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#pragma once
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include "../../../hal/zhal.hpp"
#include "../basic/tmc_ic_interface.hpp"
extern "C" {#include "TMC5130\TMC5130.h"
}namespace iflytop {#define TMC5130_LISTENER_MAX 5
/**
* @brief * * 注意事项: * 1. 速度单位 * velocity的单位是:p/t * t = 2^24/fin (fin为外接时钟,当时钟频率为16MHz时,t = 1.048576s) * 此时 ppt约等于pps * * 参考TMC5130A_datasheet_rev1.20%20(1)%20(3).pdf 38页 蓝框中的字 * * 2. 芯片复位方法 * reset(); 复位芯片,同时会将芯片的寄存器设置为默认值。一般情况下不需要用户主动调用该方法,因为在初始化时会自动调用该方法。 * */
class Tmc5130RampStat { public: uint32_t m_state; // 参考TMC5130A_datasheet_rev1.20%20(1).pdf 40页
typedef enum { /**
* @brief * R :只读 * R+C:只读,但读后会自动清零 */ ktmc5130_rs_stopl = TMC5130_RS_STOPL, // (R )
ktmc5130_rs_stopr = TMC5130_RS_STOPR, // (R )
ktmc5130_rs_latchl = TMC5130_RS_LATCHL, // (R+C)
ktmc5130_rs_latchr = TMC5130_RS_LATCHR, // (R+C)
ktmc5130_rs_ev_stopl = TMC5130_RS_EV_STOPL, // (R )
ktmc5130_rs_ev_stopr = TMC5130_RS_EV_STOPR, // (R )
ktmc5130_rs_ev_stop_sg = TMC5130_RS_EV_STOP_SG, // (R+C)
ktmc5130_rs_ev_posreached = TMC5130_RS_EV_POSREACHED, // (R+C)
ktmc5130_rs_velreached = TMC5130_RS_VELREACHED, // (R )
ktmc5130_rs_posreached = TMC5130_RS_POSREACHED, // (R ) 是否到达目标位置
ktmc5130_rs_vzero = TMC5130_RS_VZERO, // (R )
ktmc5130_rs_zerowait = TMC5130_RS_ZEROWAIT, // (R )
ktmc5130_rs_secondmove = TMC5130_RS_SECONDMOVE, // (R+C)
ktmc5130_rs_sg = TMC5130_RS_SG, // (R )
} ramp_stat_bit_t;
Tmc5130RampStat(uint32_t state) : m_state(state) {} bool isSetted(ramp_stat_bit_t bit) { return (m_state & bit) != 0; }};
class TMC5130 : public IStepperMotor { public: typedef struct { SPI_HandleTypeDef *hspi; Pin_t enn_pin; Pin_t csn_pin; } cfg_t;
protected: // TMC5130Port *m_port;
// TMC5130Config_t *m_config;
cfg_t m_cfg;
ZGPIO *m_csnpin; ZGPIO *m_ennpin; SPI_HandleTypeDef *m_hspi;
// uint8_t m_channel;
uint32_t m_lastCallPeriodicJobTick; int32_t m_shadowRegister[TMC_REGISTER_COUNT];
const uint8_t *m_registerAccessTable; const int32_t *m_defaultRegisterResetState;
public: TMC5130(/* args */);
// static void createDeafultTMC5130Config(TMC5130Config_t *config, TMC5130Port *m_port);
void initialize(cfg_t *cfg);
void enableIC(bool enable); uint8_t reset();
/*******************************************************************************
* 常用寄存器读写方法 * *******************************************************************************/
uint32_t readChipVERSION(); // 5130:0x11
virtual int32_t getXACTUAL(); // 读取电机当前位置,与编码器的位置值不同,该值是电机在不丢步的情况下的位置
virtual void setXACTUAL(int32_t value); // 设置电机当前位置,与编码器的位置值不同,该值是电机在不丢步的情况下的位置
virtual int32_t getVACTUAL(); // 读取电机当前位置,与编码器的位置值不同,该值是电机在不丢步的情况下的位置
uint32_t readXTARGET(); // 读取驱动器目标位置
virtual int32_t getENC_POS() { return 0; } // TODO impl it
virtual void setENC_POS(int32_t value) {} // TODO impl it
virtual void setAcceleration(float accelerationpps2); virtual void setDeceleration(float accelerationpps2);
void setIHOLD_IRUN(uint8_t ihold, uint8_t irun, uint16_t iholddelay);
void setMotorShaft(bool reverse); // 设置电机旋转方向
uint32_t getTMC5130_RAMPSTAT(); // 这个寄存器读取的是TMC5130的状态寄存器
Tmc5130RampStat getTMC5130_RAMPSTAT2();
virtual void rotate(int32_t velocity); virtual void right(int32_t velocity); virtual void left(int32_t velocity);
virtual void moveTo(int32_t position, uint32_t velocityMax); virtual void moveBy(int32_t relativePosition, uint32_t velocityMax);
virtual void stop(); virtual bool isReachTarget(); // 是否到达目标位置
/*******************************************************************************
* 驱动器寄存器读写方法 * *******************************************************************************/ void writeSubRegister(uint8_t address, uint32_t mask, uint32_t shift, uint32_t value); void readWriteArray(uint8_t *data, size_t length); void writeDatagram(uint8_t address, uint8_t x1, uint8_t x2, uint8_t x3, uint8_t x4); void writeInt(uint8_t address, int32_t value); int32_t readInt(uint8_t address);
private: uint32_t haspassedms(uint32_t now, uint32_t last);};} // namespace iflytop
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