ardupilot/ArduCopter/motors.cpp

303 lines
9.2 KiB
C++

/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
#include "Copter.h"
#define ARM_DELAY 20 // called at 10hz so 2 seconds
#define DISARM_DELAY 20 // called at 10hz so 2 seconds
#define AUTO_TRIM_DELAY 100 // called at 10hz so 10 seconds
#define LOST_VEHICLE_DELAY 10 // called at 10hz so 1 second
static uint32_t auto_disarm_begin;
// arm_motors_check - checks for pilot input to arm or disarm the copter
// called at 10hz
void Copter::arm_motors_check()
{
static int16_t arming_counter;
// ensure throttle is down
if (channel_throttle->control_in > 0) {
arming_counter = 0;
return;
}
int16_t tmp = channel_yaw->control_in;
// full right
if (tmp > 4000) {
// increase the arming counter to a maximum of 1 beyond the auto trim counter
if( arming_counter <= AUTO_TRIM_DELAY ) {
arming_counter++;
}
// arm the motors and configure for flight
if (arming_counter == ARM_DELAY && !motors.armed()) {
// reset arming counter if arming fail
if (!init_arm_motors(false)) {
arming_counter = 0;
}
}
// arm the motors and configure for flight
if (arming_counter == AUTO_TRIM_DELAY && motors.armed() && control_mode == STABILIZE) {
auto_trim_counter = 250;
// ensure auto-disarm doesn't trigger immediately
auto_disarm_begin = millis();
}
// full left
}else if (tmp < -4000) {
if (!mode_has_manual_throttle(control_mode) && !ap.land_complete) {
arming_counter = 0;
return;
}
// increase the counter to a maximum of 1 beyond the disarm delay
if( arming_counter <= DISARM_DELAY ) {
arming_counter++;
}
// disarm the motors
if (arming_counter == DISARM_DELAY && motors.armed()) {
init_disarm_motors();
}
// Yaw is centered so reset arming counter
}else{
arming_counter = 0;
}
}
// auto_disarm_check - disarms the copter if it has been sitting on the ground in manual mode with throttle low for at least 15 seconds
void Copter::auto_disarm_check()
{
uint32_t tnow_ms = millis();
uint32_t disarm_delay_ms = 1000*constrain_int16(g.disarm_delay, 0, 127);
// exit immediately if we are already disarmed, or if auto
// disarming is disabled
if (!motors.armed() || disarm_delay_ms == 0) {
auto_disarm_begin = tnow_ms;
return;
}
#if FRAME_CONFIG == HELI_FRAME
// if the rotor is still spinning, don't initiate auto disarm
if (motors.rotor_speed_above_critical()) {
auto_disarm_begin = tnow_ms;
return;
}
#endif
// always allow auto disarm if using interlock switch or motors are Emergency Stopped
if ((ap.using_interlock && !motors.get_interlock()) || ap.motor_emergency_stop) {
#if FRAME_CONFIG != HELI_FRAME
// use a shorter delay if using throttle interlock switch or Emergency Stop, because it is less
// obvious the copter is armed as the motors will not be spinning
disarm_delay_ms /= 2;
#endif
} else {
bool sprung_throttle_stick = (g.throttle_behavior & THR_BEHAVE_FEEDBACK_FROM_MID_STICK) != 0;
bool thr_low;
if (mode_has_manual_throttle(control_mode) || !sprung_throttle_stick) {
thr_low = ap.throttle_zero;
} else {
float deadband_top = g.rc_3.get_control_mid() + g.throttle_deadzone;
thr_low = g.rc_3.control_in <= deadband_top;
}
if (!thr_low || !ap.land_complete) {
// reset timer
auto_disarm_begin = tnow_ms;
}
}
// disarm once timer expires
if ((tnow_ms-auto_disarm_begin) >= disarm_delay_ms) {
init_disarm_motors();
auto_disarm_begin = tnow_ms;
}
}
// init_arm_motors - performs arming process including initialisation of barometer and gyros
// returns false if arming failed because of pre-arm checks, arming checks or a gyro calibration failure
bool Copter::init_arm_motors(bool arming_from_gcs)
{
static bool in_arm_motors = false;
// exit immediately if already in this function
if (in_arm_motors) {
return false;
}
in_arm_motors = true;
// run pre-arm-checks and display failures
if (!all_arming_checks_passing(arming_from_gcs)) {
AP_Notify::events.arming_failed = true;
in_arm_motors = false;
return false;
}
// disable cpu failsafe because initialising everything takes a while
failsafe_disable();
// reset battery failsafe
set_failsafe_battery(false);
// notify that arming will occur (we do this early to give plenty of warning)
AP_Notify::flags.armed = true;
// call update_notify a few times to ensure the message gets out
for (uint8_t i=0; i<=10; i++) {
update_notify();
}
#if HIL_MODE != HIL_MODE_DISABLED || CONFIG_HAL_BOARD == HAL_BOARD_SITL
gcs_send_text(MAV_SEVERITY_INFO, "Arming motors");
#endif
// Remember Orientation
// --------------------
init_simple_bearing();
initial_armed_bearing = ahrs.yaw_sensor;
if (ap.home_state == HOME_UNSET) {
// Reset EKF altitude if home hasn't been set yet (we use EKF altitude as substitute for alt above home)
ahrs.resetHeightDatum();
Log_Write_Event(DATA_EKF_ALT_RESET);
} else if (ap.home_state == HOME_SET_NOT_LOCKED) {
// Reset home position if it has already been set before (but not locked)
set_home_to_current_location();
}
calc_distance_and_bearing();
// enable gps velocity based centrefugal force compensation
ahrs.set_correct_centrifugal(true);
hal.util->set_soft_armed(true);
#if SPRAYER == ENABLED
// turn off sprayer's test if on
sprayer.test_pump(false);
#endif
// short delay to allow reading of rc inputs
delay(30);
// enable output to motors
enable_motor_output();
// finally actually arm the motors
motors.armed(true);
// log arming to dataflash
Log_Write_Event(DATA_ARMED);
// log flight mode in case it was changed while vehicle was disarmed
DataFlash.Log_Write_Mode(control_mode);
// reenable failsafe
failsafe_enable();
// perf monitor ignores delay due to arming
perf_ignore_this_loop();
// flag exiting this function
in_arm_motors = false;
// return success
return true;
}
// init_disarm_motors - disarm motors
void Copter::init_disarm_motors()
{
// return immediately if we are already disarmed
if (!motors.armed()) {
return;
}
#if HIL_MODE != HIL_MODE_DISABLED || CONFIG_HAL_BOARD == HAL_BOARD_SITL
gcs_send_text(MAV_SEVERITY_INFO, "Disarming motors");
#endif
// save compass offsets learned by the EKF
Vector3f magOffsets;
if (ahrs.use_compass() && ahrs.getMagOffsets(magOffsets)) {
compass.set_and_save_offsets(compass.get_primary(), magOffsets);
}
#if AUTOTUNE_ENABLED == ENABLED
// save auto tuned parameters
autotune_save_tuning_gains();
#endif
// we are not in the air
set_land_complete(true);
set_land_complete_maybe(true);
// log disarm to the dataflash
Log_Write_Event(DATA_DISARMED);
// send disarm command to motors
motors.armed(false);
// reset the mission
mission.reset();
// suspend logging
if (!(g.log_bitmask & MASK_LOG_WHEN_DISARMED)) {
DataFlash.EnableWrites(false);
}
// disable gps velocity based centrefugal force compensation
ahrs.set_correct_centrifugal(false);
hal.util->set_soft_armed(false);
}
// motors_output - send output to motors library which will adjust and send to ESCs and servos
void Copter::motors_output()
{
// check if we are performing the motor test
if (ap.motor_test) {
motor_test_output();
} else {
if (!ap.using_interlock){
// if not using interlock switch, set according to Emergency Stop status
// where Emergency Stop is forced false during arming if Emergency Stop switch
// is not used. Interlock enabled means motors run, so we must
// invert motor_emergency_stop status for motors to run.
motors.set_interlock(!ap.motor_emergency_stop);
}
motors.output();
}
}
// check for pilot stick input to trigger lost vehicle alarm
void Copter::lost_vehicle_check()
{
static uint8_t soundalarm_counter;
// disable if aux switch is setup to vehicle alarm as the two could interfere
if (check_if_auxsw_mode_used(AUXSW_LOST_COPTER_SOUND)) {
return;
}
// ensure throttle is down, motors not armed, pitch and roll rc at max. Note: rc1=roll rc2=pitch
if (ap.throttle_zero && !motors.armed() && (channel_roll->control_in > 4000) && (channel_pitch->control_in > 4000)) {
if (soundalarm_counter >= LOST_VEHICLE_DELAY) {
if (AP_Notify::flags.vehicle_lost == false) {
AP_Notify::flags.vehicle_lost = true;
gcs_send_text(MAV_SEVERITY_NOTICE,"Locate Copter alarm");
}
} else {
soundalarm_counter++;
}
} else {
soundalarm_counter = 0;
if (AP_Notify::flags.vehicle_lost == true) {
AP_Notify::flags.vehicle_lost = false;
}
}
}