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/// @file AP_MotorsHeli_Single.h
/// @brief Motor control class for traditional heli
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# pragma once
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# 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
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# include "AP_MotorsHeli.h"
# include "AP_MotorsHeli_RSC.h"
// rsc and aux function output channels
# define AP_MOTORS_HELI_SINGLE_RSC CH_8
# define AP_MOTORS_HELI_SINGLE_AUX CH_7
// servo position defaults
# define AP_MOTORS_HELI_SINGLE_SERVO1_POS -60
# define AP_MOTORS_HELI_SINGLE_SERVO2_POS 60
# define AP_MOTORS_HELI_SINGLE_SERVO3_POS 180
// swash type definitions
# define AP_MOTORS_HELI_SINGLE_SWASH_CCPM 0
# define AP_MOTORS_HELI_SINGLE_SWASH_H1 1
// tail types
# define AP_MOTORS_HELI_SINGLE_TAILTYPE_SERVO 0
# define AP_MOTORS_HELI_SINGLE_TAILTYPE_SERVO_EXTGYRO 1
# define AP_MOTORS_HELI_SINGLE_TAILTYPE_DIRECTDRIVE_VARPITCH 2
# define AP_MOTORS_HELI_SINGLE_TAILTYPE_DIRECTDRIVE_FIXEDPITCH 3
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// default direct-drive variable pitch tail defaults
# define AP_MOTORS_HELI_SINGLE_DDVPT_SPEED_DEFAULT 500
# define AP_MOTORS_HELI_SINGLE_DDVPT_RAMP_TIME 2
# define AP_MOTORS_HELI_SINGLE_DDVPT_RUNUP_TIME 3
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// default external gyro gain
# define AP_MOTORS_HELI_SINGLE_EXT_GYRO_GAIN 350
// COLYAW parameter min and max values
# define AP_MOTORS_HELI_SINGLE_COLYAW_RANGE 10.0f
/// @class AP_MotorsHeli_Single
class AP_MotorsHeli_Single : public AP_MotorsHeli {
public :
// constructor
AP_MotorsHeli_Single ( RC_Channel & servo_aux ,
uint16_t loop_rate ,
uint16_t speed_hz = AP_MOTORS_HELI_SPEED_DEFAULT ) :
AP_MotorsHeli ( loop_rate , speed_hz ) ,
_servo_aux ( servo_aux ) ,
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_main_rotor ( RC_Channel_aux : : k_heli_rsc , AP_MOTORS_HELI_SINGLE_RSC ) ,
_tail_rotor ( RC_Channel_aux : : k_heli_tail_rsc , AP_MOTORS_HELI_SINGLE_AUX ) ,
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_swash_servo_1 ( CH_NONE ) , _swash_servo_2 ( CH_NONE ) , _swash_servo_3 ( CH_NONE ) , _yaw_servo ( CH_NONE )
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{
AP_Param : : setup_object_defaults ( this , var_info ) ;
} ;
// set update rate to motors - a value in hertz
void set_update_rate ( uint16_t speed_hz ) ;
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// enable - starts allowing signals to be sent to motors and servos
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void enable ( ) ;
// output_test - spin a motor at the pwm value specified
// motor_seq is the motor's sequence number from 1 to the number of motors on the frame
// pwm value is an actual pwm value that will be output, normally in the range of 1000 ~ 2000
void output_test ( uint8_t motor_seq , int16_t pwm ) ;
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// set_desired_rotor_speed - sets target rotor speed as a number from 0 ~ 1
void set_desired_rotor_speed ( float desired_speed ) ;
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// get_main_rotor_speed - gets estimated or measured main rotor speed
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float get_main_rotor_speed ( ) const { return _main_rotor . get_rotor_speed ( ) ; }
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// get_desired_rotor_speed - gets target rotor speed as a number from 0 ~ 1
float get_desired_rotor_speed ( ) const { return _main_rotor . get_desired_speed ( ) ; }
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// rotor_speed_above_critical - return true if rotor speed is above that critical for flight
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bool rotor_speed_above_critical ( ) const { return _main_rotor . get_rotor_speed ( ) > _main_rotor . get_critical_speed ( ) ; }
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// calculate_scalars - recalculates various scalars used
void calculate_scalars ( ) ;
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// calculate_armed_scalars - recalculates scalars that can change while armed
void calculate_armed_scalars ( ) ;
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// get_motor_mask - returns a bitmask of which outputs are being used for motors or servos (1 means being used)
// this can be used to ensure other pwm outputs (i.e. for servos) do not conflict
uint16_t get_motor_mask ( ) ;
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// ext_gyro_gain - set external gyro gain in range 0 ~ 1
void ext_gyro_gain ( float gain ) { _ext_gyro_gain_std = gain * 1000.0f ; }
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// has_flybar - returns true if we have a mechical flybar
bool has_flybar ( ) const { return _flybar_mode ; }
// supports_yaw_passthrought - returns true if we support yaw passthrough
bool supports_yaw_passthrough ( ) const { return _tail_type = = AP_MOTORS_HELI_SINGLE_TAILTYPE_SERVO_EXTGYRO ; }
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void set_acro_tail ( bool set ) { _acro_tail = set ; }
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// parameter_check - returns true if helicopter specific parameters are sensible, used for pre-arm check
bool parameter_check ( bool display_msg ) const ;
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// var_info
static const struct AP_Param : : GroupInfo var_info [ ] ;
protected :
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// init_outputs - initialise Servo/PWM ranges and endpoints
void init_outputs ( ) ;
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// update_motor_controls - sends commands to motor controllers
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void update_motor_control ( RotorControlState state ) ;
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// calculate_roll_pitch_collective_factors - calculate factors based on swash type and servo position
void calculate_roll_pitch_collective_factors ( ) ;
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// heli_move_actuators - moves swash plate and tail rotor
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void move_actuators ( float roll_out , float pitch_out , float coll_in , float yaw_out ) ;
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// move_yaw - moves the yaw servo
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void move_yaw ( float yaw_out ) ;
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// write_aux - converts servo_out parameter value (0 to 1 range) to pwm and outputs to aux channel (ch7)
void write_aux ( float servo_out ) ;
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// servo_test - move servos through full range of movement
void servo_test ( ) ;
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// external objects we depend upon
RC_Channel & _servo_aux ; // output to ext gyro gain and tail direct drive esc (ch7)
AP_MotorsHeli_RSC _main_rotor ; // main rotor
AP_MotorsHeli_RSC _tail_rotor ; // tail rotor
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// internal variables
float _oscillate_angle = 0.0f ; // cyclic oscillation angle, used by servo_test function
float _servo_test_cycle_time = 0.0f ; // cycle time tracker, used by servo_test function
float _collective_test = 0.0f ; // over-ride for collective output, used by servo_test function
float _roll_test = 0.0f ; // over-ride for roll output, used by servo_test function
float _pitch_test = 0.0f ; // over-ride for pitch output, used by servo_test function
float _yaw_test = 0.0f ; // over-ride for yaw output, used by servo_test function
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// parameters
AP_Int16 _servo1_pos ; // Angular location of swash servo #1
AP_Int16 _servo2_pos ; // Angular location of swash servo #2
AP_Int16 _servo3_pos ; // Angular location of swash servo #3
AP_Int16 _tail_type ; // Tail type used: Servo, Servo with external gyro, direct drive variable pitch or direct drive fixed pitch
AP_Int8 _swash_type ; // Swash Type Setting - either 3-servo CCPM or H1 Mechanical Mixing
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AP_Int16 _ext_gyro_gain_std ; // PWM sent to external gyro on ch7 when tail type is Servo w/ ExtGyro
AP_Int16 _ext_gyro_gain_acro ; // PWM sent to external gyro on ch7 when tail type is Servo w/ ExtGyro in ACRO
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AP_Int16 _phase_angle ; // Phase angle correction for rotor head. If pitching the swash forward induces a roll, this can be correct the problem
AP_Float _collective_yaw_effect ; // Feed-forward compensation to automatically add rudder input when collective pitch is increased. Can be positive or negative depending on mechanics.
AP_Int8 _flybar_mode ; // Flybar present or not. Affects attitude controller used during ACRO flight mode
AP_Int16 _direct_drive_tailspeed ; // Direct Drive VarPitch Tail ESC speed (0 ~ 1000)
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RC_Channel _swash_servo_1 ; // swash plate servo #1
RC_Channel _swash_servo_2 ; // swash plate servo #2
RC_Channel _swash_servo_3 ; // swash plate servo #3
RC_Channel _yaw_servo ; // tail servo
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bool _acro_tail = false ;
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} ;