add RunwayControl messge to pass wheel steering controls to wheel controller
Signed-off-by: Silvan Fuhrer <silvan@auterion.com>
Runway takeoff: specify that RWTO_TKOFF is directly applied during takeoff
Signed-off-by: Silvan Fuhrer <silvan@auterion.com>
msg/RateCtrlStatus: remove unused wheel_rate_integ field
The wheel rate controller is not run in the moduels that are now
running the MC/FW rate controllers, so thsi field canot be filled.
Signed-off-by: Silvan Fuhrer <silvan@auterion.com>
wheel rate controller: use speed scaler quadratically on integrator
Signed-off-by: Silvan Fuhrer <silvan@auterion.com>
wheel yaw controller: use a time constant of 0.1
Signed-off-by: Silvan Fuhrer <silvan@auterion.com>
FW Attitude Controller: lock heading setpoint for wheels to initial heading
Signed-off-by: Silvan Fuhrer <silvan@auterion.com>
Params that are used by FW Mode Manager
- FW NPFG: NPFG params, should be renamed to FW Lateral Control once moved to the lat/lon controller
- FW Auto Takeoff
- FW Auto Landing
Params used by Fw Lat/Long Controller:
- FW Lateral Control
- FW Longitudinal Control
Params used by both:
- FW General
Params used by Performance model:
- FW Performance (could be moerged with FW General?)
Signed-off-by: Silvan <silvan@auterion.com>
- split up old module into two, one handling setpoint generation, one control
- add lateral and longitudinal control setpoints topics that can also be
injected from companion computer
- add configuration topics that (optionally) configure the controller
with limits and momentary settings
Signed-off-by: RomanBapst <bapstroman@gmail.com>
It turns out that we set the ADC range incorrectly leading to the
measured current being capped at a certain level as the ADC on the
sensor saturates.
Instead, we need to set the range according to the formula given in the
interface datasheet.
* adis16507: enhance driver to handle and recover from all failure modes
- Clean up driver
- Add optional hardware reset
- Fix scale and range for 125 deg/s variant
- Handle communication errors when read returns zeroes
- Improved perf counters
* change prints to PX4_DEBUG, define BURST_READ_CMD, do both soft and hard reset, use ScheduleNow instead of 1ms delay, change read/write stall period to SPI_STALL value
* ZMO airframe: update parameters
Including some parameters we found useful during the tests over the
previous months:
- various controller & transition tuning refinements
- remove battery capacity (not reliable enough w battery degradation)
- airspeed scale
- rotor configs:
- remove everything related to rotors 3 and 4 (which don't exist)
- set moment coefficients explicitly even if at default
- Increase roll limit (FW_R_LIM, FD_FAIL_R)
- min and max airspeeds
- tilt servo min and default PWM values
* ZMO airframe: address review
- explicitly set CA_ROTOR3_* to 0 (as these are set in the parent
13100 which describes a quadrotor)
- remove ASPD_SCALE_1 (close enough to default, and better to have
slightly low reading)
- remove MPC_ACC_HOR_MAX (= default)
- remove MPC_TILTMAX_AIR (was temporary)
- remove SENS_EN_SF1XX (= default)
* ZMO airframe: update tilt setup
to describe a setup where tilt servos can provide yaw torque in both
directions in multicopter mode.
* ZMO airframe: wording