2017-08-26 08:53:53 -03:00
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/*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <stdlib.h>
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#include <AP_HAL/AP_HAL.h>
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2019-08-07 23:52:17 -03:00
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#include <GCS_MAVLink/GCS.h>
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2017-08-26 08:53:53 -03:00
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#include "AP_MotorsHeli_Quad.h"
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extern const AP_HAL::HAL& hal;
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const AP_Param::GroupInfo AP_MotorsHeli_Quad::var_info[] = {
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AP_NESTEDGROUPINFO(AP_MotorsHeli, 0),
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2018-01-22 23:58:52 -04:00
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// Indices 1-3 were used by RSC_PWM_MIN, RSC_PWM_MAX and RSC_PWM_REV and should not be used
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2017-08-26 08:53:53 -03:00
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AP_GROUPEND
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};
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2018-07-11 16:33:00 -03:00
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#define QUAD_SERVO_MAX_ANGLE 4500
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2017-08-26 08:53:53 -03:00
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// set update rate to motors - a value in hertz
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void AP_MotorsHeli_Quad::set_update_rate( uint16_t speed_hz )
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{
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// record requested speed
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_speed_hz = speed_hz;
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// setup fast channels
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uint32_t mask = 0;
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for (uint8_t i=0; i<AP_MOTORS_HELI_QUAD_NUM_MOTORS; i++) {
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mask |= 1U << (AP_MOTORS_MOT_1+i);
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}
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rc_set_freq(mask, _speed_hz);
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}
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// init_outputs
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2023-06-30 15:32:10 -03:00
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void AP_MotorsHeli_Quad::init_outputs()
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2017-08-26 08:53:53 -03:00
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{
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2019-05-03 02:27:09 -03:00
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if (initialised_ok()) {
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2023-06-30 15:32:10 -03:00
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return;
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2017-08-26 08:53:53 -03:00
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}
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for (uint8_t i=0; i<AP_MOTORS_HELI_QUAD_NUM_MOTORS; i++) {
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2018-07-11 16:33:00 -03:00
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add_motor_num(CH_1+i);
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SRV_Channels::set_angle(SRV_Channels::get_motor_function(i), QUAD_SERVO_MAX_ANGLE);
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2017-08-26 08:53:53 -03:00
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}
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2018-03-23 01:09:14 -03:00
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2017-08-26 08:53:53 -03:00
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// set rotor servo range
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2019-08-07 23:52:17 -03:00
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_main_rotor.init_servo();
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2017-08-26 08:53:53 -03:00
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2022-05-11 09:36:39 -03:00
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set_initialised_ok(_frame_class == MOTOR_FRAME_HELI_QUAD);
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2017-08-26 08:53:53 -03:00
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}
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// calculate_armed_scalars
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void AP_MotorsHeli_Quad::calculate_armed_scalars()
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{
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2019-02-14 20:28:48 -04:00
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// Set rsc mode specific parameters
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2021-01-20 17:09:07 -04:00
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if (_main_rotor._rsc_mode.get() == ROTOR_CONTROL_MODE_THROTTLECURVE || _main_rotor._rsc_mode.get() == ROTOR_CONTROL_MODE_AUTOTHROTTLE) {
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2019-08-07 23:52:17 -03:00
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_main_rotor.set_throttle_curve();
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}
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// keeps user from changing RSC mode while armed
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if (_main_rotor._rsc_mode.get() != _main_rotor.get_control_mode()) {
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_main_rotor.reset_rsc_mode_param();
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_heliflags.save_rsc_mode = true;
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}
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// saves rsc mode parameter when disarmed if it had been reset while armed
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2019-05-03 02:27:09 -03:00
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if (_heliflags.save_rsc_mode && !armed()) {
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2019-08-07 23:52:17 -03:00
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_main_rotor._rsc_mode.save();
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_heliflags.save_rsc_mode = false;
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2019-02-14 20:28:48 -04:00
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}
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2017-08-26 08:53:53 -03:00
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}
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// calculate_scalars
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void AP_MotorsHeli_Quad::calculate_scalars()
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{
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// range check collective min, max and mid
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if( _collective_min >= _collective_max ) {
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2022-07-05 00:08:56 -03:00
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_collective_min.set(AP_MOTORS_HELI_COLLECTIVE_MIN);
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_collective_max.set(AP_MOTORS_HELI_COLLECTIVE_MAX);
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2017-08-26 08:53:53 -03:00
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}
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2022-07-05 00:08:56 -03:00
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_collective_zero_thrust_deg.set(constrain_float(_collective_zero_thrust_deg, _collective_min_deg, _collective_max_deg));
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2017-08-26 08:53:53 -03:00
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2022-07-05 00:08:56 -03:00
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_collective_land_min_deg.set(constrain_float(_collective_land_min_deg, _collective_min_deg, _collective_max_deg));
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2021-10-21 19:03:36 -03:00
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2021-10-25 23:25:59 -03:00
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if (!is_equal((float)_collective_max_deg, (float)_collective_min_deg)) {
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// calculate collective zero thrust point as a number from 0 to 1
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2021-10-29 09:43:52 -03:00
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_collective_zero_thrust_pct = (_collective_zero_thrust_deg-_collective_min_deg)/(_collective_max_deg-_collective_min_deg);
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2021-10-25 23:25:59 -03:00
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// calculate collective land min point as a number from 0 to 1
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_collective_land_min_pct = (_collective_land_min_deg-_collective_min_deg)/(_collective_max_deg-_collective_min_deg);
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} else {
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2021-10-29 09:43:52 -03:00
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_collective_zero_thrust_pct = 0.0f;
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2021-10-25 23:25:59 -03:00
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_collective_land_min_pct = 0.0f;
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}
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2017-08-26 08:53:53 -03:00
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// calculate factors based on swash type and servo position
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calculate_roll_pitch_collective_factors();
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// set mode of main rotor controller and trigger recalculation of scalars
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2019-08-07 23:52:17 -03:00
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_main_rotor.set_control_mode(static_cast<RotorControlMode>(_main_rotor._rsc_mode.get()));
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2017-08-26 08:53:53 -03:00
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calculate_armed_scalars();
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}
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// calculate_swash_factors - calculate factors based on swash type and servo position
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void AP_MotorsHeli_Quad::calculate_roll_pitch_collective_factors()
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{
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// assume X quad layout, with motors at 45, 135, 225 and 315 degrees
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2024-03-08 05:21:49 -04:00
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// order FrontRight, RearLeft, FrontLeft, RearRight
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2017-08-26 08:53:53 -03:00
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const float angles[AP_MOTORS_HELI_QUAD_NUM_MOTORS] = { 45, 225, 315, 135 };
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2017-09-30 03:30:02 -03:00
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const bool x_clockwise[AP_MOTORS_HELI_QUAD_NUM_MOTORS] = { false, false, true, true };
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2017-08-26 08:53:53 -03:00
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const float cos45 = cosf(radians(45));
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2018-03-23 01:09:14 -03:00
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2017-08-26 08:53:53 -03:00
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for (uint8_t i=0; i<AP_MOTORS_HELI_QUAD_NUM_MOTORS; i++) {
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2017-09-30 03:30:02 -03:00
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bool clockwise = x_clockwise[i];
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if (_frame_type == MOTOR_FRAME_TYPE_H) {
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// reverse yaw for H frame
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clockwise = !clockwise;
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}
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2020-01-23 23:05:24 -04:00
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_rollFactor[CH_1+i] = -0.25*sinf(radians(angles[i]))/cos45;
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_pitchFactor[CH_1+i] = 0.25*cosf(radians(angles[i]))/cos45;
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_yawFactor[CH_1+i] = clockwise?-0.25:0.25;
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2017-08-26 08:53:53 -03:00
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_collectiveFactor[CH_1+i] = 1;
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}
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}
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// update_motor_controls - sends commands to motor controllers
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2023-12-12 22:52:56 -04:00
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void AP_MotorsHeli_Quad::update_motor_control(AP_MotorsHeli_RSC::RotorControlState state)
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2017-08-26 08:53:53 -03:00
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{
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// Send state update to motors
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2019-08-07 23:52:17 -03:00
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_main_rotor.output(state);
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2017-08-26 08:53:53 -03:00
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2023-12-12 22:52:56 -04:00
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if (state == AP_MotorsHeli_RSC::RotorControlState::STOP) {
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2017-08-26 08:53:53 -03:00
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// set engine run enable aux output to not run position to kill engine when disarmed
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2019-11-24 21:52:18 -04:00
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SRV_Channels::set_output_limit(SRV_Channel::k_engine_run_enable, SRV_Channel::Limit::MIN);
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2017-08-26 08:53:53 -03:00
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} else {
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// else if armed, set engine run enable output to run position
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2019-11-24 21:52:18 -04:00
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SRV_Channels::set_output_limit(SRV_Channel::k_engine_run_enable, SRV_Channel::Limit::MAX);
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2017-08-26 08:53:53 -03:00
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}
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// Check if rotors are run-up
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2024-02-26 19:11:07 -04:00
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set_rotor_runup_complete(_main_rotor.is_runup_complete());
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2021-12-05 19:57:05 -04:00
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// Check if rotors are spooled down
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_heliflags.rotor_spooldown_complete = _main_rotor.is_spooldown_complete();
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2017-08-26 08:53:53 -03:00
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}
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//
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// move_actuators - moves swash plate to attitude of parameters passed in
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// - expected ranges:
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// roll : -1 ~ +1
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// pitch: -1 ~ +1
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// collective: 0 ~ 1
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// yaw: -1 ~ +1
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//
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void AP_MotorsHeli_Quad::move_actuators(float roll_out, float pitch_out, float collective_in, float yaw_out)
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{
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// initialize limits flag
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limit.throttle_lower = false;
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limit.throttle_upper = false;
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// constrain collective input
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float collective_out = collective_in;
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if (collective_out <= 0.0f) {
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collective_out = 0.0f;
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limit.throttle_lower = true;
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}
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if (collective_out >= 1.0f) {
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collective_out = 1.0f;
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limit.throttle_upper = true;
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}
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// ensure not below landed/landing collective
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2021-10-21 19:03:36 -03:00
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if (_heliflags.landing_collective && collective_out < _collective_land_min_pct) {
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collective_out = _collective_land_min_pct;
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2017-08-26 08:53:53 -03:00
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limit.throttle_lower = true;
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}
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2021-10-29 09:43:52 -03:00
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// updates below land min collective flag
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2021-10-21 19:03:36 -03:00
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if (collective_out <= _collective_land_min_pct) {
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2021-10-29 09:43:52 -03:00
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_heliflags.below_land_min_coll = true;
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2020-12-20 17:42:06 -04:00
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} else {
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2021-10-29 09:43:52 -03:00
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_heliflags.below_land_min_coll = false;
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2020-12-20 17:42:06 -04:00
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}
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2020-12-01 17:35:45 -04:00
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// updates takeoff collective flag based on 50% hover collective
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update_takeoff_collective_flag(collective_out);
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2020-11-15 19:32:31 -04:00
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2020-01-23 23:05:24 -04:00
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float collective_range = (_collective_max - _collective_min) * 0.001f;
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2017-08-27 22:34:37 -03:00
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2017-08-26 08:53:53 -03:00
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// feed power estimate into main rotor controller
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2019-08-07 23:52:17 -03:00
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_main_rotor.set_collective(fabsf(collective_out));
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2017-08-26 08:53:53 -03:00
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2020-01-23 23:05:24 -04:00
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// rescale collective for overhead calc
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2021-10-29 09:43:52 -03:00
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collective_out -= _collective_zero_thrust_pct;
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2017-08-26 08:53:53 -03:00
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2017-08-27 22:34:37 -03:00
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// reserve some collective for attitude control
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collective_out *= collective_range;
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2017-08-26 08:53:53 -03:00
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for (uint8_t i=0; i<AP_MOTORS_HELI_QUAD_NUM_MOTORS; i++) {
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2018-12-28 02:32:05 -04:00
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_out[i] =
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2017-08-26 08:53:53 -03:00
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_rollFactor[CH_1+i] * roll_out +
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_pitchFactor[CH_1+i] * pitch_out +
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_collectiveFactor[CH_1+i] * collective_out;
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}
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2017-09-15 22:11:12 -03:00
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// see if we need to scale down yaw_out
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for (uint8_t i=0; i<AP_MOTORS_HELI_QUAD_NUM_MOTORS; i++) {
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float y = _yawFactor[CH_1+i] * yaw_out;
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2020-01-23 23:05:24 -04:00
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if (_out[i] < 0.0f) {
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2017-09-15 22:11:12 -03:00
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// the slope of the yaw effect changes at zero collective
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y = -y;
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}
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2020-01-23 23:05:24 -04:00
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if (_out[i] * (_out[i] + y) < 0.0f) {
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2017-09-15 22:11:12 -03:00
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// applying this yaw demand would change the sign of the
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// collective, which means the yaw would not be applied
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// evenly. We scale down the overall yaw demand to prevent
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// it crossing over zero
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2018-12-28 02:32:05 -04:00
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float s = -(_out[i] / y);
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2017-09-15 22:11:12 -03:00
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yaw_out *= s;
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}
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}
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// now apply the yaw correction
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for (uint8_t i=0; i<AP_MOTORS_HELI_QUAD_NUM_MOTORS; i++) {
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float y = _yawFactor[CH_1+i] * yaw_out;
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2020-01-23 23:05:24 -04:00
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if (_out[i] < 0.0f) {
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2017-09-15 22:11:12 -03:00
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// the slope of the yaw effect changes at zero collective
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y = -y;
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}
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2018-12-28 02:32:05 -04:00
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_out[i] += y;
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}
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2020-01-23 23:05:24 -04:00
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for (uint8_t i=0; i<AP_MOTORS_HELI_QUAD_NUM_MOTORS; i++) {
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// scale output to 0 to 1
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2021-10-29 09:43:52 -03:00
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_out[i] += _collective_zero_thrust_pct;
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2020-01-23 23:05:24 -04:00
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// scale output to -1 to 1 for servo output
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_out[i] = _out[i] * 2.0f - 1.0f;
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}
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2018-12-28 02:32:05 -04:00
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}
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void AP_MotorsHeli_Quad::output_to_motors()
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{
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2019-05-03 02:27:09 -03:00
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if (!initialised_ok()) {
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2018-12-28 02:32:05 -04:00
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return;
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2017-09-15 22:11:12 -03:00
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}
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2018-03-23 01:09:14 -03:00
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2017-08-26 08:53:53 -03:00
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// move the servos
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for (uint8_t i=0; i<AP_MOTORS_HELI_QUAD_NUM_MOTORS; i++) {
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2018-12-28 02:32:05 -04:00
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rc_write_angle(AP_MOTORS_MOT_1+i, _out[i] * QUAD_SERVO_MAX_ANGLE);
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2017-08-26 08:53:53 -03:00
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}
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2023-12-12 23:06:29 -04:00
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update_motor_control(get_rotor_control_state());
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2018-12-28 02:32:05 -04:00
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}
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2017-08-26 08:53:53 -03:00
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// servo_test - move servos through full range of movement
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void AP_MotorsHeli_Quad::servo_test()
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{
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// not implemented
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}
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2024-08-06 11:59:17 -03:00
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#if HAL_LOGGING_ENABLED
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// heli motors logging - called at 10 Hz
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void AP_MotorsHeli_Quad::Log_Write(void)
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{
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_main_rotor.write_log();
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}
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#endif
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