins->tx_buff+4);
swap(motor->motor_can_ins->tx_buff+2,motor->motor_can_ins->tx_buff+3);
swap(motor->motor_can_ins->tx_buff+5,motor->motor_can_ins->tx_buff+6);
//memcpy(motor->motor_can_ins->tx_buff+1,&ECMotor_SpdCMD.spd_target,sizeof(float32_t));
if (motor->stop_flag == MOTOR_STOP)
{ // 若该电机处于停止状态,直接将发送buff置零
memcpy(motor->motor_can_ins->tx_buff,0,sizeof(ECMotor_SpdCMD));
}
CANTransmit(motor->motor_can_ins,0.2);
}
}
void ECMotorStop(ECMotorInstance *motor)
{
motor->stop_flag = MOTOR_STOP;
}
void ECMotorEnable(ECMotorInstance *motor)
{
motor->stop_flag = MOTOR_ENALBED;
}
void ECMotorSetRef(ECMotorInstance *motor, float ref)
{
motor->pid_ref = ref;
}
uint8_t ECMotorIsOnline(ECMotorInstance *motor)
{
return DaemonIsOnline(motor->daemon);
}