#!nsh # # Flight startup script for PX4FMU+PX4IO # # disable USB and autostart set USB no set MODE custom # # Load default params for this platform # if param compare SYS_AUTOCONFIG 1 then # Set all params here, then disable autoconfig param set SYS_AUTOCONFIG 0 param set MC_ATTRATE_D 0.005 param set MC_ATTRATE_I 0.0 param set MC_ATTRATE_P 0.1 param set MC_ATT_D 0.0 param set MC_ATT_I 0.0 param set MC_ATT_P 4.5 param set MC_RCLOSS_THR 0.0 param set MC_YAWPOS_D 0.0 param set MC_YAWPOS_I 0.3 param set MC_YAWPOS_P 0.6 param set MC_YAWRATE_D 0.0 param set MC_YAWRATE_I 0.0 param set MC_YAWRATE_P 0.1 param save /fs/microsd/params fi # # Force some key parameters to sane values # MAV_TYPE 1 = fixed wing, 2 = quadrotor, 13 = hexarotor # see https://pixhawk.ethz.ch/mavlink/ # param set MAV_TYPE 2 # # Start MAVLink (depends on orb) # mavlink start usleep 5000 # # Start PX4IO interface (depends on orb, commander) # px4io start pwm -u 400 -m 0xff # # Allow PX4IO to recover from midair restarts. # this is very unlikely, but quite safe and robust. px4io recovery # # This sets a PWM right after startup (regardless of safety button) # px4io idle 900 900 900 900 # # The values are for spinning motors when armed using DJI ESCs # px4io min 1200 1200 1200 1200 # # Upper limits could be higher, this is on the safe side # px4io max 1800 1800 1800 1800 mixer load /dev/pwm_output /etc/mixers/FMU_quad_x.mix # # Start the sensors (depends on orb, px4io) # sh /etc/init.d/rc.sensors # # Start the commander (depends on orb, mavlink) # commander start # # Start GPS interface (depends on orb) # gps start # # Start the attitude estimator (depends on orb) # attitude_estimator_ekf start multirotor_att_control start # # Disable px4io topic limiting and start logging # if [ $BOARD == fmuv1 ] then px4io limit 200 sdlog2 start -r 50 -a -b 16 if blinkm start then blinkm systemstate fi else px4io limit 400 sdlog2 start -r 100 -a -b 16 if rgbled start then #rgbled systemstate fi fi