R2_UP/User/Module/up.c

#include "up.h"
#include "gpio.h"
#include "user_math.h"
#include "bsp_buzzer.h"
#include "bsp_delay.h"

#define GEAR_RATIO_2006         (36)   // 2006减速比
#define GEAR_RATIO_3508         (19)

#define CAN_MOTOR_ENC_RES  8191   // 编码器分辨率
#define MOTOR2006_ECD_TO_ANGLE  (360.0 / 8191.0 / (GEAR_RATIO_2006))   //2006编码值转轴角度
#define MOTOR3508_ECD_TO_ANGLE  (360.0 / 8191.0 / (GEAR_RATIO_3508))   //3508编码值转轴角度

/*投球*/
#define M2006_INIT_ANGLE        (-120) //初始和发射
#define GO1_INIT_POSITION        (0)   //go初始

#define M2006_TRIGGER           (0)    //扳机
#define GO_POSITION_TRIGGER       (-300)  //go发射控制值
#define GO_POSITION_PITCH_FD    (-4.8f) //反馈检测


/*运球*/

#define M3508_INIT_ANGLE           (0)    //3508
#define GO2_INIT_ANGLE             (0)    //go2的初始角度
#define M3508_HIGH_ANGLE           (900)    //3508，升起角度
#define GO2_Flip_timing            (200)   // go的翻转时机，以3508角度反馈值为准
#define GO2_Flip_ANGLE            (-160)     //go2翻转角度
#define BALL_REL_TIME               (-1.2)     //球放开时机，以go的反馈值为准
// 定义继电器控制
#define RELAY1_TOGGLE(state) HAL_GPIO_WritePin(GPIOE, GPIO_PIN_9, (state) ? GPIO_PIN_SET : GPIO_PIN_RESET)
#define RELAY2_TOGGLE(state) HAL_GPIO_WritePin(GPIOE, GPIO_PIN_11, (state) ? GPIO_PIN_SET : GPIO_PIN_RESET)

int8_t up_init(UP_t *u,const UP_Param_t *param,float target_freq)
{
	u->param = param; 	/*初始化参数 */
	/*go电机初始化*/
	GO_M8010_init();
	/*pid初始化*/
	PID_init (&u->pid.VESC_5065_M1 ,PID_POSITION ,&(u->param ->VESC_5065_M1_param  ));
	PID_init (&u->pid.VESC_5065_M2 ,PID_POSITION ,&(u->param ->VESC_5065_M2_param ));

	PID_init (&u->pid .M2006_angle ,PID_POSITION ,&(u->param->M2006_angle_param  ));
	PID_init (&u->pid .M2006_speed ,PID_POSITION ,&(u->param->M2006_speed_param ));
	
	PID_init (&u->pid .M3508_angle ,PID_POSITION ,&(u->param->M3508_angle_param  ));
	PID_init (&u->pid .M3508_speed ,PID_POSITION ,&(u->param->M3508_speed_param ));
	
	PID_init (&u->pid .GM6020_speed,PID_POSITION ,&(u->param ->UP_GM6020_speed_param ));
	PID_init (&u->pid .GM6020_angle,PID_POSITION ,&(u->param ->UP_GM6020_angle_param ));
		

	for(int i=0;i<2;i++){		 //go初始位置设置为0 
	    GO_M8010_send_data(BSP_UART_GetHandle(BSP_UART_RS485), i,u->param->go_param[i] .rev ,u->param->go_param[i] .T ,u->param->go_param[i] .W ,0,u->param->go_param [i].K_P ,u->param->go_param[i] .K_W );		
	}

	
    // 初始化状态机
	if (!u->DribbleContext .is_initialized) { //检查是否为第一次运行状态机
		  u->DribbleContext .DribbleConfig = u->param ->DribbleConfig_Config ;//赋值
      u->DribbleContext .DribbleState  = STATE_GRAB_BALL;  //状态更新,开始夹球
      u->DribbleContext .is_initialized = 1;
    }




}

/*can，上层状态更新*/
int8_t UP_UpdateFeedback(UP_t *u, const CAN_t *can, CMD_t *c) {
		for(int i=0;i<2;i++){		     //go初始位置设置为0 
	  u->motorfeedback .GO_motor_info [i] = getGoPoint(i);
	}
	
	u->motorfeedback .M2006 .motor =M2006;
	u->motorfeedback .M3508 .motor =M3508;

	u->motorfeedback .VESC_5065_M1_rpm =can ->motor .chassis5065 .as_array [0].rotor_speed ;
	u->motorfeedback .VESC_5065_M2_rpm =can ->motor .chassis5065 .as_array [1].rotor_speed ;

	u->motorfeedback .rotor_pit6020ecd =can ->motor .chassis6020.as_array [2].rotor_ecd ;
	u->motorfeedback .rotor_pit6020rpm =can ->motor .chassis6020.as_array [2].rotor_speed  ;
	
	for(int i=0;i<4;i++){
	u->motorfeedback .M3508_rpm[i] =can ->motor .motor3508 .as_array [i].rotor_speed ;
	u->motorfeedback .M3508_angle [i]=can ->motor .motor3508 .as_array [i].rotor_ecd ;
	}
	
	u->cmd =c;
	
	return 0;
}



/*上层电机控制,使用can1的id1和2*/
int8_t UP_angle_control(UP_t *u, fp32 target_angle,MotorType_t motor) {
    // 获取当前编码器角度
	int8_t cnt=0;
	fp32 angle ,delta;

	switch(motor)
	{
		case M2006 :  			
    angle = u->motorfeedback.M3508_angle[0]; 
    if (u->motorfeedback .M2006 .init_cnt < 50) {
        u->motorfeedback .M2006.orig_angle = angle;    // 记录初始编码器值
        u->motorfeedback .M2006.last_angle = angle;    
			
        u->motorfeedback .M2006.init_cnt++;            // 初始化计数器递增
        return 0;                       
    }
		
		    delta = angle - u->motorfeedback .M2006.last_angle;
	    	delta = angle - u->motorfeedback .M2006.last_angle;
    if (delta > 4096) {
        u->motorfeedback .M2006.round_cnt--;           // 逆时针跨圈
    } else if (delta < -4096) {
        u->motorfeedback .M2006.round_cnt++;           // 顺时针跨圈
    }
        u->motorfeedback.M2006.last_angle = angle;
		    // 计算总角度
    float total_angle = (u->motorfeedback.M2006 .round_cnt * 8191 + (angle - u->motorfeedback.M2006.orig_angle)) * MOTOR2006_ECD_TO_ANGLE;
    u->motorfeedback.M2006.total_angle =total_angle;
    
    float delta_angle = PID_calc(&u->pid.M2006_angle, total_angle, target_angle);
    float delta_speed = PID_calc(&u->pid.M2006_speed, u->motorfeedback.M3508_rpm [0], delta_angle);
    u->motor_target.M2006_angle = target_angle;
    u->final_out .final_3508out [0] =delta_speed;

		break ;
		
		case M3508 : 
			
    angle = u->motorfeedback.M3508_angle[1]; 
    if (u->motorfeedback .M3508 .init_cnt < 50) {
        u->motorfeedback .M3508.orig_angle = angle;    // 记录初始编码器值
        u->motorfeedback .M3508.last_angle = angle;    
			
        u->motorfeedback .M3508.init_cnt++;            // 初始化计数器递增
        return 0;                       
    }
		
		    delta = angle - u->motorfeedback .M3508.last_angle;
	    	delta = angle - u->motorfeedback .M3508.last_angle;
    if (delta > 4096) {
        u->motorfeedback .M3508.round_cnt--;           // 逆时针跨圈
    } else if (delta < -4096) {
        u->motorfeedback .M3508.round_cnt++;           // 顺时针跨圈
    }
        u->motorfeedback.M3508.last_angle = angle;
		    // 计算总角度
     total_angle = (u->motorfeedback.M3508 .round_cnt * 8191 + (angle - u->motorfeedback.M3508.orig_angle)) * MOTOR2006_ECD_TO_ANGLE; 
    u->motorfeedback.M3508.total_angle =total_angle;
    
     delta_angle = PID_calc(&u->pid.M3508_angle , total_angle, target_angle);
     delta_speed = PID_calc(&u->pid.M3508_speed , u->motorfeedback.M3508_rpm [1], delta_angle);
		
    u->motor_target.M3508_angle  = target_angle;
    u->final_out .final_3508out[1] =delta_speed;

		break ;  

	}
    return 0;
}

//int8_t UP_M3508_speed(UP_t *u,fp32 speed)
//{
//	u->motor_target .M3508_speed [] =speed;
//	for(int i=0;i<3;i++){
//	    u->final_out .final_3508out [i] =
//	        PID_calc (&(u->pid .M3508_speed[i] ),u->motorfeedback .M3508_speed [i],speed );	
//	}
//	
//}


int8_t VESC_M5065_Control(UP_t *u,fp32 speed)
{
	u->motor_target .VESC_5065_M1_rpm =speed;
	u->motor_target .VESC_5065_M2_rpm =speed;
	
	u->final_out .final_VESC_5065_M1out =-u->motor_target .VESC_5065_M1_rpm;
  u->final_out .final_VESC_5065_M2out =u->motor_target .VESC_5065_M2_rpm;
	
	
}


int8_t GM6020_control(UP_t *u,fp32 angle)
{	
	fp32 delat_speed;
//	Clip(&angle,90,270);

	delat_speed =
	PID_calc (&(u->pid .GM6020_angle ),u->motorfeedback .rotor_pit6020ecd ,(angle /360*8191));
	u->final_out .final_pitchout =
	PID_calc (&(u->pid .GM6020_speed  ),u->motorfeedback.rotor_pit6020rpm ,delat_speed);
	u->motor_target .rotor_pit6020angle =angle ;
}

/*go电机控制*/
int8_t GO_SendData(UP_t *u,int id,float pos)
{
	
	 GO_M8010_send_data(BSP_UART_GetHandle(BSP_UART_RS485), id,u->param->go_param[id] .rev ,u->param->go_param[id] .T ,u->param->go_param[id] .W ,AngleChange(RADIAN,pos),u->param->go_param [id].K_P ,u->param->go_param[id] .K_W );

}



int8_t ALL_Motor_Control(UP_t *u,CAN_Output_t *out)
{
	//电机控制	，传进can
	
	UP_angle_control(u,u->motor_target .M2006_angle ,M2006);
	UP_angle_control(u,u->motor_target .M3508_angle ,M3508 );
	
	

		GO_SendData(u,0 ,u->motor_target .go_shoot );
	GO_SendData(u,1 ,u->motor_target .go_spin);

	
	for(int i=0;i<4;i++){
	out ->motor3508 .as_array[i]=u->final_out.final_3508out [i] ;
	}
	
	out ->chassis5065 .erpm [0]=  u->final_out .final_VESC_5065_M1out ;
	out ->chassis5065 .erpm [1]=  -u->final_out .final_VESC_5065_M2out ;
	out ->chassis6020 .as_array [2]=u->final_out .final_pitchout ;
	
	
	
}






























int8_t UP_control(UP_t *u,CAN_Output_t *out,CMD_t *c)
{
	
	if(u ==NULL)  return 0;
	if(u ==NULL)  return 0;
	
    switch (c->CMD_CtrlType  )
	{
	case UP_RCcontrol:  //在手动模式下
		
   switch (c->CMD_UP_mode ) 
			{
				
				case Normal :
         
				u->Oper_control_state .Pitch_flag  =Not_started_Pit;
				u->Oper_control_state .last_state = Not_started_Pit;

				u->motor_target .go_shoot =0;
				u->motor_target .M2006_angle =M2006_INIT_ANGLE;
				u->motor_target .go_spin =u->DribbleContext.DribbleConfig .go2_init_angle ;
				u->motor_target .M3508_angle =0;
				      u->DribbleContext .DribbleState  = STATE_GRAB_BALL;  //状态更新,开始夹球

      	RELAY1_TOGGLE (1);//接球，1开0关
      	RELAY2_TOGGLE (1);//夹球，0关1开
    				
				
				break;
				
				case Pitch_pull :
				 if(u->Oper_control_state .last_state == Not_started_Pit)					 
				 {


					 		u->motor_target .go_shoot =-2050;
			       	u->motor_target .M2006_angle =-140;

					 if(u->motorfeedback .GO_motor_info[0]->Pos < (-35.20)) //到达位置后再扣扳机
					 		u->motor_target .go_shoot =GO_POSITION_TRIGGER;

					 if(u->motorfeedback .GO_motor_info[0]->Pos < (GO_POSITION_PITCH_FD)) //到达位置后再扣扳机
					 { 
						  u->motor_target .M2006_angle =0;
					   if(u->motorfeedback .M2006.total_angle>-5)	
						 {//避免没勾上就拉
							 u->motor_target .go_shoot =GO1_INIT_POSITION;
							 u->Oper_control_state .Pitch_flag = Launch_Ready ;
					     u->Oper_control_state .last_state = Launch_Ready;

						 }
						 
					 }
				 }

				 break ;
			  case Pitch_shoot :
         if (u->Oper_control_state .last_state == Launch_Ready)
				 {
 
			       	u->motor_target .M2006_angle =M2006_INIT_ANGLE;
							u->Oper_control_state .Pitch_flag = Done_Pit ;
					    u->Oper_control_state .last_state = Done_Pit;
					 
				 }
				 {	 

				 }
				 break;
				 
				 
				 
				 
				 
				 
				 
				 
				 
		case Dribble:
		{
			/*夹球 -> 3508 升起 ，同时go2翻转 -> 到位置后，继电器开，放球，同时3508降，go2翻回->接球，收		*/
			Dribble_Process(u,out);
			
		}break ;
						









					
		
			}
			break;
						
	
	default:
		break;
	}

			
			


	
}


int8_t Dribble_Process(UP_t *u, CAN_Output_t *out)
{
    
    switch (u->DribbleContext.DribbleState) {
    case STATE_GRAB_BALL://开始
			
			RELAY2_TOGGLE (0);//夹球
		
			u->motor_target.M3508_angle =u->DribbleContext .DribbleConfig .m3508_high_angle;//3508升起
			u->motor_target.go_spin     =u->DribbleContext .DribbleConfig .go2_flip_angle;

		
		if((u->motorfeedback .M3508 .total_angle >400)) {
				RELAY1_TOGGLE (0); 
		

		if((u->motorfeedback.GO_motor_info[1]->angle) <-53){

				u->DribbleContext .DribbleState  = STATE_RELEASE_BALL;  //当go2到标准位置，标志位改变		
			}
		
		}
      break;


    case STATE_RELEASE_BALL:
				RELAY2_TOGGLE (1);//松球

		
		
		
		if((u->motorfeedback.GO_motor_info[1]->angle) <-60){
				u->motor_target.go_spin     =u->DribbleContext .DribbleConfig .go2_init_angle ; //恢复go2位置	
      	u->DribbleContext .DribbleState  = STATE_CATCH_PREP;  //当go2到标准位置，标志位改变		

			}

        break;

    case STATE_CATCH_PREP:
			if((u->motorfeedback.GO_motor_info[1]->angle) > -0){
				u->motor_target.M3508_angle =u->DribbleContext .DribbleConfig .m3508_init_angle ;  //当go2到初始位置，3508降       
		
			  RELAY1_TOGGLE (1);//接球
			}
			if(u->motorfeedback .M3508 .total_angle <5){
			  u->DribbleContext .DribbleState  = STATE_CATCH_DONE;
			}
        break;

    case STATE_CATCH_DONE:
				RELAY2_TOGGLE (1);//松球
			  RELAY1_TOGGLE (0); 
			

        break;

    default:
        break;
    }

    return 0;
}