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- /// @file AP_Motors6DOF.h
- /// @brief Motor control class for ROVs with direct control over 6DOF (or fewer) in movement
- #pragma once
- #include <AP_Common/AP_Common.h>
- #include <AP_Math/AP_Math.h> // ArduPilot Mega Vector/Matrix math Library
- #include <RC_Channel/RC_Channel.h> // RC Channel Library
- #include "AP_MotorsMatrix.h"
- /// @class AP_MotorsMatrix
- class AP_Motors6DOF : public AP_MotorsMatrix {
- public:
- AP_Motors6DOF(uint16_t loop_rate, uint16_t speed_hz = AP_MOTORS_SPEED_DEFAULT) :
- AP_MotorsMatrix(loop_rate, speed_hz) {
- AP_Param::setup_object_defaults(this, var_info);
- _singleton = this;
- for (uint8_t i= 0; i < 6; i++)
- {
- motor_to_can[i]=0;
- }
- pwm_track[0] = 1500;
- pwm_track[1] = 1500;
- };
- // Supported frame types
- typedef enum {
- SUB_FRAME_BLUEROV1,
- SUB_FRAME_VECTORED,
- SUB_FRAME_VECTORED_6DOF,
- SUB_FRAME_VECTORED_6DOF_90DEG,
- SUB_FRAME_SIMPLEROV_3,
- SUB_FRAME_SIMPLEROV_4,
- SUB_FRAME_SIMPLEROV_5,
- SUB_FRAME_CUSTOM
- } sub_frame_t;
- //----------selfdefine start------------------------
- //---------------外部可以调用句柄--------------
- static AP_Motors6DOF *_singleton;
- static AP_Motors6DOF *get_singleton() {
- return _singleton;
- }
- int32_t motor_to_can[6];//发送给CAN的数据
- int16_t pwm_track[2];
- float last_thrust_in[AP_MOTORS_MAX_NUM_MOTORS];
- int32_t last_thrust_Dhot[AP_MOTORS_MAX_NUM_MOTORS];
- //----------selfdefine end------------------------
- // Override parent
- void setup_motors(motor_frame_class frame_class, motor_frame_type frame_type) override;
- // Override parent
- void output_min() override;
- // Map thrust input -1~1 to pwm output 1100~1900
- int16_t calc_thrust_to_pwm(float thrust_in) const;
-
- int32_t calc_thrust_to_motor(float thrust_in,int8_t i);
- void output_motor8_and_motor9(void);
- // output_to_motors - sends minimum values out to the motors
- void output_to_motors() override;
- void output_to_Dshot() override;//dshot赋值
- // This allows us to read back the output of the altidude controllers
- // The controllers are in charge of the throttle input, so this gives vehicle access/visibility to the output of those controllers
- float get_throttle_in_bidirectional() const { return constrain_float(2*(_throttle_in - 0.5f), -1.0f, 1.0f); }
-
- // returns a vector with roll, pitch, and yaw contributions
- Vector3f get_motor_angular_factors(int motor_number);
- // returns true if motor is enabled
- bool motor_is_enabled(int motor_number);
- bool set_reversed(int motor_number, bool reversed);
- // var_info for holding Parameter information
- static const struct AP_Param::GroupInfo var_info[];
- protected:
- // return current_limit as a number from 0 ~ 1 in the range throttle_min to throttle_max
- float get_current_limit_max_throttle() override;
- //Override MotorsMatrix method
- void add_motor_raw_6dof(int8_t motor_num, float roll_fac, float pitch_fac, float yaw_fac, float climb_fac, float forward_fac, float lat_fac, uint8_t testing_order);
- void output_armed_stabilizing() override;
- void output_armed_stabilizing_vectored();
- void output_armed_stabilizing_vectored_6dof();
- // Parameters
- AP_Int8 _motor_reverse[AP_MOTORS_MAX_NUM_MOTORS];
- AP_Float _forwardVerticalCouplingFactor;
- float _throttle_factor[AP_MOTORS_MAX_NUM_MOTORS]; // each motors contribution to throttle (climb/descent)
- float _forward_factor[AP_MOTORS_MAX_NUM_MOTORS]; // each motors contribution to forward/backward
- float _lateral_factor[AP_MOTORS_MAX_NUM_MOTORS]; // each motors contribution to lateral (left/right)
- // current limiting
- float _output_limited = 1.0f;
- float _batt_current_last = 0.0f;
- };
- namespace AP {
- AP_Motors6DOF &motors6dof();
- };
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