#include "dji.h" #include "TopDefine.h" #include "remote_control.h" #include "calc_lib.h" //可以在此完成电机pid初始化,以及电机的控制 //然后再去task里发送电机控制指令 //应该也可以在此发送电机指令 extern RC_mess_t RC_mess; //编码器数据 const motor_measure_t *motor_3508_data;//3508电机数据 pid_type_def speed_pid;//3508速度环pid结构体 pid_type_def angle_pid;//3508位置环pid结构体 //pid fp32 M3508_speed_PID[3]={50.0,0.3,0.0}; //P,I,D(速度环) fp32 M3508_angle_PID[3]={50.0,0.0,1.5}; //P,I,D(角度环) //速度环pid参数 fp32 M3508_PID[3]={4.9,0.01,0.0}; //trigger //编码器数据 const motor_measure_t *trigger_motor_data;//3508电机数据 pid_type_def t_speed_pid;//2006速度环pid结构体 pid_type_def t_angle_pid;//2006位置环pid结构体 fp32 M2006_speed_PID[3]={10.0,0.1,0.0}; //P,I,D(速度环) fp32 M2006_angle_PID[3]={5.0,0.0,0.05}; //P,I,D(角度环) //速度环pid参数 fp32 M2006_PID[3]={4.9,0.01,0.0}; int16_t t_result; //速度环 //can最后发送的数据 //GM6020电机数据 const motor_measure_t *GM6020_motor_data;//3508电机数据 //6020pid pid_type_def speed_6020_pid; pid_type_def angle_6020_pid; const fp32 PID_6020_angle[3] = {50, 0.1, 0}; const fp32 PID_6020_speed[3]={5,0.01,0}; void motor_init(void) { // motor_3508_data=get_motor_point(0); trigger_motor_data=get_2006_motor_point(0); GM6020_motor_data=get_6020_motor_point(0); PID_init(&t_speed_pid,PID_POSITION,M2006_speed_PID,1600,600); PID_init(&t_angle_pid,PID_POSITION,M2006_angle_PID,500,200); PID_init(&speed_6020_pid,PID_POSITION,PID_6020_speed,16000, 6000);//6020 pid初始化 PID_init(&angle_6020_pid,PID_POSITION,PID_6020_angle,5000, 2000); t_result=0; } void trigger_pos(fp32 angle) { int16_t delta[1]; delta[0]=PID_calc(&t_angle_pid,trigger_motor_data->total_angle,angle); t_result=PID_calc(&t_speed_pid,trigger_motor_data->speed_rpm,delta[0]); } //6020控制 void my_GM6020_control(fp32 angle) { fp32 angle_get; fp32 my_angle; int32_t M6020_speed; //6020串级 angle_get= angle; //外环角度环 my_angle=PID_calc(&angle_6020_pid,GM6020_motor_data->total_angle,angle_get);//角度环 //内环速度环 M6020_speed=PID_calc(&speed_6020_pid,GM6020_motor_data->speed_rpm, my_angle);//速度环 CAN_cmd_1FF(M6020_speed, M6020_speed, M6020_speed, M6020_speed,&hcan1); osDelay(2); }