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/// @file AP_MotorsHeli.h
/// @brief Motor control class for Traditional Heli
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# pragma once
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# include <inttypes.h>
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# include <AP_Common/AP_Common.h>
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# include <AP_Math/AP_Math.h> // ArduPilot Mega Vector/Matrix math Library
# include <RC_Channel/RC_Channel.h> // RC Channel Library
# include "AP_Motors_Class.h"
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# include "AP_MotorsHeli_RSC.h"
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// maximum number of swashplate servos
# define AP_MOTORS_HELI_NUM_SWASHPLATE_SERVOS 3
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// servo output rates
# define AP_MOTORS_HELI_SPEED_DEFAULT 125 // default servo update rate for helicopters
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// default swash min and max angles and positions
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# define AP_MOTORS_HELI_SWASH_CYCLIC_MAX 2500
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# define AP_MOTORS_HELI_COLLECTIVE_MIN 1250
# define AP_MOTORS_HELI_COLLECTIVE_MAX 1750
# define AP_MOTORS_HELI_COLLECTIVE_MID 1500
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// swash min while landed or landing (as a number from 0 ~ 1000
# define AP_MOTORS_HELI_LAND_COLLECTIVE_MIN 0
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// default main rotor speed (ch8 out) as a number from 0 ~ 1000
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# define AP_MOTORS_HELI_RSC_SETPOINT 700
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// default main rotor critical speed
# define AP_MOTORS_HELI_RSC_CRITICAL 500
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// RSC output defaults
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# define AP_MOTORS_HELI_RSC_IDLE_DEFAULT 0
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# define AP_MOTORS_HELI_RSC_POWER_LOW_DEFAULT 200
# define AP_MOTORS_HELI_RSC_POWER_HIGH_DEFAULT 700
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// default main rotor ramp up time in seconds
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# define AP_MOTORS_HELI_RSC_RAMP_TIME 1 // 1 second to ramp output to main rotor ESC to full power (most people use exterrnal govenors so we can ramp up quickly)
# define AP_MOTORS_HELI_RSC_RUNUP_TIME 10 // 10 seconds for rotor to reach full speed
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// flybar types
# define AP_MOTORS_HELI_NOFLYBAR 0
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class AP_HeliControls ;
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/// @class AP_MotorsHeli
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class AP_MotorsHeli : public AP_Motors {
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public :
/// Constructor
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AP_MotorsHeli ( uint16_t loop_rate ,
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uint16_t speed_hz = AP_MOTORS_HELI_SPEED_DEFAULT ) :
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AP_Motors ( loop_rate , speed_hz )
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{
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AP_Param : : setup_object_defaults ( this , var_info ) ;
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// initialise flags
_heliflags . landing_collective = 0 ;
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_heliflags . rotor_runup_complete = 0 ;
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} ;
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// init
void Init ( ) ;
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// set update rate to motors - a value in hertz
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virtual void set_update_rate ( uint16_t speed_hz ) = 0 ;
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// enable - starts allowing signals to be sent to motors
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virtual void enable ( ) = 0 ;
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// output_min - sets servos to neutral point with motors stopped
void output_min ( ) ;
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// 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
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virtual void output_test ( uint8_t motor_seq , int16_t pwm ) = 0 ;
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//
// heli specific methods
//
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// parameter_check - returns true if helicopter specific parameters are sensible, used for pre-arm check
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virtual bool parameter_check ( bool display_msg ) const ;
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// has_flybar - returns true if we have a mechical flybar
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virtual bool has_flybar ( ) const { return AP_MOTORS_HELI_NOFLYBAR ; }
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// set_collective_for_landing - limits collective from going too low if we know we are landed
void set_collective_for_landing ( bool landing ) { _heliflags . landing_collective = landing ; }
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// get_rsc_mode - gets the rotor speed control method (AP_MOTORS_HELI_RSC_MODE_CH8_PASSTHROUGH or AP_MOTORS_HELI_RSC_MODE_SETPOINT)
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uint8_t get_rsc_mode ( ) const { return _rsc_mode ; }
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// get_rsc_setpoint - gets contents of _rsc_setpoint parameter (0~1)
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float get_rsc_setpoint ( ) const { return _rsc_setpoint / 1000.0f ; }
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// set_desired_rotor_speed - sets target rotor speed as a number from 0 ~ 1
virtual void set_desired_rotor_speed ( float desired_speed ) = 0 ;
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// get_desired_rotor_speed - gets target rotor speed as a number from 0 ~ 1
virtual float get_desired_rotor_speed ( ) const = 0 ;
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// get_main_rotor_speed - gets estimated or measured main rotor speed
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virtual float get_main_rotor_speed ( ) const = 0 ;
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// return true if the main rotor is up to speed
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bool rotor_runup_complete ( ) const { return _heliflags . rotor_runup_complete ; }
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// rotor_speed_above_critical - return true if rotor speed is above that critical for flight
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virtual bool rotor_speed_above_critical ( ) const = 0 ;
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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
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virtual uint16_t get_motor_mask ( ) = 0 ;
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// output - sends commands to the motors
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void output ( ) ;
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// supports_yaw_passthrough
virtual bool supports_yaw_passthrough ( ) const { return false ; }
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float get_throttle_hover ( ) const { return 0.5f ; }
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// var_info for holding Parameter information
static const struct AP_Param : : GroupInfo var_info [ ] ;
protected :
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// manual servo modes (used for setup)
enum ServoControlModes {
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SERVO_CONTROL_MODE_AUTOMATED = 0 ,
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SERVO_CONTROL_MODE_MANUAL_PASSTHROUGH ,
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SERVO_CONTROL_MODE_MANUAL_MAX ,
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SERVO_CONTROL_MODE_MANUAL_CENTER ,
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SERVO_CONTROL_MODE_MANUAL_MIN ,
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SERVO_CONTROL_MODE_MANUAL_OSCILLATE ,
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} ;
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// output - sends commands to the motors
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void output_armed_stabilizing ( ) ;
void output_armed_zero_throttle ( ) ;
void output_disarmed ( ) ;
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// update_motor_controls - sends commands to motor controllers
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virtual void update_motor_control ( RotorControlState state ) = 0 ;
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// reset_flight_controls - resets all controls and scalars to flight status
void reset_flight_controls ( ) ;
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// update the throttle input filter
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void update_throttle_filter ( ) ;
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// move_actuators - moves swash plate and tail rotor
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virtual void move_actuators ( float roll_out , float pitch_out , float coll_in , float yaw_out ) = 0 ;
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// reset_swash_servo - free up swash servo for maximum movement
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void reset_swash_servo ( RC_Channel & servo ) ;
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// init_outputs - initialise Servo/PWM ranges and endpoints
virtual void init_outputs ( ) = 0 ;
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// calculate_armed_scalars - must be implemented by child classes
virtual void calculate_armed_scalars ( ) = 0 ;
// calculate_scalars - must be implemented by child classes
virtual void calculate_scalars ( ) = 0 ;
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// calculate_roll_pitch_collective_factors - calculate factors based on swash type and servo position
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virtual void calculate_roll_pitch_collective_factors ( ) = 0 ;
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// servo_test - move servos through full range of movement
// to be overloaded by child classes, different vehicle types would have different movement patterns
virtual void servo_test ( ) = 0 ;
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// flags bitmask
struct heliflags_type {
uint8_t landing_collective : 1 ; // true if collective is setup for landing which has much higher minimum
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uint8_t rotor_runup_complete : 1 ; // true if the rotors have had enough time to wind up
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} _heliflags ;
// parameters
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AP_Int16 _cyclic_max ; // Maximum cyclic angle of the swash plate in centi-degrees
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AP_Int16 _collective_min ; // Lowest possible servo position for the swashplate
AP_Int16 _collective_max ; // Highest possible servo position for the swashplate
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AP_Int16 _collective_mid ; // Swash servo position corresponding to zero collective pitch (or zero lift for Asymmetrical blades)
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AP_Int8 _servo_mode ; // Pass radio inputs directly to servos during set-up through mission planner
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AP_Int16 _rsc_setpoint ; // rotor speed when RSC mode is set to is enabledv
AP_Int8 _rsc_mode ; // Which main rotor ESC control mode is active
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AP_Int8 _rsc_ramp_time ; // Time in seconds for the output to the main rotor's ESC to reach full speed
AP_Int8 _rsc_runup_time ; // Time in seconds for the main rotor to reach full speed. Must be longer than _rsc_ramp_time
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AP_Int16 _land_collective_min ; // Minimum collective when landed or landing
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AP_Int16 _rsc_critical ; // Rotor speed below which flight is not possible
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AP_Int16 _rsc_idle_output ; // Rotor control output while at idle
AP_Int16 _rsc_power_low ; // throttle value sent to throttle servo at zero collective pitch
AP_Int16 _rsc_power_high ; // throttle value sent to throttle servo at maximum collective pitch
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AP_Int16 _rsc_power_negc ; // throttle value sent to throttle servo at full negative collective pitch
AP_Int16 _rsc_slewrate ; // throttle slew rate (percentage per second)
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AP_Int8 _servo_test ; // sets number of cycles to test servo movement on bootup
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// internal variables
float _rollFactor [ AP_MOTORS_HELI_NUM_SWASHPLATE_SERVOS ] ;
float _pitchFactor [ AP_MOTORS_HELI_NUM_SWASHPLATE_SERVOS ] ;
float _collectiveFactor [ AP_MOTORS_HELI_NUM_SWASHPLATE_SERVOS ] ;
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float _collective_mid_pct = 0.0f ; // collective mid parameter value converted to 0 ~ 1 range
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uint8_t _servo_test_cycle_counter = 0 ; // number of test cycles left to run after bootup
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} ;