mirror of https://github.com/ArduPilot/ardupilot
205 lines
6.5 KiB
Plaintext
205 lines
6.5 KiB
Plaintext
// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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// Function that will read the radio data, limit servos and trigger a failsafe
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// ----------------------------------------------------------------------------
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static void default_dead_zones()
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{
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g.rc_1.set_default_dead_zone(30);
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g.rc_2.set_default_dead_zone(30);
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#if FRAME_CONFIG == HELI_FRAME
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g.rc_3.set_default_dead_zone(10);
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g.rc_4.set_default_dead_zone(15);
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g.rc_8.set_default_dead_zone(10);
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#else
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g.rc_3.set_default_dead_zone(30);
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g.rc_4.set_default_dead_zone(40);
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#endif
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g.rc_6.set_default_dead_zone(0);
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}
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static void init_rc_in()
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{
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// set rc channel ranges
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g.rc_1.set_angle(ROLL_PITCH_INPUT_MAX);
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g.rc_2.set_angle(ROLL_PITCH_INPUT_MAX);
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g.rc_3.set_range(g.throttle_min, g.throttle_max);
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g.rc_4.set_angle(4500);
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g.rc_1.set_type(RC_CHANNEL_TYPE_ANGLE_RAW);
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g.rc_2.set_type(RC_CHANNEL_TYPE_ANGLE_RAW);
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g.rc_4.set_type(RC_CHANNEL_TYPE_ANGLE_RAW);
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//set auxiliary servo ranges
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g.rc_5.set_range(0,1000);
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g.rc_6.set_range(0,1000);
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g.rc_7.set_range(0,1000);
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g.rc_8.set_range(0,1000);
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// set default dead zones
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default_dead_zones();
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// initialise throttle_zero flag
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ap.throttle_zero = true;
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}
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// init_rc_out -- initialise motors and check if pilot wants to perform ESC calibration
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static void init_rc_out()
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{
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motors.set_update_rate(g.rc_speed);
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motors.set_frame_orientation(g.frame_orientation);
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motors.Init(); // motor initialisation
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motors.set_min_throttle(g.throttle_min);
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for(uint8_t i = 0; i < 5; i++) {
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delay(20);
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read_radio();
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}
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// we want the input to be scaled correctly
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g.rc_3.set_range_out(0,1000);
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// check if we should enter esc calibration mode
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esc_calibration_startup_check();
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// enable output to motors
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pre_arm_rc_checks();
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if (ap.pre_arm_rc_check) {
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output_min();
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}
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// setup correct scaling for ESCs like the UAVCAN PX4ESC which
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// take a proportion of speed. Note: this assumes rc_3 is
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// throttle and should really use rcmap.
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hal.rcout->set_esc_scaling(g.rc_3.radio_min, g.rc_3.radio_max);
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}
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// output_min - enable and output lowest possible value to motors
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void output_min()
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{
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// enable motors
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motors.enable();
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motors.output_min();
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}
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static void read_radio()
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{
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static uint32_t last_update_ms = 0;
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uint32_t tnow_ms = millis();
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if (hal.rcin->new_input()) {
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last_update_ms = tnow_ms;
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ap.new_radio_frame = true;
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uint16_t periods[8];
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hal.rcin->read(periods,8);
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g.rc_1.set_pwm(periods[rcmap.roll()-1]);
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g.rc_2.set_pwm(periods[rcmap.pitch()-1]);
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set_throttle_and_failsafe(periods[rcmap.throttle()-1]);
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set_throttle_zero_flag(g.rc_3.control_in);
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g.rc_4.set_pwm(periods[rcmap.yaw()-1]);
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g.rc_5.set_pwm(periods[4]);
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g.rc_6.set_pwm(periods[5]);
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g.rc_7.set_pwm(periods[6]);
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g.rc_8.set_pwm(periods[7]);
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// read channels 9 ~ 14
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for (uint8_t i=8; i<RC_MAX_CHANNELS; i++) {
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if (RC_Channel::rc_channel(i) != NULL) {
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RC_Channel::rc_channel(i)->set_pwm(RC_Channel::rc_channel(i)->read());
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}
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}
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// flag we must have an rc receiver attached
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if (!failsafe.rc_override_active) {
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ap.rc_receiver_present = true;
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}
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// update output on any aux channels, for manual passthru
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RC_Channel_aux::output_ch_all();
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}else{
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uint32_t elapsed = tnow_ms - last_update_ms;
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// turn on throttle failsafe if no update from the RC Radio for 500ms or 2000ms if we are using RC_OVERRIDE
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if (((!failsafe.rc_override_active && (elapsed >= FS_RADIO_TIMEOUT_MS)) || (failsafe.rc_override_active && (elapsed >= FS_RADIO_RC_OVERRIDE_TIMEOUT_MS))) &&
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(g.failsafe_throttle && (ap.rc_receiver_present||motors.armed()) && !failsafe.radio)) {
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Log_Write_Error(ERROR_SUBSYSTEM_RADIO, ERROR_CODE_RADIO_LATE_FRAME);
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set_failsafe_radio(true);
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}
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}
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}
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#define FS_COUNTER 3 // radio failsafe kicks in after 3 consecutive throttle values below failsafe_throttle_value
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static void set_throttle_and_failsafe(uint16_t throttle_pwm)
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{
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// if failsafe not enabled pass through throttle and exit
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if(g.failsafe_throttle == FS_THR_DISABLED) {
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g.rc_3.set_pwm(throttle_pwm);
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return;
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}
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//check for low throttle value
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if (throttle_pwm < (uint16_t)g.failsafe_throttle_value) {
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// if we are already in failsafe or motors not armed pass through throttle and exit
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if (failsafe.radio || !(ap.rc_receiver_present || motors.armed())) {
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g.rc_3.set_pwm(throttle_pwm);
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return;
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}
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// check for 3 low throttle values
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// Note: we do not pass through the low throttle until 3 low throttle values are recieved
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failsafe.radio_counter++;
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if( failsafe.radio_counter >= FS_COUNTER ) {
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failsafe.radio_counter = FS_COUNTER; // check to ensure we don't overflow the counter
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set_failsafe_radio(true);
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g.rc_3.set_pwm(throttle_pwm); // pass through failsafe throttle
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}
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}else{
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// we have a good throttle so reduce failsafe counter
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failsafe.radio_counter--;
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if( failsafe.radio_counter <= 0 ) {
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failsafe.radio_counter = 0; // check to ensure we don't underflow the counter
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// disengage failsafe after three (nearly) consecutive valid throttle values
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if (failsafe.radio) {
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set_failsafe_radio(false);
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}
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}
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// pass through throttle
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g.rc_3.set_pwm(throttle_pwm);
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}
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}
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#define THROTTLE_ZERO_DEBOUNCE_TIME_MS 400
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// set_throttle_zero_flag - set throttle_zero flag from debounced throttle control_in
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static void set_throttle_zero_flag(int16_t throttle_control)
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{
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static uint32_t last_nonzero_throttle_ms = 0;
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uint32_t tnow_ms = millis();
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// if non-zero throttle immediately set as non-zero
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if (throttle_control > 0) {
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last_nonzero_throttle_ms = tnow_ms;
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ap.throttle_zero = false;
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} else if (tnow_ms - last_nonzero_throttle_ms > THROTTLE_ZERO_DEBOUNCE_TIME_MS) {
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ap.throttle_zero = true;
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}
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}
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static void trim_radio()
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{
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for (uint8_t i = 0; i < 30; i++) {
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read_radio();
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}
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g.rc_1.trim(); // roll
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g.rc_2.trim(); // pitch
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g.rc_4.trim(); // yaw
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g.rc_1.save_eeprom();
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g.rc_2.save_eeprom();
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g.rc_4.save_eeprom();
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}
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