3
1
9
Speed controller bandwidth
Speed controller bandwidth, in Hz. Higher values result in faster speed and current rise times, but may result in overshoot and higher current consumption. For fixed-wing aircraft, this value should be less than 50 Hz; for multirotors, values up to 100 Hz may provide improvements in responsiveness.
Hertz
10
250
Reverse direction
Motor spin direction as detected during initial enumeration. Use 0 or 1 to reverse direction.
0
1
Speed (RPM) controller gain
Speed (RPM) controller gain. Determines controller
aggressiveness; units are amp-seconds per radian. Systems with
higher rotational inertia (large props) will need gain increased;
systems with low rotational inertia (small props) may need gain
decreased. Higher values result in faster response, but may result
in oscillation and excessive overshoot. Lower values result in a
slower, smoother response.
amp-seconds per radian
3
0.00
1.00
Idle speed (e Hz)
Idle speed (e Hz)
Hertz
3
0.0
100.0
Spin-up rate (e Hz/s)
Spin-up rate (e Hz/s)
Hz/s
5
1000
Index of this ESC in throttle command messages.
Index of this ESC in throttle command messages.
Index
0
15
Extended status ID
Extended status ID
1
1000000
Extended status interval (µs)
Extended status interval (µs)
µs
0
1000000
ESC status interval (µs)
ESC status interval (µs)
µs
1000000
Motor current limit in amps
Motor current limit in amps. This determines the maximum
current controller setpoint, as well as the maximum allowable
current setpoint slew rate. This value should generally be set to
the continuous current rating listed in the motor’s specification
sheet, or set equal to the motor’s specified continuous power
divided by the motor voltage limit.
Amps
3
1
80
Motor Kv in RPM per volt
Motor Kv in RPM per volt. This can be taken from the motor’s
specification sheet; accuracy will help control performance but
some deviation from the specified value is acceptable.
RPM/v
0
4000
READ ONLY: Motor inductance in henries.
READ ONLY: Motor inductance in henries. This is measured on start-up.
henries
3
Number of motor poles.
Number of motor poles. Used to convert mechanical speeds to
electrical speeds. This number should be taken from the motor’s
specification sheet.
Poles
2
40
READ ONLY: Motor resistance in ohms
READ ONLY: Motor resistance in ohms. This is measured on start-up. When
tuning a new motor, check that this value is approximately equal
to the value shown in the motor’s specification sheet.
Ohms
3
Acceleration limit (V)
Acceleration limit (V)
Volts
3
0.01
1.00
Motor voltage limit in volts
Motor voltage limit in volts. The current controller’s
commanded voltage will never exceed this value. Note that this may
safely be above the nominal voltage of the motor; to determine the
actual motor voltage limit, divide the motor’s rated power by the
motor current limit.
Volts
3
0
Body angular rate process noise
modules/attitude_estimator_ekf
Body angular acceleration process noise
modules/attitude_estimator_ekf
Acceleration process noise
modules/attitude_estimator_ekf
Magnet field vector process noise
modules/attitude_estimator_ekf
Gyro measurement noise
modules/attitude_estimator_ekf
Accel measurement noise
modules/attitude_estimator_ekf
Mag measurement noise
modules/attitude_estimator_ekf
Moment of inertia matrix diagonal entry (1, 1)
kg*m^2
modules/attitude_estimator_ekf
Moment of inertia matrix diagonal entry (2, 2)
kg*m^2
modules/attitude_estimator_ekf
Moment of inertia matrix diagonal entry (3, 3)
kg*m^2
modules/attitude_estimator_ekf
Moment of inertia enabled in estimator
If set to != 0 the moment of inertia will be used in the estimator
modules/attitude_estimator_ekf
Complimentary filter accelerometer weight
0
1
2
modules/attitude_estimator_q
Complimentary filter magnetometer weight
0
1
2
modules/attitude_estimator_q
Complimentary filter external heading weight
0
1
modules/attitude_estimator_q
Complimentary filter gyroscope bias weight
0
1
2
modules/attitude_estimator_q
Magnetic declination, in degrees
This parameter is not used in normal operation, as the declination is looked up based on the GPS coordinates of the vehicle.
deg
2
modules/attitude_estimator_q
Automatic GPS based declination compensation
modules/attitude_estimator_q
External heading usage mode (from Motion capture/Vision)
Set to 1 to use heading estimate from vision.
Set to 2 to use heading from motion capture
0
2
modules/attitude_estimator_q
Vision
None
Motion Capture
Acceleration compensation based on GPS
velocity
modules/attitude_estimator_q
Gyro bias limit
0
2
rad/s
3
modules/attitude_estimator_q
Threshold (of RMS) to warn about high vibration levels
0.01
10
2
modules/attitude_estimator_q
Scaling factor for battery voltage sensor on PX4IO
1
100000
modules/sensors
Scaling from ADC counts to volt on the ADC input (battery voltage)
This is not the battery voltage, but the intermediate ADC voltage. A value of -1 signifies that the board defaults are used, which is highly recommended.
8
modules/sensors
Scaling from ADC counts to volt on the ADC input (battery current)
This is not the battery current, but the intermediate ADC voltage. A value of -1 signifies that the board defaults are used, which is highly recommended.
8
modules/sensors
Offset in volt as seen by the ADC input of the current sensor
This offset will be subtracted before calculating the battery current based on the voltage.
8
modules/sensors
Battery voltage divider (V divider)
This is the divider from battery voltage to 3.3V ADC voltage. If using e.g. Mauch power modules the value from the datasheet can be applied straight here. A value of -1 means to use the board default.
8
modules/sensors
Battery current per volt (A/V)
The voltage seen by the 3.3V ADC multiplied by this factor will determine the battery current. A value of -1 means to use the board default.
8
modules/sensors
Battery monitoring source
This parameter controls the source of battery data. The value 'Power Module' means that measurements are expected to come from a power module. If the value is set to 'External' then the system expects to receive mavlink battery status messages.
0
1
modules/sensors
External
Power Module
Empty cell voltage (5C load)
Defines the voltage where a single cell of the battery is considered empty. The voltage should be chosen before the steep dropoff to 2.8V. A typical lithium battery can only be discharged down to 10% before it drops off to a voltage level damaging the cells.
V
2
0.01
modules/systemlib
Full cell voltage (5C load)
Defines the voltage where a single cell of the battery is considered full under a mild load. This will never be the nominal voltage of 4.2V
V
2
0.01
modules/systemlib
Low threshold
Sets the threshold when the battery will be reported as low. This has to be higher than the critical threshold.
0.12
0.4
norm
2
0.01
modules/systemlib
Critical threshold
Sets the threshold when the battery will be reported as critically low. This has to be lower than the low threshold. This threshold commonly will trigger RTL or landing.
0.05
0.1
norm
2
0.01
modules/systemlib
Voltage drop per cell on full throttle
This implicitely defines the internal resistance to maximum current ratio and assumes linearity. A good value to use is the difference between the 5C and 20-25C load.
0.07
0.5
V
2
0.01
modules/systemlib
Number of cells
Defines the number of cells the attached battery consists of.
S
modules/systemlib
11S Battery
10S Battery
13S Battery
12S Battery
15S Battery
14S Battery
16S Battery
Unconfigured
3S Battery
2S Battery
5S Battery
4S Battery
7S Battery
6S Battery
9S Battery
8S Battery
Battery capacity
Defines the capacity of the attached battery.
-1.0
100000
mA
0
50
modules/systemlib
Camera trigger interval
This parameter sets the time between two consecutive trigger events
4.0
10000.0
ms
1
drivers/camera_trigger
Camera trigger polarity
This parameter sets the polarity of the trigger (0 = active low, 1 = active high )
0
1
drivers/camera_trigger
Active high
Active low
Camera trigger activation time
This parameter sets the time the trigger needs to pulled high or low.
0.1
3
ms
1
drivers/camera_trigger
Camera trigger mode
0
4
true
drivers/camera_trigger
On individual commands
Disable
Distance based, always on
Time based, always on
Distance, mission controlled
Camera trigger pin
Selects which pin is used, ranges from 1 to 6 (AUX1-AUX6)
1
123456
0
true
drivers/camera_trigger
Camera trigger distance
Sets the distance at which to trigger the camera.
0
m
1
1
drivers/camera_trigger
Circuit breaker for power supply check
Setting this parameter to 894281 will disable the power valid checks in the commander. WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK
0
894281
true
modules/systemlib
Circuit breaker for rate controller output
Setting this parameter to 140253 will disable the rate controller uORB publication. WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK
0
140253
true
modules/systemlib
Circuit breaker for IO safety
Setting this parameter to 22027 will disable IO safety. WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK
0
22027
true
modules/systemlib
Circuit breaker for airspeed sensor
Setting this parameter to 162128 will disable the check for an airspeed sensor. WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK
0
162128
true
modules/systemlib
Circuit breaker for flight termination
Setting this parameter to 121212 will disable the flight termination action. --> The IO driver will not do flight termination if requested by the FMU WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK
0
121212
true
modules/systemlib
Circuit breaker for engine failure detection
Setting this parameter to 284953 will disable the engine failure detection. If the aircraft is in engine failure mode the engine failure flag will be set to healthy WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK
0
284953
true
modules/systemlib
Circuit breaker for GPS failure detection
Setting this parameter to 240024 will disable the GPS failure detection. If this check is enabled, then the sensor check will fail if the GPS module is missing. It will also check for excessive signal noise on the GPS receiver and warn the user if detected. WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK
0
240024
true
modules/systemlib
Circuit breaker for disabling buzzer
Setting this parameter to 782097 will disable the buzzer audio notification. WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK
0
782097
true
modules/systemlib
Circuit breaker for USB link check
Setting this parameter to 197848 will disable the USB connected checks in the commander. WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK
0
197848
true
modules/systemlib
Datalink loss time threshold
After this amount of seconds without datalink the data link lost mode triggers
5
300
s
1
0.5
modules/commander
Datalink regain time threshold
After a data link loss: after this this amount of seconds with a healthy datalink the 'datalink loss' flag is set back to false
0
3
s
1
0.5
modules/commander
Engine Failure Throttle Threshold
Engine failure triggers only above this throttle value
0.0
1.0
norm
2
0.01
modules/commander
Engine Failure Current/Throttle Threshold
Engine failure triggers only below this current value
0.0
50.0
A/%
2
1
modules/commander
Engine Failure Time Threshold
Engine failure triggers only if the throttle threshold and the current to throttle threshold are violated for this time
0.0
60.0
s
1
1
modules/commander
RC loss time threshold
After this amount of seconds without RC connection the rc lost flag is set to true
0
35
s
1
0.1
modules/commander
Home set horizontal threshold
The home position will be set if the estimated positioning accuracy is below the threshold.
2
15
m
2
0.5
modules/commander
Home set vertical threshold
The home position will be set if the estimated positioning accuracy is below the threshold.
5
25
m
2
0.5
modules/commander
Autosaving of params
If not equal to zero the commander will automatically save parameters to persistent storage once changed. Default is on, as the interoperability with currently deployed GCS solutions depends on parameters being sticky. Developers can default it to off.
modules/commander
RC control input mode
The default value of 0 requires a valid RC transmitter setup. Setting this to 1 allows joystick control and disables RC input handling and the associated checks. A value of 2 will generate RC control data from manual input received via MAVLink instead of directly forwarding the manual input data.
0
2
modules/commander
Joystick/No RC Checks
RC Transmitter
Virtual RC by Joystick
RC input arm/disarm command duration
The default value of 1000 requires the stick to be held in the arm or disarm position for 1 second.
100
1500
modules/commander
Time-out for auto disarm after landing
A non-zero, positive value specifies the time-out period in seconds after which the vehicle will be automatically disarmed in case a landing situation has been detected during this period. A value of zero means that automatic disarming is disabled.
0
20
s
0
1
modules/commander
Allow arming without GPS
The default allows to arm the vehicle without GPS signal.
0
1
modules/commander
Allow arming without GPS
Don't allow arming without GPS
Battery failsafe mode
Action the system takes on low battery. Defaults to off
0
1
modules/commander
Return to Land
Warning
Land at current position
Time-out to wait when offboard connection is lost before triggering offboard lost action.
See COM_OBL_ACT and COM_OBL_RC_ACT to configure action
0
60
second
1
modules/commander
Airfield home Lat
Latitude of airfield home waypoint
-900000000
900000000
deg * 1e7
modules/navigator
Airfield home Lon
Longitude of airfield home waypoint
-1800000000
1800000000
deg * 1e7
modules/navigator
Airfield home alt
Altitude of airfield home waypoint
-50
m
1
0.5
modules/navigator
Comms hold wait time
The amount of time in seconds the system should wait at the comms hold waypoint
0.0
3600.0
s
0
1
modules/navigator
Comms hold Lat
Latitude of comms hold waypoint
-900000000
900000000
deg * 1e7
modules/navigator
Comms hold Lon
Longitude of comms hold waypoint
-1800000000
1800000000
deg * 1e7
modules/navigator
Comms hold alt
Altitude of comms hold waypoint
-50
30000
m
1
0.5
modules/navigator
Airfield home wait time
The amount of time in seconds the system should wait at the airfield home waypoint
0.0
3600.0
s
0
1
modules/navigator
Number of allowed Datalink timeouts
After more than this number of data link timeouts the aircraft returns home directly
0
1000
modules/navigator
Skip comms hold wp
If set to 1 the system will skip the comms hold wp on data link loss and will directly fly to airfield home
modules/navigator
Magnetometer measurement delay relative to IMU measurements
0
300
ms
1
modules/ekf2
Barometer measurement delay relative to IMU measurements
0
300
ms
1
modules/ekf2
GPS measurement delay relative to IMU measurements
0
300
ms
1
modules/ekf2
Optical flow measurement delay relative to IMU measurements
Assumes measurement is timestamped at trailing edge of integration period
0
300
ms
1
modules/ekf2
Range finder measurement delay relative to IMU measurements
0
300
ms
1
modules/ekf2
Airspeed measurement delay relative to IMU measurements
0
300
ms
1
modules/ekf2
Vision Position Estimator delay relative to IMU measurements
0
300
ms
1
modules/ekf2
Integer bitmask controlling GPS checks
Set bits to 1 to enable checks. Checks enabled by the following bit positions 0 : Minimum required sat count set by EKF2_REQ_NSATS 1 : Minimum required GDoP set by EKF2_REQ_GDOP 2 : Maximum allowed horizontal position error set by EKF2_REQ_EPH 3 : Maximum allowed vertical position error set by EKF2_REQ_EPV 4 : Maximum allowed speed error set by EKF2_REQ_SACC 5 : Maximum allowed horizontal position rate set by EKF2_REQ_HDRIFT. This check can only be used if the vehicle is stationary during alignment. 6 : Maximum allowed vertical position rate set by EKF2_REQ_VDRIFT. This check can only be used if the vehicle is stationary during alignment. 7 : Maximum allowed horizontal speed set by EKF2_REQ_HDRIFT. This check can only be used if the vehicle is stationary during alignment. 8 : Maximum allowed vertical velocity discrepancy set by EKF2_REQ_VDRIFT
0
511
modules/ekf2
Min sat count (EKF2_REQ_NSATS)
Min GDoP (EKF2_REQ_GDOP)
Max horizontal position error (EKF2_REQ_EPH)
Max vertical position error (EKF2_REQ_EPV)
Max speed error (EKF2_REQ_SACC)
Max horizontal position rate (EKF2_REQ_HDRIFT)
Max vertical position rate (EKF2_REQ_VDRIFT)
Max horizontal speed (EKF2_REQ_HDRIFT)
Max vertical velocity discrepancy (EKF2_REQ_VDRIFT)
Required EPH to use GPS
2
100
m
1
modules/ekf2
Required EPV to use GPS
2
100
m
1
modules/ekf2
Required speed accuracy to use GPS
0.5
5.0
m/s
2
modules/ekf2
Required satellite count to use GPS
4
12
modules/ekf2
Required GDoP to use GPS
1.5
5.0
1
modules/ekf2
Maximum horizontal drift speed to use GPS
0.1
1.0
m/s
2
modules/ekf2
Maximum vertical drift speed to use GPS
0.1
1.5
m/s
2
modules/ekf2
Rate gyro noise for covariance prediction
0.0001
0.1
rad/s
4
modules/ekf2
Accelerometer noise for covariance prediction
0.01
1.0
m/s/s
2
modules/ekf2
Process noise for IMU rate gyro bias prediction
0.0
0.01
rad/s**2
6
modules/ekf2
Process noise for IMU accelerometer bias prediction
0.0
0.01
m/s**3
6
modules/ekf2
Process noise for body magnetic field prediction
0.0
0.1
Gauss/s
6
modules/ekf2
Process noise for earth magnetic field prediction
0.0
0.1
Gauss/s
6
modules/ekf2
Process noise for wind velocity prediction
0.0
1.0
m/s/s
3
modules/ekf2
Measurement noise for gps horizontal velocity
0.01
5.0
m/s
2
modules/ekf2
Measurement noise for gps position
0.01
10.0
m
2
modules/ekf2
Measurement noise for non-aiding position hold
0.5
50.0
m
1
modules/ekf2
Measurement noise for barometric altitude
0.01
15.0
m
2
modules/ekf2
Measurement noise for magnetic heading fusion
0.01
1.0
rad
2
modules/ekf2
Measurement noise for magnetometer 3-axis fusion
0.001
1.0
Gauss
3
modules/ekf2
Measurement noise for airspeed fusion
0.5
5.0
m/s
1
modules/ekf2
Magnetic declination
deg
1
modules/ekf2
Gate size for magnetic heading fusion
1.0
SD
1
modules/ekf2
Gate size for magnetometer XYZ component fusion
1.0
SD
1
modules/ekf2
Integer bitmask controlling handling of magnetic declination
Set bits in the following positions to enable functions. 0 : Set to true to use the declination from the geo_lookup library when the GPS position becomes available, set to false to always use the EKF2_MAG_DECL value. 1 : Set to true to save the EKF2_MAG_DECL parameter to the value returned by the EKF when the vehicle disarms. 2 : Set to true to always use the declination as an observation when 3-axis magnetometer fusion is being used.
0
7
modules/ekf2
use geo_lookup declination
save EKF2_MAG_DECL on disarm
use declination as an observation
Type of magnetometer fusion
Integer controlling the type of magnetometer fusion used - magnetic heading or 3-axis magnetometer. If set to automatic: heading fusion on-ground and 3-axis fusion in-flight
modules/ekf2
Magnetic heading
Automatic
None
3-axis fusion
Gate size for barometric height fusion
1.0
SD
1
modules/ekf2
Gate size for GPS horizontal position fusion
1.0
SD
1
modules/ekf2
Gate size for GPS velocity fusion
1.0
SD
1
modules/ekf2
Gate size for TAS fusion
1.0
SD
1
modules/ekf2
Replay mode
A value of 1 indicates that the ekf2 module will publish replay messages for logging.
modules/ekf2
Integer bitmask controlling data fusion and aiding methods
Set bits in the following positions to enable: 0 : Set to true to use GPS data if available 1 : Set to true to use optical flow data if available 2 : Set to true to inhibit IMU bias estimation 3 : Set to true to enable vision position fusion 4 : Set to true to enable vision yaw fusion
0
28
modules/ekf2
use GPS
use optical flow
inhibit IMU bias estimation
vision position fusion
vision yaw fusion
Determines the primary source of height data used by the EKF
The range sensor option should only be used when for operation over a flat surface as the local NED origin will move up and down with ground level.
modules/ekf2
GPS
Barometric pressure
Vision
Range sensor
Measurement noise for range finder fusion
0.01
m
2
modules/ekf2
Gate size for range finder fusion
1.0
SD
1
modules/ekf2
Minimum valid range for the range finder
0.01
m
2
modules/ekf2
Measurement noise for vision position observations used when the vision system does not supply error estimates
0.01
m
2
modules/ekf2
Measurement noise for vision angle observations used when the vision system does not supply error estimates
0.01
rad
2
modules/ekf2
Gate size for vision estimate fusion
1.0
SD
1
modules/ekf2
Minimum valid range for the vision estimate
0.01
m
2
modules/ekf2
Measurement noise for the optical flow sensor when it's reported quality metric is at the maximum
0.05
rad/s
2
modules/ekf2
Measurement noise for the optical flow sensor
(when it's reported quality metric is at the minimum set by EKF2_OF_QMIN). The following condition must be met: EKF2_OF_N_MAXN >= EKF2_OF_N_MIN
0.05
rad/s
2
modules/ekf2
Optical Flow data will only be used if the sensor reports a quality metric >= EKF2_OF_QMIN
0
255
modules/ekf2
Gate size for optical flow fusion
1.0
SD
1
modules/ekf2
Optical Flow data will not fused if the magnitude of the flow rate > EKF2_OF_RMAX
1.0
rad/s
2
modules/ekf2
Terrain altitude process noise - accounts for instability in vehicle height estimate
0.5
m/s
1
modules/ekf2
Magnitude of terrain gradient
0.0
m/m
2
modules/ekf2
X position of IMU in body frame
m
3
modules/ekf2
Y position of IMU in body frame
m
3
modules/ekf2
Z position of IMU in body frame
m
3
modules/ekf2
X position of GPS antenna in body frame
m
3
modules/ekf2
Y position of GPS antenna in body frame
m
3
modules/ekf2
Z position of GPS antenna in body frame
m
3
modules/ekf2
X position of range finder origin in body frame
m
3
modules/ekf2
Y position of range finder origin in body frame
m
3
modules/ekf2
Z position of range finder origin in body frame
m
3
modules/ekf2
X position of optical flow focal point in body frame
m
3
modules/ekf2
Y position of optical flow focal point in body frame
m
3
modules/ekf2
Z position of optical flow focal point in body frame
m
3
modules/ekf2
X position of VI sensor focal point in body frame
m
3
modules/ekf2
Y position of VI sensor focal point in body frame
m
3
modules/ekf2
Z position of VI sensor focal point in body frame
m
3
modules/ekf2
Airspeed fusion threshold. A value of zero will deactivate airspeed fusion. Any other positive
value will determine the minimum airspeed which will still be fused
0.0
m/s
1
modules/ekf2
Time constant of the velocity output prediction and smoothing filter
1.0
s
2
modules/ekf2
Time constant of the position output prediction and smoothing filter. Controls how tightly the output track the EKF states
0.1
1.0
s
2
modules/ekf2
1-sigma IMU gyro switch-on bias
0.0
0.2
rad/sec
2
modules/ekf2
1-sigma IMU accelerometer switch-on bias
0.0
0.5
m/s/s
2
modules/ekf2
1-sigma tilt angle uncertainty after gravity vector alignment
0.0
0.5
rad
3
modules/ekf2
Attitude Roll Time Constant
This defines the latency between a roll step input and the achieved setpoint (inverse to a P gain). Half a second is a good start value and fits for most average systems. Smaller systems may require smaller values, but as this will wear out servos faster, the value should only be decreased as needed.
0.4
1.0
s
2
0.05
modules/fw_att_control
Attitude Pitch Time Constant
This defines the latency between a pitch step input and the achieved setpoint (inverse to a P gain). Half a second is a good start value and fits for most average systems. Smaller systems may require smaller values, but as this will wear out servos faster, the value should only be decreased as needed.
0.2
1.0
s
2
0.05
modules/fw_att_control
Pitch rate proportional gain
This defines how much the elevator input will be commanded depending on the current body angular rate error.
0.005
1.0
%/rad/s
3
0.005
modules/fw_att_control
Pitch rate integrator gain
This gain defines how much control response will result out of a steady state error. It trims any constant error.
0.005
0.5
%/rad
3
0.005
modules/fw_att_control
Maximum positive / up pitch rate
This limits the maximum pitch up angular rate the controller will output (in degrees per second). Setting a value of zero disables the limit.
0.0
90.0
deg/s
1
0.5
modules/fw_att_control
Maximum negative / down pitch rate
This limits the maximum pitch down up angular rate the controller will output (in degrees per second). Setting a value of zero disables the limit.
0.0
90.0
deg/s
1
0.5
modules/fw_att_control
Pitch rate integrator limit
The portion of the integrator part in the control surface deflection is limited to this value
0.0
1.0
2
0.05
modules/fw_att_control
Roll rate proportional Gain
This defines how much the aileron input will be commanded depending on the current body angular rate error.
0.005
1.0
%/rad/s
3
0.005
modules/fw_att_control
Roll rate integrator Gain
This gain defines how much control response will result out of a steady state error. It trims any constant error.
0.005
0.2
%/rad
3
0.005
modules/fw_att_control
Roll Integrator Anti-Windup
The portion of the integrator part in the control surface deflection is limited to this value.
0.0
1.0
2
0.05
modules/fw_att_control
Maximum Roll Rate
This limits the maximum roll rate the controller will output (in degrees per second). Setting a value of zero disables the limit.
0.0
90.0
deg/s
1
0.5
modules/fw_att_control
Yaw rate proportional gain
This defines how much the rudder input will be commanded depending on the current body angular rate error.
0.005
1.0
%/rad/s
3
0.005
modules/fw_att_control
Yaw rate integrator gain
This gain defines how much control response will result out of a steady state error. It trims any constant error.
0.0
50.0
%/rad
1
0.5
modules/fw_att_control
Yaw rate integrator limit
The portion of the integrator part in the control surface deflection is limited to this value
0.0
1.0
2
0.05
modules/fw_att_control
Maximum Yaw Rate
This limits the maximum yaw rate the controller will output (in degrees per second). Setting a value of zero disables the limit.
0.0
90.0
deg/s
1
0.5
modules/fw_att_control
Wheel steering rate proportional gain
This defines how much the wheel steering input will be commanded depending on the current body angular rate error.
0.005
1.0
%/rad/s
3
0.005
modules/fw_att_control
Wheel steering rate integrator gain
This gain defines how much control response will result out of a steady state error. It trims any constant error.
0.005
0.5
%/rad
3
0.005
modules/fw_att_control
Wheel steering rate integrator limit
The portion of the integrator part in the control surface deflection is limited to this value
0.0
1.0
2
0.05
modules/fw_att_control
Maximum wheel steering rate
This limits the maximum wheel steering rate the controller will output (in degrees per second). Setting a value of zero disables the limit.
0.0
90.0
deg/s
1
0.5
modules/fw_att_control
Roll rate feed forward
Direct feed forward from rate setpoint to control surface output. Use this to obtain a tigher response of the controller without introducing noise amplification.
0.0
10.0
%/rad/s
2
0.05
modules/fw_att_control
Pitch rate feed forward
Direct feed forward from rate setpoint to control surface output
0.0
10.0
%/rad/s
2
0.05
modules/fw_att_control
Yaw rate feed forward
Direct feed forward from rate setpoint to control surface output
0.0
10.0
%/rad/s
2
0.05
modules/fw_att_control
Wheel steering rate feed forward
Direct feed forward from rate setpoint to control surface output
0.0
10.0
%/rad/s
2
0.05
modules/fw_att_control
Minimal speed for yaw coordination
For airspeeds above this value, the yaw rate is calculated for a coordinated turn. Set to a very high value to disable.
0.0
1000.0
m/s
1
0.5
modules/fw_att_control
Method used for yaw coordination
The param value sets the method used to calculate the yaw rate 0: open-loop zero lateral acceleration based on kinematic constraints 1: closed-loop: try to reduce lateral acceleration to 0 by measuring the acceleration
0
1
modules/fw_att_control
closed-loop
open-loop
Roll Setpoint Offset
An airframe specific offset of the roll setpoint in degrees, the value is added to the roll setpoint and should correspond to the typical cruise speed of the airframe.
-90.0
90.0
deg
1
0.5
modules/fw_att_control
Pitch Setpoint Offset
An airframe specific offset of the pitch setpoint in degrees, the value is added to the pitch setpoint and should correspond to the typical cruise speed of the airframe.
-90.0
90.0
deg
1
0.5
modules/fw_att_control
Max Manual Roll
Max roll for manual control in attitude stabilized mode
0.0
90.0
deg
1
0.5
modules/fw_att_control
Max Manual Pitch
Max pitch for manual control in attitude stabilized mode
0.0
90.0
deg
1
0.5
modules/fw_att_control
Scale factor for flaps
0.0
1.0
norm
2
0.01
modules/fw_att_control
Scale factor for flaperons
0.0
1.0
norm
2
0.01
modules/fw_att_control
Airspeed mode
The param value sets the method used to publish the control state airspeed. For small wings or VTOL without airspeed sensor this parameter can be used to enable flying without an airspeed reading
0
2
modules/fw_att_control
use vehicle ground velocity as airspeed
use measured airspeed
declare airspeed invalid
L1 period
This is the L1 distance and defines the tracking point ahead of the aircraft its following. A value of 18-25 meters works for most aircraft. Shorten slowly during tuning until response is sharp without oscillation.
12.0
50.0
m
1
0.5
modules/fw_pos_control_l1
L1 damping
Damping factor for L1 control.
0.6
0.9
2
0.05
modules/fw_pos_control_l1
Cruise throttle
This is the throttle setting required to achieve the desired cruise speed. Most airframes have a value of 0.5-0.7.
0.0
1.0
norm
2
0.01
modules/fw_pos_control_l1
Throttle max slew rate
Maximum slew rate for the commanded throttle
0.0
1.0
modules/fw_pos_control_l1
Negative pitch limit
The minimum negative pitch the controller will output.
-60.0
0.0
deg
1
0.5
modules/fw_pos_control_l1
Positive pitch limit
The maximum positive pitch the controller will output.
0.0
60.0
deg
1
0.5
modules/fw_pos_control_l1
Controller roll limit
The maximum roll the controller will output.
35.0
65.0
deg
1
0.5
modules/fw_pos_control_l1
Throttle limit max
This is the maximum throttle % that can be used by the controller. For overpowered aircraft, this should be reduced to a value that provides sufficient thrust to climb at the maximum pitch angle PTCH_MAX.
0.0
1.0
norm
2
0.01
modules/fw_pos_control_l1
Throttle limit min
This is the minimum throttle % that can be used by the controller. For electric aircraft this will normally be set to zero, but can be set to a small non-zero value if a folding prop is fitted to prevent the prop from folding and unfolding repeatedly in-flight or to provide some aerodynamic drag from a turning prop to improve the descent rate. For aircraft with internal combustion engine this parameter should be set for desired idle rpm.
0.0
1.0
norm
2
0.01
modules/fw_pos_control_l1
Idle throttle
This is the minimum throttle while on the ground For aircraft with internal combustion engine this parameter should be set above desired idle rpm.
0.0
0.4
norm
2
0.01
modules/fw_pos_control_l1
Throttle limit value before flare
This throttle value will be set as throttle limit at FW_LND_TLALT, before aircraft will flare.
0.0
1.0
norm
2
0.01
modules/fw_pos_control_l1
Climbout Altitude difference
If the altitude error exceeds this parameter, the system will climb out with maximum throttle and minimum airspeed until it is closer than this distance to the desired altitude. Mostly used for takeoff waypoints / modes. Set to 0 to disable climbout mode (not recommended).
0.0
150.0
m
1
0.5
modules/fw_pos_control_l1
Landing slope angle
1.0
15.0
deg
1
0.5
modules/fw_pos_control_l1
FW_LND_HVIRT
1.0
15.0
m
1
0.5
modules/fw_pos_control_l1
Landing flare altitude (relative to landing altitude)
0.0
25.0
m
1
0.5
modules/fw_pos_control_l1
Landing throttle limit altitude (relative landing altitude)
Default of -1.0 lets the system default to applying throttle limiting at 2/3 of the flare altitude.
-1.0
30.0
m
1
0.5
modules/fw_pos_control_l1
Landing heading hold horizontal distance
0
30.0
m
1
0.5
modules/fw_pos_control_l1
Use terrain estimate during landing
modules/fw_pos_control_l1
Flare, minimum pitch
Minimum pitch during flare, a positive sign means nose up Applied once FW_LND_TLALT is reached
0
15.0
deg
1
0.5
modules/fw_pos_control_l1
Flare, maximum pitch
Maximum pitch during flare, a positive sign means nose up Applied once FW_LND_TLALT is reached
0
45.0
deg
1
0.5
modules/fw_pos_control_l1
Min. airspeed scaling factor for landing
Multiplying this factor with the minimum airspeed of the plane gives the target airspeed the landing approach. FW_AIRSPD_MIN * FW_LND_AIRSPD_SC
1.0
1.5
norm
2
0.01
modules/fw_pos_control_l1
Minimum Airspeed
If the airspeed falls below this value, the TECS controller will try to increase airspeed more aggressively.
0.0
40
m/s
1
0.5
modules/fw_pos_control_l1
Maximum Airspeed
If the airspeed is above this value, the TECS controller will try to decrease airspeed more aggressively.
0.0
40
m/s
1
0.5
modules/fw_pos_control_l1
Maximum climb rate
This is the best climb rate that the aircraft can achieve with the throttle set to THR_MAX and the airspeed set to the default value. For electric aircraft make sure this number can be achieved towards the end of flight when the battery voltage has reduced. The setting of this parameter can be checked by commanding a positive altitude change of 100m in loiter, RTL or guided mode. If the throttle required to climb is close to THR_MAX and the aircraft is maintaining airspeed, then this parameter is set correctly. If the airspeed starts to reduce, then the parameter is set to high, and if the throttle demand required to climb and maintain speed is noticeably less than FW_THR_MAX, then either FW_T_CLMB_MAX should be increased or FW_THR_MAX reduced.
1.0
15.0
m/s
1
0.5
modules/fw_pos_control_l1
Minimum descent rate
This is the sink rate of the aircraft with the throttle set to THR_MIN and flown at the same airspeed as used to measure FW_T_CLMB_MAX.
1.0
5.0
m/s
1
0.5
modules/fw_pos_control_l1
Maximum descent rate
This sets the maximum descent rate that the controller will use. If this value is too large, the aircraft can over-speed on descent. This should be set to a value that can be achieved without exceeding the lower pitch angle limit and without over-speeding the aircraft.
2.0
15.0
m/s
1
0.5
modules/fw_pos_control_l1
TECS time constant
This is the time constant of the TECS control algorithm (in seconds). Smaller values make it faster to respond, larger values make it slower to respond.
1.0
10.0
s
1
0.5
modules/fw_pos_control_l1
TECS Throttle time constant
This is the time constant of the TECS throttle control algorithm (in seconds). Smaller values make it faster to respond, larger values make it slower to respond.
1.0
10.0
s
1
0.5
modules/fw_pos_control_l1
Throttle damping factor
This is the damping gain for the throttle demand loop. Increase to add damping to correct for oscillations in speed and height.
0.0
2.0
1
0.1
modules/fw_pos_control_l1
Integrator gain
This is the integrator gain on the control loop. Increasing this gain increases the speed at which speed and height offsets are trimmed out, but reduces damping and increases overshoot.
0.0
2.0
2
0.05
modules/fw_pos_control_l1
Maximum vertical acceleration
This is the maximum vertical acceleration (in m/s/s) either up or down that the controller will use to correct speed or height errors. The default value of 7 m/s/s (equivalent to +- 0.7 g) allows for reasonably aggressive pitch changes if required to recover from under-speed conditions.
1.0
10.0
m/s/s
1
0.5
modules/fw_pos_control_l1
Complementary filter "omega" parameter for height
This is the cross-over frequency (in radians/second) of the complementary filter used to fuse vertical acceleration and barometric height to obtain an estimate of height rate and height. Increasing this frequency weights the solution more towards use of the barometer, whilst reducing it weights the solution more towards use of the accelerometer data.
1.0
10.0
rad/s
1
0.5
modules/fw_pos_control_l1
Complementary filter "omega" parameter for speed
This is the cross-over frequency (in radians/second) of the complementary filter used to fuse longitudinal acceleration and airspeed to obtain an improved airspeed estimate. Increasing this frequency weights the solution more towards use of the airspeed sensor, whilst reducing it weights the solution more towards use of the accelerometer data.
1.0
10.0
rad/s
1
0.5
modules/fw_pos_control_l1
Roll -> Throttle feedforward
Increasing this gain turn increases the amount of throttle that will be used to compensate for the additional drag created by turning. Ideally this should be set to approximately 10 x the extra sink rate in m/s created by a 45 degree bank turn. Increase this gain if the aircraft initially loses energy in turns and reduce if the aircraft initially gains energy in turns. Efficient high aspect-ratio aircraft (eg powered sailplanes) can use a lower value, whereas inefficient low aspect-ratio models (eg delta wings) can use a higher value.
0.0
20.0
1
0.5
modules/fw_pos_control_l1
Speed <--> Altitude priority
This parameter adjusts the amount of weighting that the pitch control applies to speed vs height errors. Setting it to 0.0 will cause the pitch control to control height and ignore speed errors. This will normally improve height accuracy but give larger airspeed errors. Setting it to 2.0 will cause the pitch control loop to control speed and ignore height errors. This will normally reduce airspeed errors, but give larger height errors. The default value of 1.0 allows the pitch control to simultaneously control height and speed. Note to Glider Pilots - set this parameter to 2.0 (The glider will adjust its pitch angle to maintain airspeed, ignoring changes in height).
0.0
2.0
1
1.0
modules/fw_pos_control_l1
Pitch damping factor
This is the damping gain for the pitch demand loop. Increase to add damping to correct for oscillations in height. The default value of 0.0 will work well provided the pitch to servo controller has been tuned properly.
0.0
2.0
1
0.1
modules/fw_pos_control_l1
Height rate P factor
0.0
2.0
2
0.05
modules/fw_pos_control_l1
Height rate FF factor
0.0
2.0
2
0.05
modules/fw_pos_control_l1
Speed rate P factor
0.0
2.0
2
0.01
modules/fw_pos_control_l1
Cruise Airspeed
The fixed wing controller tries to fly at this airspeed.
0.0
40
m/s
1
0.5
modules/navigator
Minimum follow target altitude
The minimum height in meters relative to home for following a target
8.0
meters
modules/navigator
Distance to follow target from
The distance in meters to follow the target at
1.0
meters
modules/navigator
Side to follow target from
The side to follow the target from (front right = 0, behind = 1, front = 2, front left = 3)
0
3
n/a
modules/navigator
Dynamic filtering algorithm responsiveness to target movement
lower numbers increase the responsiveness to changing long lat
but also ignore less noise
0.0
1.0
n/a
2
modules/navigator
Dump GPS communication to a file
If this is set to 1, all GPS communication data will be written to a file. Two files will be created, for reading and writing. All communication from startup until device disarm will be dumped.
0
1
drivers/gps
Enable
Disable
Loiter time
The amount of time in seconds the system should do open loop loiter and wait for gps recovery before it goes into flight termination.
0.0
3600.0
s
0
1
modules/navigator
Open loop loiter roll
Roll in degrees during the open loop loiter
0.0
30.0
deg
1
0.5
modules/navigator
Open loop loiter pitch
Pitch in degrees during the open loop loiter
-30.0
30.0
deg
1
0.5
modules/navigator
Open loop loiter thrust
Thrust value which is set during the open loop loiter
0.0
1.0
norm
2
0.05
modules/navigator
Geofence violation action
Note: Setting this value to 4 enables flight termination, which will kill the vehicle on violation of the fence. Due to the inherent danger of this, this function is disabled using a software circuit breaker, which needs to be reset to 0 to really shut down the system.
0
4
modules/navigator
Warning
None
Return to Land
Loiter
Geofence altitude mode
Select which altitude reference should be used 0 = WGS84, 1 = AMSL
0
1
modules/navigator
AMSL
WGS84
Geofence source
Select which position source should be used. Selecting GPS instead of global position makes sure that there is no dependence on the position estimator 0 = global position, 1 = GPS
0
1
modules/navigator
GPS
GPOS
Geofence counter limit
Set how many subsequent position measurements outside of the fence are needed before geofence violation is triggered
-1
10
1
modules/navigator
Max horizontal distance in meters
Set to > 0 to activate a geofence action if horizontal distance to home exceeds this value.
-1
5000
m
1
modules/navigator
Max vertical distance in meters
Set to > 0 to activate a geofence action if vertical distance to home exceeds this value.
-1
m
1
modules/navigator
Consider mount operation mode
If set to 1, mount mode will be enforced.
drivers/gimbal
Auxiliary switch to set mount operation mode
Set to 0 to disable manual mode control. If set to an auxiliary switch: Switch off means the gimbal is put into safe/locked position. Switch on means the gimbal can move freely, and landing gear will be retracted if applicable.
0
3
drivers/gimbal
AUX1
Disable
AUX3
AUX2
Multicopter max climb rate
Maximum vertical velocity allowed in the landed state (m/s up and down)
m/s
1
modules/land_detector
Multicopter max horizontal velocity
Maximum horizontal velocity allowed in the landed state (m/s)
m/s
1
modules/land_detector
Multicopter max rotation
Maximum allowed angular velocity around each axis allowed in the landed state.
deg/s
1
modules/land_detector
Multicopter specific force threshold
Multicopter threshold on the specific force measured by accelerometers in m/s^2 for free-fall detection
0.1
10
m/s^2
2
modules/land_detector
Multicopter free-fall trigger time
Seconds (decimal) that freefall conditions have to met before triggering a freefall. Minimal value is limited by LAND_DETECTOR_UPDATE_RATE=50Hz in landDetector.h
0.02
5
s
2
modules/land_detector
Fixedwing max horizontal velocity
Maximum horizontal velocity allowed in the landed state (m/s)
0.5
10
m/s
1
modules/land_detector
Fixedwing max climb rate
Maximum vertical velocity allowed in the landed state (m/s up and down)
5
20
m/s
1
modules/land_detector
Fixedwing max short-term velocity
Maximum velocity integral in flight direction allowed in the landed state (m/s)
2
10
m/s
1
modules/land_detector
Airspeed max
Maximum airspeed allowed in the landed state (m/s)
4
20
m/s
1
modules/land_detector
Launch detection
lib/launchdetection
Catapult accelerometer threshold
LAUN_CAT_A for LAUN_CAT_T serves as threshold to trigger launch detection.
0
m/s/s
1
0.5
lib/launchdetection
Catapult time threshold
LAUN_CAT_A for LAUN_CAT_T serves as threshold to trigger launch detection.
0.0
5.0
s
2
0.05
lib/launchdetection
Motor delay
Delay between starting attitude control and powering up the throttle (giving throttle control to the controller) Before this timespan is up the throttle will be set to FW_THR_IDLE, set to 0 to deactivate
0.0
10.0
s
1
0.5
lib/launchdetection
Maximum pitch before the throttle is powered up (during motor delay phase)
This is an extra limit for the maximum pitch which is imposed in the phase before the throttle turns on. This allows to limit the maximum pitch angle during a bungee launch (make the launch less steep).
0.0
45.0
deg
1
0.5
lib/launchdetection
Optical flow z offset from center
-1
1
m
3
modules/local_position_estimator
Optical flow xy standard deviation
0.01
1
m
3
modules/local_position_estimator
Optical flow minimum quality threshold
0
255
0
modules/local_position_estimator
Sonar z standard deviation
0.01
1
m
3
modules/local_position_estimator
Sonar z offset from center of vehicle +down
-1
1
m
3
modules/local_position_estimator
Lidar z standard deviation
0.01
1
m
3
modules/local_position_estimator
Lidar z offset from center of vehicle +down
-1
1
m
3
modules/local_position_estimator
Accelerometer xy noise density
Data sheet noise density = 150ug/sqrt(Hz) = 0.0015 m/s^2/sqrt(Hz) Larger than data sheet to account for tilt error.
0.00001
2
m/s^2/srqt(Hz)
4
modules/local_position_estimator
Accelerometer z noise density
Data sheet noise density = 150ug/sqrt(Hz) = 0.0015 m/s^2/sqrt(Hz)
0.00001
2
m/s^2/srqt(Hz)
4
modules/local_position_estimator
Barometric presssure altitude z standard deviation
0.01
3
m
2
modules/local_position_estimator
Enables GPS data, also forces alt init with GPS
modules/local_position_estimator
GPS delay compensaton
0
0.4
sec
2
modules/local_position_estimator
Minimum GPS xy standard deviation, uses reported EPH if greater
0.01
5
m
2
modules/local_position_estimator
Minimum GPS z standard deviation, uses reported EPV if greater
0.01
200
m
2
modules/local_position_estimator
GPS xy velocity standard deviation.
EPV used if greater than this value
0.01
2
m/s
3
modules/local_position_estimator
GPS z velocity standard deviation
0.01
2
m/s
3
modules/local_position_estimator
Max EPH allowed for GPS initialization
1.0
5.0
m
3
modules/local_position_estimator
Max EPV allowed for GPS initialization
1.0
5.0
m
3
modules/local_position_estimator
Vision xy standard deviation
0.01
1
m
3
modules/local_position_estimator
Vision z standard deviation
0.01
2
m
3
modules/local_position_estimator
Vision correction
modules/local_position_estimator
Vicon position standard deviation
0.01
1
m
3
modules/local_position_estimator
Position propagation noise density
Increase to trust measurements more. Decrease to trust model more.
0
1
m/s/sqrt(Hz)
8
modules/local_position_estimator
Velocity propagation noise density
Increase to trust measurements more. Decrease to trust model more.
0
1
(m/s)/s/sqrt(Hz)
8
modules/local_position_estimator
Accel bias propagation noise density
0
1
(m/s^2)/s/sqrt(Hz)
8
modules/local_position_estimator
Terrain random walk noise density, hilly/outdoor (1e-1), flat/Indoor (1e-3)
0
1
m/s/sqrt(Hz)
3
modules/local_position_estimator
Flow gyro high pass filter cut off frequency
0
2
Hz
3
modules/local_position_estimator
Home latitude for nav w/o GPS
-90
90
deg
8
modules/local_position_estimator
Home longitude for nav w/o GPS
-180
180
deg
8
modules/local_position_estimator
Cut frequency for state publication
5
1000
Hz
0
modules/local_position_estimator
Required xy standard deviation to publish position
0.3
5.0
m
1
modules/local_position_estimator
Required z standard deviation to publish altitude/ terrain
0.3
5.0
m
1
modules/local_position_estimator
MAVLink system ID
1
250
modules/mavlink
MAVLink component ID
1
250
modules/mavlink
MAVLink protocol version
modules/mavlink
Always use version 1
Default to 1, switch to 2 if GCS sends version 2
Always use version 2
MAVLink Radio ID
When non-zero the MAVLink app will attempt to configure the radio to this ID and re-set the parameter to 0. If the value is negative it will reset the complete radio config to factory defaults.
-1
240
modules/mavlink
MAVLink airframe type
1
modules/mavlink
Use/Accept HIL GPS message even if not in HIL mode
If set to 1 incoming HIL GPS messages are parsed.
modules/mavlink
Forward external setpoint messages
If set to 1 incoming external setpoint messages will be directly forwarded to the controllers if in offboard control mode
modules/mavlink
Broadcast heartbeats on local network
This allows a ground control station to automatically find the drone on the local network.
modules/mavlink
Always broadcast
Never broadcast
Test parameter
This parameter is not actively used by the system. Its purpose is to allow testing the parameter interface on the communication level.
-1000
1000
modules/mavlink
Test mode (Identify) of MKBLCTRL Driver
drivers/mkblctrl
Low pass filter frequency for Gyro
platforms/qurt/fc_addon/mpu_spi
MPU9X50_GYRO_LPF_184HZ
MPU9X50_GYRO_LPF_250HZ
MPU9X50_GYRO_LPF_41HZ
MPU9X50_GYRO_LPF_92HZ
MPU9X50_GYRO_LPF_10HZ
MPU9X50_GYRO_LPF_20HZ
MPU9X50_GYRO_LPF_3600HZ_NOLPF
MPU9X50_GYRO_LPF_5HZ
Low pass filter frequency for Accelerometer
platforms/qurt/fc_addon/mpu_spi
MPU9X50_ACC_LPF_184HZ
MPU9X50_ACC_LPF_460HZ
MPU9X50_ACC_LPF_41HZ
MPU9X50_ACC_LPF_92HZ
MPU9X50_ACC_LPF_10HZ
MPU9X50_ACC_LPF_20HZ
MPU9X50_ACC_LPF_460HZ_NOLPF
MPU9X50_ACC_LPF_5HZ
Sample rate in Hz
platforms/qurt/fc_addon/mpu_spi
MPU9x50_SAMPLE_RATE_200HZ
MPU9x50_SAMPLE_RATE_100HZ
MPU9x50_SAMPLE_RATE_1000HZ
MPU9x50_SAMPLE_RATE_500HZ
Set offboard loss failsafe mode
The offboard loss failsafe will only be entered after a timeout, set by COM_OF_LOSS_T in seconds.
modules/commander
Loiter
Land at current position
Return to Land
Set offboard loss failsafe mode when RC is available
The offboard loss failsafe will only be entered after a timeout, set by COM_OF_LOSS_T in seconds.
modules/commander
Altitude control
Position control
Return to Land
Manual
Land at current position
Loiter radius (FW only)
Default value of loiter radius for missions, loiter, RTL, etc. (fixedwing only).
25
1000
m
1
0.5
modules/navigator
Acceptance Radius
Default acceptance radius, overridden by acceptance radius of waypoint if set.
0.05
200.0
m
1
0.5
modules/navigator
Set data link loss failsafe mode
The data link loss failsafe will only be entered after a timeout, set by COM_DL_LOSS_T in seconds. Once the timeout occurs the selected action will be executed. Setting this parameter to 4 will enable CASA Outback Challenge rules, which are only recommended to participants of that competition.
modules/navigator
Loiter
Disabled
Land at current position
Return to Land
Set RC loss failsafe mode
The RC loss failsafe will only be entered after a timeout, set by COM_RC_LOSS_T in seconds. If RC input checks have been disabled by setting the COM_RC_IN_MODE param it will not be triggered. Setting this parameter to 4 will enable CASA Outback Challenge rules, which are only recommended to participants of that competition.
modules/navigator
Loiter
Disabled
Land at current position
Return to Land
Take-off altitude
This is the minimum altitude the system will take off to.
0
80
m
1
0.5
modules/navigator
Minimum Loiter altitude
This is the minimum altitude the system will always obey. The intent is to stay out of ground effect.
0
80
m
1
0.5
modules/navigator
Persistent onboard mission storage
When enabled, missions that have been uploaded by the GCS are stored and reloaded after reboot persistently.
modules/navigator
Maximal horizontal distance from home to first waypoint
Failsafe check to prevent running mission stored from previous flight at a new takeoff location. Set a value of zero or less to disable. The mission will not be started if the current waypoint is more distant than MIS_DIS_1WP from the current position.
0
1000
m
1
0.5
modules/navigator
Altitude setpoint mode
0: the system will follow a zero order hold altitude setpoint 1: the system will follow a first order hold altitude setpoint values follow the definition in enum mission_altitude_mode
0
1
modules/navigator
First Order Hold
Zero Order Hold
Multirotor only. Yaw setpoint mode
The values are defined in the enum mission_altitude_mode
0
3
modules/navigator
Heading towards waypoint
Heading as set by waypoint
Heading away from home
Heading towards home
Time in seconds we wait on reaching target heading at a waypoint if it is forced
If set > 0 it will ignore the target heading for normal waypoint acceptance. If the waypoint forces the heading the timeout will matter. For example on VTOL forwards transiton. Mainly useful for VTOLs that have less yaw authority and might not reach target yaw in wind. Disabled by default.
-1
20
s
1
1
modules/navigator
Max yaw error in degrees needed for waypoint heading acceptance
0
90
deg
1
1
modules/navigator
Weather-vane mode landings for missions
modules/navigator
Weather-vane mode for loiter mode
modules/navigator
Roll time constant
Reduce if the system is too twitchy, increase if the response is too slow and sluggish.
0.15
0.25
s
2
0.01
modules/mc_att_control
Pitch time constant
Reduce if the system is too twitchy, increase if the response is too slow and sluggish.
0.15
0.25
s
2
0.01
modules/mc_att_control
Roll P gain
Roll proportional gain, i.e. desired angular speed in rad/s for error 1 rad.
0.0
8
2
0.1
modules/mc_att_control
Roll rate P gain
Roll rate proportional gain, i.e. control output for angular speed error 1 rad/s.
0.0
0.5
3
0.01
modules/mc_att_control
Roll rate I gain
Roll rate integral gain. Can be set to compensate static thrust difference or gravity center offset.
0.0
3
0.01
modules/mc_att_control
Roll rate D gain
Roll rate differential gain. Small values help reduce fast oscillations. If value is too big oscillations will appear again.
0.0
0.01
4
0.0005
modules/mc_att_control
Roll rate feedforward
Improves tracking performance.
0.0
4
modules/mc_att_control
Pitch P gain
Pitch proportional gain, i.e. desired angular speed in rad/s for error 1 rad.
0.0
10
1/s
2
0.0005
modules/mc_att_control
Pitch rate P gain
Pitch rate proportional gain, i.e. control output for angular speed error 1 rad/s.
0.0
0.6
3
0.01
modules/mc_att_control
Pitch rate I gain
Pitch rate integral gain. Can be set to compensate static thrust difference or gravity center offset.
0.0
3
0.01
modules/mc_att_control
Pitch rate D gain
Pitch rate differential gain. Small values help reduce fast oscillations. If value is too big oscillations will appear again.
0.0
4
0.0005
modules/mc_att_control
Pitch rate feedforward
Improves tracking performance.
0.0
4
modules/mc_att_control
Yaw P gain
Yaw proportional gain, i.e. desired angular speed in rad/s for error 1 rad.
0.0
5
1/s
2
0.1
modules/mc_att_control
Yaw rate P gain
Yaw rate proportional gain, i.e. control output for angular speed error 1 rad/s.
0.0
0.6
2
0.01
modules/mc_att_control
Yaw rate I gain
Yaw rate integral gain. Can be set to compensate static thrust difference or gravity center offset.
0.0
2
0.01
modules/mc_att_control
Yaw rate D gain
Yaw rate differential gain. Small values help reduce fast oscillations. If value is too big oscillations will appear again.
0.0
2
0.01
modules/mc_att_control
Yaw rate feedforward
Improves tracking performance.
0.0
4
0.01
modules/mc_att_control
Yaw feed forward
Feed forward weight for manual yaw control. 0 will give slow responce and no overshot, 1 - fast responce and big overshot.
0.0
1.0
2
0.01
modules/mc_att_control
Max roll rate
Limit for roll rate, has effect for large rotations in autonomous mode, to avoid large control output and mixer saturation.
0.0
360.0
deg/s
1
5
modules/mc_att_control
Max pitch rate
Limit for pitch rate, has effect for large rotations in autonomous mode, to avoid large control output and mixer saturation.
0.0
360.0
deg/s
1
5
modules/mc_att_control
Max yaw rate
A value of significantly over 120 degrees per second can already lead to mixer saturation.
0.0
360.0
deg/s
1
5
modules/mc_att_control
Max yaw rate in auto mode
Limit for yaw rate, has effect for large rotations in autonomous mode, to avoid large control output and mixer saturation. A value of significantly over 60 degrees per second can already lead to mixer saturation. A value of 30 degrees / second is recommended to avoid very audible twitches.
0.0
120.0
deg/s
1
5
modules/mc_att_control
Max acro roll rate
0.0
1000.0
deg/s
1
5
modules/mc_att_control
Max acro pitch rate
0.0
1000.0
deg/s
1
5
modules/mc_att_control
Max acro yaw rate
0.0
1000.0
deg/s
1
5
modules/mc_att_control
Threshold for Rattitude mode
Manual input needed in order to override attitude control rate setpoints and instead pass manual stick inputs as rate setpoints
0.0
1.0
2
0.01
modules/mc_att_control
Roll P gain
Roll proportional gain, i.e. desired angular speed in rad/s for error 1 rad.
0.0
modules/mc_att_control_multiplatform
Roll rate P gain
Roll rate proportional gain, i.e. control output for angular speed error 1 rad/s.
0.0
modules/mc_att_control_multiplatform
Roll rate I gain
Roll rate integral gain. Can be set to compensate static thrust difference or gravity center offset.
0.0
modules/mc_att_control_multiplatform
Roll rate D gain
Roll rate differential gain. Small values help reduce fast oscillations. If value is too big oscillations will appear again.
0.0
modules/mc_att_control_multiplatform
Pitch P gain
Pitch proportional gain, i.e. desired angular speed in rad/s for error 1 rad.
0.0
1/s
modules/mc_att_control_multiplatform
Pitch rate P gain
Pitch rate proportional gain, i.e. control output for angular speed error 1 rad/s.
0.0
modules/mc_att_control_multiplatform
Pitch rate I gain
Pitch rate integral gain. Can be set to compensate static thrust difference or gravity center offset.
0.0
modules/mc_att_control_multiplatform
Pitch rate D gain
Pitch rate differential gain. Small values help reduce fast oscillations. If value is too big oscillations will appear again.
0.0
modules/mc_att_control_multiplatform
Yaw P gain
Yaw proportional gain, i.e. desired angular speed in rad/s for error 1 rad.
0.0
1/s
modules/mc_att_control_multiplatform
Yaw rate P gain
Yaw rate proportional gain, i.e. control output for angular speed error 1 rad/s.
0.0
modules/mc_att_control_multiplatform
Yaw rate I gain
Yaw rate integral gain. Can be set to compensate static thrust difference or gravity center offset.
0.0
modules/mc_att_control_multiplatform
Yaw rate D gain
Yaw rate differential gain. Small values help reduce fast oscillations. If value is too big oscillations will appear again.
0.0
modules/mc_att_control_multiplatform
Yaw feed forward
Feed forward weight for manual yaw control. 0 will give slow responce and no overshot, 1 - fast responce and big overshot.
0.0
1.0
modules/mc_att_control_multiplatform
Max yaw rate
Limit for yaw rate, has effect for large rotations in autonomous mode, to avoid large control output and mixer saturation.
0.0
360.0
deg/s
modules/mc_att_control_multiplatform
Max acro roll rate
0.0
360.0
deg/s
modules/mc_att_control_multiplatform
Max acro pitch rate
0.0
360.0
deg/s
modules/mc_att_control_multiplatform
Max acro yaw rate
0.0
deg/s
modules/mc_att_control_multiplatform
Max manual roll
0.0
90.0
deg
modules/mc_pos_control_multiplatform
Max manual pitch
0.0
90.0
deg
modules/mc_pos_control_multiplatform
Max manual yaw rate
0.0
deg/s
modules/mc_pos_control_multiplatform
Minimum thrust in auto thrust control
It's recommended to set it > 0 to avoid free fall with zero thrust.
0.05
1.0
norm
2
0.01
modules/mc_pos_control
Hover thrust
Vertical thrust required to hover. This value is mapped to center stick for manual throttle control. With this value set to the thrust required to hover, transition from manual to ALTCTL mode while hovering will occur with the throttle stick near center, which is then interpreted as (near) zero demand for vertical speed.
0.2
0.8
norm
2
0.01
modules/mc_pos_control
ALTCTL throttle curve breakpoint
Halfwidth of deadband or reduced sensitivity center portion of curve. This is the halfwidth of the center region of the ALTCTL throttle curve. It extends from center-dz to center+dz.
0.0
0.2
norm
2
0.05
modules/mc_pos_control
ALTCTL throttle curve breakpoint height
Controls the slope of the reduced sensitivity region. This is the height of the ALTCTL throttle curve at center-dz and center+dz.
0.0
0.2
2
modules/mc_pos_control
Maximum thrust in auto thrust control
Limit max allowed thrust. Setting a value of one can put the system into actuator saturation as no spread between the motors is possible any more. A value of 0.8 - 0.9 is recommended.
0.0
0.95
norm
2
0.01
modules/mc_pos_control
Minimum manual thrust
Minimum vertical thrust. It's recommended to set it > 0 to avoid free fall with zero thrust.
0.0
1.0
norm
2
0.01
modules/mc_pos_control
Maximum manual thrust
Limit max allowed thrust. Setting a value of one can put the system into actuator saturation as no spread between the motors is possible any more. A value of 0.8 - 0.9 is recommended.
0.0
1.0
norm
2
0.01
modules/mc_pos_control
Proportional gain for vertical position error
0.0
1.5
2
modules/mc_pos_control
Proportional gain for vertical velocity error
0.1
0.4
2
modules/mc_pos_control
Integral gain for vertical velocity error
Non zero value allows hovering thrust estimation on stabilized or autonomous takeoff.
0.01
0.1
3
modules/mc_pos_control
Differential gain for vertical velocity error
0.0
0.1
3
modules/mc_pos_control
Maximum vertical ascent velocity
Maximum vertical velocity in AUTO mode and endpoint for stabilized modes (ALTCTRL, POSCTRL).
0.5
8.0
m/s
1
modules/mc_pos_control
Maximum vertical descent velocity
Maximum vertical velocity in AUTO mode and endpoint for stabilized modes (ALTCTRL, POSCTRL).
0.5
4.0
m/s
modules/mc_pos_control
Transitional support, do not change / use
0.5
4.0
m/s
modules/mc_pos_control
Vertical velocity feed forward
Feed forward weight for altitude control in stabilized modes (ALTCTRL, POSCTRL). 0 will give slow responce and no overshot, 1 - fast responce and big overshot.
0.0
1.0
2
modules/mc_pos_control
Proportional gain for horizontal position error
0.0
2.0
2
modules/mc_pos_control
Proportional gain for horizontal velocity error
0.06
0.15
2
modules/mc_pos_control
Integral gain for horizontal velocity error
Non-zero value allows to resist wind.
0.0
0.1
3
modules/mc_pos_control
Differential gain for horizontal velocity error. Small values help reduce fast oscillations. If value is too big oscillations will appear again
0.005
0.1
3
modules/mc_pos_control
Nominal horizontal velocity
Normal horizontal velocity in AUTO modes (includes also RTL / hold / etc.) and endpoint for position stabilized mode (POSCTRL).
3.0
20.0
m/s
2
1
modules/mc_pos_control
Maximum horizontal velocity
Maximum horizontal velocity in AUTO mode. If higher speeds are commanded in a mission they will be capped to this velocity.
0.0
20.0
m/s
2
1
modules/mc_pos_control
Horizontal velocity feed forward
Feed forward weight for position control in position control mode (POSCTRL). 0 will give slow responce and no overshot, 1 - fast responce and big overshot.
0.0
1.0
2
modules/mc_pos_control
Maximum tilt angle in air
Limits maximum tilt in AUTO and POSCTRL modes during flight.
0.0
90.0
deg
1
modules/mc_pos_control
Maximum tilt during landing
Limits maximum tilt angle on landing.
0.0
90.0
deg
1
modules/mc_pos_control
Landing descend rate
0.2
m/s
1
modules/mc_pos_control
Takeoff climb rate
1
5
m/s
2
modules/mc_pos_control
Max manual roll
0.0
90.0
deg
1
modules/mc_pos_control
Max manual pitch
0.0
90.0
deg
1
modules/mc_pos_control
Max manual yaw rate
0.0
400
deg/s
1
modules/mc_pos_control
Deadzone of X,Y sticks where position hold is enabled
0.0
1.0
2
modules/mc_pos_control
Maximum horizontal velocity for which position hold is enabled (use 0 to disable check)
0.0
3.0
m/s
2
modules/mc_pos_control
Maximum vertical velocity for which position hold is enabled (use 0 to disable check)
0.0
3.0
m/s
2
modules/mc_pos_control
Low pass filter cut freq. for numerical velocity derivative
0.0
10
Hz
2
modules/mc_pos_control
Maximum horizonal acceleration in velocity controlled modes
2.0
15.0
m/s/s
2
1
modules/mc_pos_control
Altitude control mode, note mode 1 only tested with LPE
0
1
modules/mc_pos_control
Terrain following
Altitude following
Minimum thrust
Minimum vertical thrust. It's recommended to set it > 0 to avoid free fall with zero thrust.
0.0
1.0
modules/mc_pos_control_multiplatform
Maximum thrust
Limit max allowed thrust.
0.0
1.0
modules/mc_pos_control_multiplatform
Proportional gain for vertical position error
0.0
modules/mc_pos_control_multiplatform
Proportional gain for vertical velocity error
0.0
modules/mc_pos_control_multiplatform
Integral gain for vertical velocity error
Non zero value allows hovering thrust estimation on stabilized or autonomous takeoff.
0.0
modules/mc_pos_control_multiplatform
Differential gain for vertical velocity error
0.0
modules/mc_pos_control_multiplatform
Maximum vertical velocity
Maximum vertical velocity in AUTO mode and endpoint for stabilized modes (ALTCTRL).
0.0
m/s
modules/mc_pos_control_multiplatform
Vertical velocity feed forward
Feed forward weight for altitude control in stabilized modes (ALTCTRL). 0 will give slow responce and no overshot, 1 - fast responce and big overshot.
0.0
1.0
modules/mc_pos_control_multiplatform
Proportional gain for horizontal position error
0.0
modules/mc_pos_control_multiplatform
Proportional gain for horizontal velocity error
0.0
modules/mc_pos_control_multiplatform
Integral gain for horizontal velocity error
Non-zero value allows to resist wind.
0.0
modules/mc_pos_control_multiplatform
Differential gain for horizontal velocity error. Small values help reduce fast oscillations. If value is too big oscillations will appear again
0.0
modules/mc_pos_control_multiplatform
Maximum horizontal velocity
Maximum horizontal velocity in AUTO mode and endpoint for position stabilized mode (POSCTRL).
0.0
m/s
modules/mc_pos_control_multiplatform
Horizontal velocity feed forward
Feed forward weight for position control in position control mode (POSCTRL). 0 will give slow responce and no overshot, 1 - fast responce and big overshot.
0.0
1.0
modules/mc_pos_control_multiplatform
Maximum tilt angle in air
Limits maximum tilt in AUTO and POSCTRL modes during flight.
0.0
90.0
deg
modules/mc_pos_control_multiplatform
Maximum tilt during landing
Limits maximum tilt angle on landing.
0.0
90.0
deg
modules/mc_pos_control_multiplatform
Landing descend rate
0.0
m/s
modules/mc_pos_control_multiplatform
Set the minimum PWM for the MAIN outputs
IMPORTANT: CHANGING THIS PARAMETER REQUIRES A COMPLETE SYSTEM REBOOT IN ORDER TO APPLY THE CHANGES. COMPLETELY POWER-CYCLE THE SYSTEM TO PUT CHANGES INTO EFFECT. Set to 1000 for industry default or 900 to increase servo travel.
800
1400
us
true
modules/sensors
Set the maximum PWM for the MAIN outputs
IMPORTANT: CHANGING THIS PARAMETER REQUIRES A COMPLETE SYSTEM REBOOT IN ORDER TO APPLY THE CHANGES. COMPLETELY POWER-CYCLE THE SYSTEM TO PUT CHANGES INTO EFFECT. Set to 2000 for industry default or 2100 to increase servo travel.
1600
2200
us
true
modules/sensors
Set the disarmed PWM for MAIN outputs
IMPORTANT: CHANGING THIS PARAMETER REQUIRES A COMPLETE SYSTEM REBOOT IN ORDER TO APPLY THE CHANGES. COMPLETELY POWER-CYCLE THE SYSTEM TO PUT CHANGES INTO EFFECT. This is the PWM pulse the autopilot is outputting if not armed. The main use of this parameter is to silence ESCs when they are disarmed.
0
2200
us
true
modules/sensors
Set the minimum PWM for the MAIN outputs
IMPORTANT: CHANGING THIS PARAMETER REQUIRES A COMPLETE SYSTEM REBOOT IN ORDER TO APPLY THE CHANGES. COMPLETELY POWER-CYCLE THE SYSTEM TO PUT CHANGES INTO EFFECT. Set to 1000 for default or 900 to increase servo travel
800
1400
us
true
modules/sensors
Set the maximum PWM for the MAIN outputs
IMPORTANT: CHANGING THIS PARAMETER REQUIRES A COMPLETE SYSTEM REBOOT IN ORDER TO APPLY THE CHANGES. COMPLETELY POWER-CYCLE THE SYSTEM TO PUT CHANGES INTO EFFECT. Set to 2000 for default or 2100 to increase servo travel
1600
2200
us
true
modules/sensors
Set the disarmed PWM for AUX outputs
IMPORTANT: CHANGING THIS PARAMETER REQUIRES A COMPLETE SYSTEM REBOOT IN ORDER TO APPLY THE CHANGES. COMPLETELY POWER-CYCLE THE SYSTEM TO PUT CHANGES INTO EFFECT. This is the PWM pulse the autopilot is outputting if not armed. The main use of this parameter is to silence ESCs when they are disarmed.
0
2200
us
true
modules/sensors
Invert direction of main output channel 1
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4io
Invert direction of main output channel 2
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4io
Invert direction of main output channel 3
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4io
Invert direction of main output channel 4
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4io
Invert direction of main output channel 5
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4io
Invert direction of main output channel 6
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4io
Invert direction of main output channel 7
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4io
Invert direction of main output channel 8
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4io
S.BUS out
Set to 1 to enable S.BUS version 1 output instead of RSSI.
drivers/px4io
Invert direction of aux output channel 1
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4fmu
Invert direction of aux output channel 2
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4fmu
Invert direction of aux output channel 3
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4fmu
Invert direction of aux output channel 4
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4fmu
Invert direction of aux output channel 5
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4fmu
Invert direction of aux output channel 6
Set to 1 to invert the channel, 0 for default direction.
true
drivers/px4fmu
Ground drag property
This parameter encodes the ground drag coefficient and the corresponding decrease in wind speed from the plane altitude to ground altitude.
0.001
0.1
modules/bottle_drop
Plane turn radius
The planes known minimal turn radius - use a higher value to make the plane maneuver more distant from the actual drop position. This is to ensure the wings are level during the drop.
30.0
500.0
m
modules/bottle_drop
Drop precision
If the system is closer than this distance on passing over the drop position, it will release the payload. This is a safeguard to prevent a drop out of the required accuracy.
1.0
80.0
m
modules/bottle_drop
Payload drag coefficient of the dropped object
The drag coefficient (cd) is the typical drag constant for air. It is in general object specific, but the closest primitive shape to the actual object should give good results: http://en.wikipedia.org/wiki/Drag_coefficient
0.08
1.5
modules/bottle_drop
Payload mass
A typical small toy ball: 0.025 kg OBC water bottle: 0.6 kg
0.001
5.0
kg
modules/bottle_drop
Payload front surface area
A typical small toy ball: (0.045 * 0.045) / 4.0 * pi = 0.001590 m^2 OBC water bottle: (0.063 * 0.063) / 4.0 * pi = 0.003117 m^2
0.001
0.5
m^2
modules/bottle_drop
Velocity estimate delay
The delay in milliseconds of the velocity estimate from GPS.
0
1000
ms
modules/ekf_att_pos_estimator
Position estimate delay
The delay in milliseconds of the position estimate from GPS.
0
1000
ms
modules/ekf_att_pos_estimator
Height estimate delay
The delay in milliseconds of the height estimate from the barometer.
0
1000
ms
modules/ekf_att_pos_estimator
Mag estimate delay
The delay in milliseconds of the magnetic field estimate from the magnetometer.
0
1000
ms
modules/ekf_att_pos_estimator
True airspeeed estimate delay
The delay in milliseconds of the airspeed estimate.
0
1000
ms
modules/ekf_att_pos_estimator
GPS vs. barometric altitude update weight
RE-CHECK this.
0.0
1.0
modules/ekf_att_pos_estimator
Airspeed measurement noise
Increasing this value will make the filter trust this sensor less and trust other sensors more.
0.5
5.0
modules/ekf_att_pos_estimator
Velocity measurement noise in north-east (horizontal) direction
Generic default: 0.3, multicopters: 0.5, ground vehicles: 0.5
0.05
5.0
modules/ekf_att_pos_estimator
Velocity noise in down (vertical) direction
Generic default: 0.3, multicopters: 0.4, ground vehicles: 0.7
0.2
3.0
modules/ekf_att_pos_estimator
Position noise in north-east (horizontal) direction
Generic defaults: 0.5, multicopters: 0.5, ground vehicles: 0.5
0.1
10.0
modules/ekf_att_pos_estimator
Position noise in down (vertical) direction
Generic defaults: 1.25, multicopters: 1.0, ground vehicles: 1.0
0.5
3.0
modules/ekf_att_pos_estimator
Magnetometer measurement noise
Generic defaults: 0.05, multicopters: 0.05, ground vehicles: 0.05
0.01
1.0
modules/ekf_att_pos_estimator
Gyro process noise
Generic defaults: 0.015, multicopters: 0.015, ground vehicles: 0.015. This noise controls how much the filter trusts the gyro measurements. Increasing it makes the filter trust the gyro less and other sensors more.
0.001
0.05
modules/ekf_att_pos_estimator
Accelerometer process noise
Generic defaults: 0.25, multicopters: 0.25, ground vehicles: 0.25. Increasing this value makes the filter trust the accelerometer less and other sensors more.
0.05
1.0
modules/ekf_att_pos_estimator
Gyro bias estimate process noise
Generic defaults: 1e-07f, multicopters: 1e-07f, ground vehicles: 1e-07f. Increasing this value will make the gyro bias converge faster but noisier.
0.00000005
0.00001
modules/ekf_att_pos_estimator
Accelerometer bias estimate process noise
Generic defaults: 0.00001f, multicopters: 0.00001f, ground vehicles: 0.00001f. Increasing this value makes the bias estimation faster and noisier.
0.00001
0.001
modules/ekf_att_pos_estimator
Magnetometer earth frame offsets process noise
Generic defaults: 0.0001, multicopters: 0.0001, ground vehicles: 0.0001. Increasing this value makes the magnetometer earth bias estimate converge faster but also noisier.
0.0001
0.01
modules/ekf_att_pos_estimator
Magnetometer body frame offsets process noise
Generic defaults: 0.0003, multicopters: 0.0003, ground vehicles: 0.0003. Increasing this value makes the magnetometer body bias estimate converge faster but also noisier.
0.0001
0.01
modules/ekf_att_pos_estimator
Magnetometer X bias
The magnetometer bias. This bias is learnt by the filter over time and persists between boots.
-0.6
0.6
modules/ekf_att_pos_estimator
Magnetometer Y bias
The magnetometer bias. This bias is learnt by the filter over time and persists between boots.
-0.6
0.6
modules/ekf_att_pos_estimator
Magnetometer Z bias
The magnetometer bias. This bias is learnt by the filter over time and persists between boots.
-0.6
0.6
modules/ekf_att_pos_estimator
Threshold for filter initialization
If the standard deviation of the GPS position estimate is below this threshold in meters, the filter will initialize.
0.3
10.0
modules/ekf_att_pos_estimator
Z axis weight for barometer
Weight (cutoff frequency) for barometer altitude measurements.
0.0
10.0
modules/position_estimator_inav
Z axis weight for GPS
Weight (cutoff frequency) for GPS altitude measurements. GPS altitude data is very noisy and should be used only as slow correction for baro offset.
0.0
10.0
modules/position_estimator_inav
Z velocity weight for GPS
Weight (cutoff frequency) for GPS altitude velocity measurements.
0.0
10.0
modules/position_estimator_inav
Z axis weight for vision
Weight (cutoff frequency) for vision altitude measurements. vision altitude data is very noisy and should be used only as slow correction for baro offset.
0.0
10.0
modules/position_estimator_inav
Z axis weight for lidar
Weight (cutoff frequency) for lidar measurements.
0.0
10.0
modules/position_estimator_inav
XY axis weight for GPS position
Weight (cutoff frequency) for GPS position measurements.
0.0
10.0
modules/position_estimator_inav
XY axis weight for GPS velocity
Weight (cutoff frequency) for GPS velocity measurements.
0.0
10.0
modules/position_estimator_inav
XY axis weight for vision position
Weight (cutoff frequency) for vision position measurements.
0.0
10.0
modules/position_estimator_inav
XY axis weight for vision velocity
Weight (cutoff frequency) for vision velocity measurements.
0.0
10.0
modules/position_estimator_inav
Weight for mocap system
Weight (cutoff frequency) for mocap position measurements.
0.0
10.0
modules/position_estimator_inav
XY axis weight for optical flow
Weight (cutoff frequency) for optical flow (velocity) measurements.
0.0
10.0
modules/position_estimator_inav
XY axis weight for resetting velocity
When velocity sources lost slowly decrease estimated horizontal velocity with this weight.
0.0
10.0
modules/position_estimator_inav
XY axis weight factor for GPS when optical flow available
When optical flow data available, multiply GPS weights (for position and velocity) by this factor.
0.0
1.0
modules/position_estimator_inav
Accelerometer bias estimation weight
Weight (cutoff frequency) for accelerometer bias estimation. 0 to disable.
0.0
0.1
modules/position_estimator_inav
Optical flow scale factor
Factor to scale optical flow
0.0
10.0
modules/position_estimator_inav
Minimal acceptable optical flow quality
0 - lowest quality, 1 - best quality.
0.0
1.0
modules/position_estimator_inav
Sonar maximal error for new surface
If sonar measurement error is larger than this value it skiped (spike) or accepted as new surface level (if offset is stable).
0.0
1.0
m
modules/position_estimator_inav
Land detector time
Vehicle assumed landed if no altitude changes happened during this time on low throttle.
0.0
10.0
s
modules/position_estimator_inav
Land detector altitude dispersion threshold
Dispersion threshold for triggering land detector.
0.0
10.0
m
modules/position_estimator_inav
Land detector throttle threshold
Value should be lower than minimal hovering thrust. Half of it is good choice.
0.0
1.0
modules/position_estimator_inav
GPS delay
GPS delay compensation
0.0
1.0
s
modules/position_estimator_inav
Flow module offset (center of rotation) in X direction
Yaw X flow compensation
-1.0
1.0
m
modules/position_estimator_inav
Flow module offset (center of rotation) in Y direction
Yaw Y flow compensation
-1.0
1.0
m
modules/position_estimator_inav
Mo-cap
Set to 0 if using fake GPS
modules/position_estimator_inav
Mo-cap disabled
Mo-cap enabled
LIDAR for altitude estimation
modules/position_estimator_inav
LIDAR calibration offset
LIDAR calibration offset. Value will be added to the measured distance
-20
20
m
modules/position_estimator_inav
Disable vision input
Set to the appropriate key (328754) to disable vision input.
0
328754
true
modules/position_estimator_inav
RC receiver type
Acceptable values: - RC_RECEIVER_SPEKTRUM = 1, - RC_RECEIVER_LEMONRX = 2,
platforms/qurt/fc_addon/rc_receiver
RC Channel 1 Minimum
Minimum value for RC channel 1
800.0
1500.0
us
modules/sensors
RC Channel 1 Trim
Mid point value (same as min for throttle)
800.0
2200.0
us
modules/sensors
RC Channel 1 Maximum
Maximum value for RC channel 1
1500.0
2200.0
us
modules/sensors
RC Channel 1 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 1 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
us
modules/sensors
RC Channel 2 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 2 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 2 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 2 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 2 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
us
modules/sensors
RC Channel 3 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 3 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 3 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 3 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 3 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
us
modules/sensors
RC Channel 4 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 4 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 4 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 4 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 4 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
us
modules/sensors
RC Channel 5 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 5 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 5 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 5 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 5 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
RC Channel 6 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 6 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 6 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 6 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 6 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
RC Channel 7 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 7 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 7 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 7 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 7 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
RC Channel 8 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 8 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 8 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 8 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 8 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
RC Channel 9 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 9 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 9 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 9 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 9 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
RC Channel 10 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 10 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 10 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 10 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 10 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
RC Channel 11 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 11 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 11 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 11 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 11 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
RC Channel 12 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 12 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 12 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 12 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 12 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
RC Channel 13 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 13 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 13 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 13 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 13 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
RC Channel 14 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 14 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 14 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 14 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 14 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
RC Channel 15 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 15 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 15 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 15 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 15 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
RC Channel 16 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 16 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 16 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 16 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 16 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
RC Channel 17 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 17 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 17 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 17 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 17 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
RC Channel 18 Minimum
Minimum value for this channel.
800.0
1500.0
us
modules/sensors
RC Channel 18 Trim
Mid point value (has to be set to the same as min for throttle channel).
800.0
2200.0
us
modules/sensors
RC Channel 18 Maximum
Maximum value for this channel.
1500.0
2200.0
us
modules/sensors
RC Channel 18 Reverse
Set to -1 to reverse channel.
-1.0
1.0
modules/sensors
RC Channel 18 dead zone
The +- range of this value around the trim value will be considered as zero.
0.0
100.0
modules/sensors
Relay control of relay 1 mapped to the Spektrum receiver power supply
0
1
modules/sensors
Relay controls DSM power
Disabled
DSM binding trigger
-1
1
modules/sensors
Start DSMX bind
Start DSM2 bind
Inactive
RC channel count
This parameter is used by Ground Station software to save the number of channels which were used during RC calibration. It is only meant for ground station use.
0
18
modules/sensors
RC mode switch threshold automatic distribution
This parameter is used by Ground Station software to specify whether the threshold values for flight mode switches were automatically calculated. 0 indicates that the threshold values were set by the user. Any other value indicates that the threshold value where automatically set by the ground station software. It is only meant for ground station use.
modules/sensors
Roll control channel mapping
The channel index (starting from 1 for channel 1) indicates which channel should be used for reading roll inputs from. A value of zero indicates the switch is not assigned.
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Pitch control channel mapping
The channel index (starting from 1 for channel 1) indicates which channel should be used for reading pitch inputs from. A value of zero indicates the switch is not assigned.
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Throttle control channel mapping
The channel index (starting from 1 for channel 1) indicates which channel should be used for reading throttle inputs from. A value of zero indicates the switch is not assigned.
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Yaw control channel mapping
The channel index (starting from 1 for channel 1) indicates which channel should be used for reading yaw inputs from. A value of zero indicates the switch is not assigned.
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
AUX1 Passthrough RC Channel
Default function: Camera pitch
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
AUX2 Passthrough RC Channel
Default function: Camera roll
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
AUX3 Passthrough RC Channel
Default function: Camera azimuth / yaw
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
AUX4 Passthrough RC Channel
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
AUX5 Passthrough RC Channel
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
PARAM1 tuning channel
Can be used for parameter tuning with the RC. This one is further referenced as the 1st parameter channel. Set to 0 to deactivate *
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
PARAM2 tuning channel
Can be used for parameter tuning with the RC. This one is further referenced as the 2nd parameter channel. Set to 0 to deactivate *
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
PARAM3 tuning channel
Can be used for parameter tuning with the RC. This one is further referenced as the 3th parameter channel. Set to 0 to deactivate *
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Failsafe channel PWM threshold
Set to a value slightly above the PWM value assumed by throttle in a failsafe event, but ensure it is below the PWM value assumed by throttle during normal operation.
0
2200
us
modules/sensors
PWM input channel that provides RSSI
0: do not read RSSI from input channel 1-18: read RSSI from specified input channel Specify the range for RSSI input with RC_RSSI_PWM_MIN and RC_RSSI_PWM_MAX parameters.
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Max input value for RSSI reading
Only used if RC_RSSI_PWM_CHAN > 0
0
2000
modules/sensors
Min input value for RSSI reading
Only used if RC_RSSI_PWM_CHAN > 0
0
2000
modules/sensors
Roll trim
The trim value is the actuator control value the system needs for straight and level flight. It can be calibrated by flying manually straight and level using the RC trims and copying them using the GCS.
-0.25
0.25
2
0.01
modules/commander
Pitch trim
The trim value is the actuator control value the system needs for straight and level flight. It can be calibrated by flying manually straight and level using the RC trims and copying them using the GCS.
-0.25
0.25
2
0.01
modules/commander
Yaw trim
The trim value is the actuator control value the system needs for straight and level flight. It can be calibrated by flying manually straight and level using the RC trims and copying them using the GCS.
-0.25
0.25
2
0.01
modules/commander
Loiter Time
The amount of time in seconds the system should loiter at current position before termination Set to -1 to make the system skip loitering
-1.0
s
1
0.1
modules/navigator
Single channel flight mode selection
If this parameter is non-zero, flight modes are only selected by this channel and are assigned to six slots.
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Mode switch channel mapping
This is the main flight mode selector. The channel index (starting from 1 for channel 1) indicates which channel should be used for deciding about the main mode. A value of zero indicates the switch is not assigned.
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Return switch channel
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Rattitude switch channel
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Position Control switch channel
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Loiter switch channel
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Acro switch channel
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Offboard switch channel
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Kill switch channel
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Flaps channel
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
Threshold for selecting assist mode
0-1 indicate where in the full channel range the threshold sits 0 : min 1 : max sign indicates polarity of comparison positive : true when channel>th negative : true when channel<th
-1
1
modules/sensors
Threshold for selecting auto mode
0-1 indicate where in the full channel range the threshold sits 0 : min 1 : max sign indicates polarity of comparison positive : true when channel>th negative : true when channel<th
-1
1
modules/sensors
Threshold for selecting rattitude mode
0-1 indicate where in the full channel range the threshold sits 0 : min 1 : max sign indicates polarity of comparison positive : true when channel>th negative : true when channel<th
-1
1
modules/sensors
Threshold for selecting posctl mode
0-1 indicate where in the full channel range the threshold sits 0 : min 1 : max sign indicates polarity of comparison positive : true when channel>th negative : true when channel<th
-1
1
modules/sensors
Threshold for selecting return to launch mode
0-1 indicate where in the full channel range the threshold sits 0 : min 1 : max sign indicates polarity of comparison positive : true when channel>th negative : true when channel<th
-1
1
modules/sensors
Threshold for selecting loiter mode
0-1 indicate where in the full channel range the threshold sits 0 : min 1 : max sign indicates polarity of comparison positive : true when channel>th negative : true when channel<th
-1
1
modules/sensors
Threshold for selecting acro mode
0-1 indicate where in the full channel range the threshold sits 0 : min 1 : max sign indicates polarity of comparison positive : true when channel>th negative : true when channel<th
-1
1
modules/sensors
Threshold for selecting offboard mode
0-1 indicate where in the full channel range the threshold sits 0 : min 1 : max sign indicates polarity of comparison positive : true when channel>th negative : true when channel<th
-1
1
modules/sensors
Threshold for the kill switch
0-1 indicate where in the full channel range the threshold sits 0 : min 1 : max sign indicates polarity of comparison positive : true when channel>th negative : true when channel<th
-1
1
modules/sensors
RTL altitude
Altitude to fly back in RTL in meters
0
150
m
1
0.5
modules/navigator
RTL loiter altitude
Stay at this altitude above home position after RTL descending. Land (i.e. slowly descend) from this altitude if autolanding allowed.
2
100
m
1
0.5
modules/navigator
RTL delay
Delay after descend before landing in RTL mode. If set to -1 the system will not land but loiter at RTL_DESCEND_ALT.
-1
300
s
1
0.5
modules/navigator
Minimum distance to trigger rising to a safe altitude
If the system is horizontally closer than this distance to home it will land straight on home instead of raising to the return altitude first.
0.5
20
m
1
0.5
modules/navigator
Runway takeoff with landing gear
lib/runway_takeoff
Specifies which heading should be held during runnway takeoff
0: airframe heading, 1: heading towards takeoff waypoint
0
1
lib/runway_takeoff
Waypoint
Airframe
Altitude AGL at which we have enough ground clearance to allow some roll.
Until RWTO_NAV_ALT is reached the plane is held level and only
rudder is used to keep the heading (see RWTO_HDG). This should be below
FW_CLMBOUT_DIFF if FW_CLMBOUT_DIFF > 0
0.0
100.0
m
1
1
lib/runway_takeoff
Max throttle during runway takeoff.
(Can be used to test taxi on runway)
0.0
1.0
norm
2
0.01
lib/runway_takeoff
Pitch setpoint during taxi / before takeoff airspeed is reached.
A taildragger with stearable wheel might need to pitch up
a little to keep it's wheel on the ground before airspeed
to takeoff is reached
0.0
20.0
deg
1
0.5
lib/runway_takeoff
Max pitch during takeoff.
Fixed-wing settings are used if set to 0. Note that there is also a minimum
pitch of 10 degrees during takeoff, so this must be larger if set
0.0
60.0
deg
1
0.5
lib/runway_takeoff
Max roll during climbout.
Roll is limited during climbout to ensure enough lift and prevents aggressive
navigation before we're on a safe height
0.0
60.0
deg
1
0.5
lib/runway_takeoff
Min. airspeed scaling factor for takeoff.
Pitch up will be commanded when the following airspeed is reached:
FW_AIRSPD_MIN * RWTO_AIRSPD_SCL
0.0
2.0
norm
2
0.01
lib/runway_takeoff
UTC offset (unit: min)
the difference in hours and minutes from Coordinated Universal Time (UTC) for a your place and date. for example, In case of South Korea(UTC+09:00), UTC offset is 540 min (9*60) refer to https://en.wikipedia.org/wiki/List_of_UTC_time_offsets
-1000
1000
min
modules/logger
Logging rate
A value of -1 indicates the commandline argument should be obeyed. A value of 0 sets the minimum rate, any other value is interpreted as rate in Hertz. This parameter is only read out before logging starts (which commonly is before arming).
-1
250
Hz
modules/sdlog2
Extended logging mode
A value of -1 indicates the command line argument should be obeyed. A value of 0 disables extended logging mode, a value of 1 enables it. This parameter is only read out before logging starts (which commonly is before arming).
-1
1
modules/sdlog2
Enable
Disable
Command Line
Use timestamps only if GPS 3D fix is available
Constrain the log folder creation to only use the time stamp if a 3D GPS lock is present.
modules/sdlog2
Give logging app higher thread priority to avoid data loss.
This is used for gathering replay logs for the ekf2 module
A value of 0 indicates that the default priority is used. Increasing the parameter in steps of one increases the priority.
0
3
modules/sdlog2
Default priority
Low priority
Max priority
Medium priority
ID of the board this parameter set was calibrated on
modules/sensors
ID of the Gyro that the calibration is for
modules/sensors
Gyro X-axis offset
-10.0
10.0
modules/sensors
Gyro Y-axis offset
-10.0
10.0
modules/sensors
Gyro Z-axis offset
-5.0
5.0
modules/sensors
Gyro X-axis scaling factor
-1.5
1.5
modules/sensors
Gyro Y-axis scaling factor
-1.5
1.5
modules/sensors
Gyro Z-axis scaling factor
-1.5
1.5
modules/sensors
ID of Magnetometer the calibration is for
modules/sensors
Rotation of magnetometer 0 relative to airframe
An internal magnetometer will force a value of -1, so a GCS should only attempt to configure the rotation if the value is greater than or equal to zero.
-1
30
modules/sensors
Pitch 90°
Pitch 270°
Roll 270°
Roll 270°, Yaw 45°
Roll 270°, Yaw 90°
Roll 270°, Yaw 135°
Yaw 45°
No rotation
Yaw 135°
Yaw 90°
Yaw 225°
Yaw 180°
Yaw 315°
Yaw 270°
Roll 180°, Yaw 45°
Roll 180°
Roll 180°, Yaw 135°
Roll 180°, Yaw 90°
Roll 180°, Yaw 225°
Pitch 180°
Roll 180°, Yaw 315°
Roll 180°, Yaw 270°
Roll 90°, Yaw 45°
Roll 90°
Roll 90°, Yaw 135°
Roll 90°, Yaw 90°
Internal mag
Magnetometer X-axis offset
-500.0
500.0
modules/sensors
Magnetometer Y-axis offset
-500.0
500.0
modules/sensors
Magnetometer Z-axis offset
-500.0
500.0
modules/sensors
Magnetometer X-axis scaling factor
modules/sensors
Magnetometer Y-axis scaling factor
modules/sensors
Magnetometer Z-axis scaling factor
modules/sensors
ID of the Accelerometer that the calibration is for
modules/sensors
Accelerometer X-axis offset
modules/sensors
Accelerometer Y-axis offset
modules/sensors
Accelerometer Z-axis offset
modules/sensors
Accelerometer X-axis scaling factor
modules/sensors
Accelerometer Y-axis scaling factor
modules/sensors
Accelerometer Z-axis scaling factor
modules/sensors
ID of the Gyro that the calibration is for
modules/sensors
Gyro X-axis offset
-10.0
10.0
modules/sensors
Gyro Y-axis offset
-10.0
10.0
modules/sensors
Gyro Z-axis offset
-5.0
5.0
modules/sensors
Gyro X-axis scaling factor
-1.5
1.5
modules/sensors
Gyro Y-axis scaling factor
-1.5
1.5
modules/sensors
Gyro Z-axis scaling factor
-1.5
1.5
modules/sensors
ID of Magnetometer the calibration is for
modules/sensors
Rotation of magnetometer 1 relative to airframe
An internal magnetometer will force a value of -1, so a GCS should only attempt to configure the rotation if the value is greater than or equal to zero.
-1
30
modules/sensors
Pitch 90°
Pitch 270°
Roll 270°
Roll 270°, Yaw 45°
Roll 270°, Yaw 90°
Roll 270°, Yaw 135°
Yaw 45°
No rotation
Yaw 135°
Yaw 90°
Yaw 225°
Yaw 180°
Yaw 315°
Yaw 270°
Roll 180°, Yaw 45°
Roll 180°
Roll 180°, Yaw 135°
Roll 180°, Yaw 90°
Roll 180°, Yaw 225°
Pitch 180°
Roll 180°, Yaw 315°
Roll 180°, Yaw 270°
Roll 90°, Yaw 45°
Roll 90°
Roll 90°, Yaw 135°
Roll 90°, Yaw 90°
Internal mag
Magnetometer X-axis offset
-500.0
500.0
modules/sensors
Magnetometer Y-axis offset
-500.0
500.0
modules/sensors
Magnetometer Z-axis offset
-500.0
500.0
modules/sensors
Magnetometer X-axis scaling factor
modules/sensors
Magnetometer Y-axis scaling factor
modules/sensors
Magnetometer Z-axis scaling factor
modules/sensors
ID of the Accelerometer that the calibration is for
modules/sensors
Accelerometer X-axis offset
modules/sensors
Accelerometer Y-axis offset
modules/sensors
Accelerometer Z-axis offset
modules/sensors
Accelerometer X-axis scaling factor
modules/sensors
Accelerometer Y-axis scaling factor
modules/sensors
Accelerometer Z-axis scaling factor
modules/sensors
ID of the Gyro that the calibration is for
modules/sensors
Gyro X-axis offset
-10.0
10.0
modules/sensors
Gyro Y-axis offset
-10.0
10.0
modules/sensors
Gyro Z-axis offset
-5.0
5.0
modules/sensors
Gyro X-axis scaling factor
-1.5
1.5
modules/sensors
Gyro Y-axis scaling factor
-1.5
1.5
modules/sensors
Gyro Z-axis scaling factor
-1.5
1.5
modules/sensors
ID of Magnetometer the calibration is for
modules/sensors
Rotation of magnetometer 2 relative to airframe
An internal magnetometer will force a value of -1, so a GCS should only attempt to configure the rotation if the value is greater than or equal to zero.
-1
30
modules/sensors
Pitch 90°
Pitch 270°
Roll 270°
Roll 270°, Yaw 45°
Roll 270°, Yaw 90°
Roll 270°, Yaw 135°
Yaw 45°
No rotation
Yaw 135°
Yaw 90°
Yaw 225°
Yaw 180°
Yaw 315°
Yaw 270°
Roll 180°, Yaw 45°
Roll 180°
Roll 180°, Yaw 135°
Roll 180°, Yaw 90°
Roll 180°, Yaw 225°
Pitch 180°
Roll 180°, Yaw 315°
Roll 180°, Yaw 270°
Roll 90°, Yaw 45°
Roll 90°
Roll 90°, Yaw 135°
Roll 90°, Yaw 90°
Internal mag
Magnetometer X-axis offset
-500.0
500.0
modules/sensors
Magnetometer Y-axis offset
-500.0
500.0
modules/sensors
Magnetometer Z-axis offset
-500.0
500.0
modules/sensors
Magnetometer X-axis scaling factor
modules/sensors
Magnetometer Y-axis scaling factor
modules/sensors
Magnetometer Z-axis scaling factor
modules/sensors
ID of the Accelerometer that the calibration is for
modules/sensors
Accelerometer X-axis offset
modules/sensors
Accelerometer Y-axis offset
modules/sensors
Accelerometer Z-axis offset
modules/sensors
Accelerometer X-axis scaling factor
modules/sensors
Accelerometer Y-axis scaling factor
modules/sensors
Accelerometer Z-axis scaling factor
modules/sensors
Primary accel ID
modules/sensors
Primary gyro ID
modules/sensors
Primary mag ID
modules/sensors
Bitfield selecting mag sides for calibration
DETECT_ORIENTATION_TAIL_DOWN = 1 DETECT_ORIENTATION_NOSE_DOWN = 2 DETECT_ORIENTATION_LEFT = 4 DETECT_ORIENTATION_RIGHT = 8 DETECT_ORIENTATION_UPSIDE_DOWN = 16 DETECT_ORIENTATION_RIGHTSIDE_UP = 32
34
63
modules/sensors
Two side calibration
Six side calibration
Three side calibration
Primary baro ID
modules/sensors
Differential pressure sensor offset
The offset (zero-reading) in Pascal
modules/sensors
Differential pressure sensor analog scaling
Pick the appropriate scaling from the datasheet. this number defines the (linear) conversion from voltage to Pascal (pa). For the MPXV7002DP this is 1000. NOTE: If the sensor always registers zero, try switching the static and dynamic tubes.
modules/sensors
QNH for barometer
500
1500
hPa
modules/sensors
Board rotation
This parameter defines the rotation of the FMU board relative to the platform.
modules/sensors
Pitch 90°
Pitch 270°
Roll 270°
Roll 270°, Yaw 45°
Roll 270°, Yaw 90°
Roll 270°, Yaw 135°
Yaw 45°
No rotation
Yaw 135°
Yaw 90°
Yaw 225°
Yaw 180°
Yaw 315°
Yaw 270°
Roll 180°, Yaw 45°
Roll 180°
Roll 180°, Yaw 135°
Roll 180°, Yaw 90°
Roll 180°, Yaw 225°
Pitch 180°
Roll 180°, Yaw 315°
Roll 180°, Yaw 270°
Roll 90°, Yaw 45°
Roll 90°
Roll 90°, Yaw 135°
Roll 90°, Yaw 90°
PX4Flow board rotation
This parameter defines the rotation of the PX4FLOW board relative to the platform. Zero rotation is defined as Y on flow board pointing towards front of vehicle
true
modules/sensors
Yaw 45°
No rotation
Yaw 135°
Yaw 90°
Yaw 225°
Yaw 180°
Yaw 315°
Yaw 270°
Board rotation Y (Pitch) offset
This parameter defines a rotational offset in degrees around the Y (Pitch) axis. It allows the user to fine tune the board offset in the event of misalignment.
deg
modules/sensors
Board rotation X (Roll) offset
This parameter defines a rotational offset in degrees around the X (Roll) axis It allows the user to fine tune the board offset in the event of misalignment.
deg
modules/sensors
Board rotation Z (YAW) offset
This parameter defines a rotational offset in degrees around the Z (Yaw) axis. It allows the user to fine tune the board offset in the event of misalignment.
deg
modules/sensors
External magnetometer rotation
modules/sensors
Pitch 90°
Pitch 270°
Roll 270°
Roll 270°, Yaw 45°
Roll 270°, Yaw 90°
Roll 270°, Yaw 135°
Yaw 45°
No rotation
Yaw 135°
Yaw 90°
Yaw 225°
Yaw 180°
Yaw 315°
Yaw 270°
Roll 180°, Yaw 45°
Roll 180°
Roll 180°, Yaw 135°
Roll 180°, Yaw 90°
Roll 180°, Yaw 225°
Pitch 180°
Roll 180°, Yaw 315°
Roll 180°, Yaw 270°
Roll 90°, Yaw 45°
Roll 90°
Roll 90°, Yaw 135°
Roll 90°, Yaw 90°
Select primary magnetometer
0
2
modules/sensors
External is primary Mag
Auto-select Mag
Internal is primary Mag
Lidar-Lite (LL40LS) PWM
true
modules/sensors
Lightware SF0x laser rangefinder
true
modules/sensors
ESC model
See esc_model_t enum definition in uart_esc_dev.h for all supported ESC model enum values.
platforms/qurt/fc_addon/uart_esc
ESC_350QX
ESC_200QX
ESC_210QC
ESC UART baud rate
Default rate is 250Kbps, whic is used in off-the-shelf QRP ESC products.
platforms/qurt/fc_addon/uart_esc
Motor 1 Mapping
platforms/qurt/fc_addon/uart_esc
Motor 2 Mapping
platforms/qurt/fc_addon/uart_esc
Motor 3 Mapping
platforms/qurt/fc_addon/uart_esc
Motor 4 Mapping
platforms/qurt/fc_addon/uart_esc
Interval of one subscriber in the example in ms
ms
examples/subscriber
Float Demonstration Parameter in the Example
examples/subscriber
Auto-start script index
CHANGING THIS VALUE REQUIRES A RESTART. Defines the auto-start script used to bootstrap the system.
0
99999
true
modules/systemlib
Automatically configure default values
Set to 1 to reset parameters on next system startup (setting defaults). Platform-specific values are used if available. RC* parameters are preserved.
0
1
modules/systemlib
Reset parameters
Keep parameters
Set usage of IO board
Can be used to use a standard startup script but with a FMU only set-up. Set to 0 to force the FMU only set-up.
0
1
modules/systemlib
Set restart type
Set by px4io to indicate type of restart
0
2
modules/systemlib
Data survives in-flight resets only
Data survives resets
Data does not survive reset
Set multicopter estimator group
Set the group of estimators used for multicopters and vtols
0
2
true
modules/systemlib
local_position_estimator, attitude_estimator_q
position_estimator_inav, attitude_estimator_q
ekf2
TELEM2 as companion computer link
CHANGING THIS VALUE REQUIRES A RESTART. Configures the baud rate of the TELEM2 connector as companion computer interface.
0
1921600
true
modules/systemlib
FrSky Telemetry
Normal Telemetry (57600 baud, 8N1)
Command Receiver (57600 baud, 8N1)
OSD (57600 baud, 8N1)
Disabled
ESP8266 (921600 baud, 8N1)
Companion Link (57600 baud, 8N1)
Companion Link (921600 baud, 8N1)
Parameter version
This monotonically increasing number encodes the parameter compatibility set. whenever it increases parameters might not be backwards compatible and ground control stations should suggest a fresh configuration.
0
modules/systemlib
SD logger
0
1
true
modules/systemlib
new logger (experimental)
sdlog2 (default)
RGB Led brightness limit
Set to 0 to disable, 1 for minimum brightness up to 15 (max)
0
15
drivers/rgbled
TEST_PARAMS
systemcmds/tests
TEST_MIN
modules/controllib_test
TEST_MAX
modules/controllib_test
TEST_TRIM
modules/controllib_test
TEST_HP
modules/controllib_test
TEST_LP
modules/controllib_test
TEST_P
modules/controllib_test
TEST_I
modules/controllib_test
TEST_I_MAX
modules/controllib_test
TEST_D
modules/controllib_test
TEST_D_LP
modules/controllib_test
TEST_MEAN
modules/controllib_test
TEST_DEV
modules/controllib_test
UAVCAN mode
0 - UAVCAN disabled. 1 - Enabled support for UAVCAN actuators and sensors. 2 - Enabled support for dynamic node ID allocation and firmware update. 3 - Sets the motor control outputs to UAVCAN and enables support for dynamic node ID allocation and firmware update.
0
3
modules/uavcan
Enabled
Disabled
Motors/Update
Dynamic ID/Update
UAVCAN Node ID
Read the specs at http://uavcan.org to learn more about Node ID.
1
125
modules/uavcan
UAVCAN CAN bus bitrate
20000
1000000
bit/s
modules/uavcan
VTOL number of engines
0
8
0
1
modules/vtol_att_control
Idle speed of VTOL when in multicopter mode
900
2000
us
0
1
modules/vtol_att_control
Minimum airspeed in multicopter mode
This is the minimum speed of the air flowing over the control surfaces.
0.0
30.0
m/s
2
0.5
modules/vtol_att_control
Maximum airspeed in multicopter mode
This is the maximum speed of the air flowing over the control surfaces.
0.0
30.0
m/s
2
0.5
modules/vtol_att_control
Trim airspeed when in multicopter mode
This is the airflow over the control surfaces for which no airspeed scaling is applied in multicopter mode.
0.0
30.0
m/s
2
0.5
modules/vtol_att_control
Permanent stabilization in fw mode
If set to one this parameter will cause permanent attitude stabilization in fw mode. This parameter has been introduced for pure convenience sake.
modules/vtol_att_control
Fixed wing pitch trim
This parameter allows to adjust the neutral elevon position in fixed wing mode.
-1.0
1.0
2
0.01
modules/vtol_att_control
Motor max power
Indicates the maximum power the motor is able to produce. Used to calculate propeller efficiency map.
1
10000
W
0
1
modules/vtol_att_control
Propeller efficiency parameter
Influences propeller efficiency at different power settings. Should be tuned beforehand.
0.0
1.0
3
0.01
modules/vtol_att_control
Total airspeed estimate low-pass filter gain
Gain for tuning the low-pass filter for the total airspeed estimate
0.0
1.0
3
0.01
modules/vtol_att_control
VTOL Type (Tailsitter=0, Tiltrotor=1, Standard=2)
0
2
0
modules/vtol_att_control
Tiltrotor
Tailsitter
Standard
Lock elevons in multicopter mode
If set to 1 the elevons are locked in multicopter mode
modules/vtol_att_control
Duration of a front transition
Time in seconds used for a transition
0.00
10.00
s
2
1
modules/vtol_att_control
Duration of a back transition
Time in seconds used for a back transition
0.00
10.00
s
2
1
modules/vtol_att_control
Transition blending airspeed
Airspeed at which we can start blending both fw and mc controls. Set to 0 to disable.
0.00
30.00
m/s
2
1
modules/vtol_att_control
Transition airspeed
Airspeed at which we can switch to fw mode
0.00
30.00
m/s
2
1
modules/vtol_att_control
Optimal recovery strategy for pitch-weak tailsitters
modules/vtol_att_control
Weather-vane yaw rate scale
The desired yawrate from the controller will be scaled in order to avoid yaw fighting against the wind.
0.0
1.0
3
0.01
modules/vtol_att_control
Front transition timeout
Time in seconds after which transition will be cancelled. Disabled if set to 0.
0.00
30.00
s
2
1
modules/vtol_att_control
Front transition minimum time
Minimum time in seconds for front transition.
0.0
10.0
s
modules/vtol_att_control
Force VTOL mode takeoff and land
0
1
modules/vtol_att_control
Position of tilt servo in mc mode
0.0
1.0
3
0.01
modules/vtol_att_control
Position of tilt servo in transition mode
0.0
1.0
3
0.01
modules/vtol_att_control
Position of tilt servo in fw mode
0.0
1.0
3
0.01
modules/vtol_att_control
Duration of front transition phase 2
Time in seconds it should take for the rotors to rotate forward completely from the point when the plane has picked up enough airspeed and is ready to go into fixed wind mode.
0.1
5.0
s
3
0.01
modules/vtol_att_control
The channel number of motors that must be turned off in fixed wing mode
0
12345678
0
1
modules/vtol_att_control
Target throttle value for pusher/puller motor during the transition to fw mode
0.0
1.0
3
0.01
modules/vtol_att_control
Maximum allowed down-pitch the controller is able to demand. This prevents large, negative
lift values being created when facing strong winds. The vehicle will use the pusher motor
to accelerate forward if necessary
0.0
45.0
modules/vtol_att_control
Fixed wing thrust scale for hover forward flight
Scale applied to fixed wing thrust being used as source for forward acceleration in multirotor mode. This technique can be used to avoid the plane having to pitch down a lot in order to move forward. Setting this value to 0 (default) will disable this strategy.
0.0
2.0
modules/vtol_att_control
QuadChute
Minimum altitude for fixed wing flight, when in fixed wing the altitude drops below this altitude the vehicle will transition back to MC mode and enter failsafe RTL
0.0
200.0
modules/vtol_att_control
mTECS enabled
modules/fw_pos_control_l1/mtecs
Total Energy Rate Control Feedforward
Maps the total energy rate setpoint to the throttle setpoint
0.0
10.0
modules/fw_pos_control_l1/mtecs
Total Energy Rate Control P
Maps the total energy rate error to the throttle setpoint
0.0
10.0
modules/fw_pos_control_l1/mtecs
Total Energy Rate Control I
Maps the integrated total energy rate to the throttle setpoint
0.0
10.0
modules/fw_pos_control_l1/mtecs
Total Energy Rate Control Offset (Cruise throttle sp)
0.0
10.0
modules/fw_pos_control_l1/mtecs
Energy Distribution Rate Control Feedforward
Maps the energy distribution rate setpoint to the pitch setpoint
0.0
10.0
modules/fw_pos_control_l1/mtecs
Energy Distribution Rate Control P
Maps the energy distribution rate error to the pitch setpoint
0.0
10.0
modules/fw_pos_control_l1/mtecs
Energy Distribution Rate Control I
Maps the integrated energy distribution rate error to the pitch setpoint
0.0
10.0
modules/fw_pos_control_l1/mtecs
Total Energy Distribution Offset (Cruise pitch sp)
0.0
10.0
modules/fw_pos_control_l1/mtecs
Minimal Throttle Setpoint
0.0
1.0
modules/fw_pos_control_l1/mtecs
Maximal Throttle Setpoint
0.0
1.0
modules/fw_pos_control_l1/mtecs
Minimal Pitch Setpoint in Degrees
-90.0
90.0
deg
modules/fw_pos_control_l1/mtecs
Maximal Pitch Setpoint in Degrees
-90.0
90.0
deg
modules/fw_pos_control_l1/mtecs
Lowpass (cutoff freq.) for altitude
Hz
modules/fw_pos_control_l1/mtecs
Lowpass (cutoff freq.) for the flight path angle
Hz
modules/fw_pos_control_l1/mtecs
P gain for the altitude control
Maps the altitude error to the flight path angle setpoint
0.0
10.0
modules/fw_pos_control_l1/mtecs
D gain for the altitude control
Maps the change of altitude error to the flight path angle setpoint
0.0
10.0
modules/fw_pos_control_l1/mtecs
Lowpass for FPA error derivative calculation (see MT_FPA_D)
modules/fw_pos_control_l1/mtecs
Minimal flight path angle setpoint
-90.0
90.0
deg
modules/fw_pos_control_l1/mtecs
Maximal flight path angle setpoint
-90.0
90.0
deg
modules/fw_pos_control_l1/mtecs
Lowpass (cutoff freq.) for airspeed
modules/fw_pos_control_l1/mtecs
Airspeed derivative calculation lowpass
modules/fw_pos_control_l1/mtecs
P gain for the airspeed control
Maps the airspeed error to the acceleration setpoint
0.0
10.0
modules/fw_pos_control_l1/mtecs
D gain for the airspeed control
Maps the change of airspeed error to the acceleration setpoint
0.0
10.0
modules/fw_pos_control_l1/mtecs
Lowpass for ACC error derivative calculation (see MT_ACC_D)
modules/fw_pos_control_l1/mtecs
Minimal acceleration (air)
m/s/s
modules/fw_pos_control_l1/mtecs
Maximal acceleration (air)
m/s/s
modules/fw_pos_control_l1/mtecs
Minimal throttle during takeoff
0.0
1.0
modules/fw_pos_control_l1/mtecs
Maximal throttle during takeoff
0.0
1.0
modules/fw_pos_control_l1/mtecs
Minimal pitch during takeoff
-90.0
90.0
deg
modules/fw_pos_control_l1/mtecs
Maximal pitch during takeoff
-90.0
90.0
deg
modules/fw_pos_control_l1/mtecs
Minimal throttle in underspeed mode
0.0
1.0
modules/fw_pos_control_l1/mtecs
Maximal throttle in underspeed mode
0.0
1.0
modules/fw_pos_control_l1/mtecs
Minimal pitch in underspeed mode
-90.0
90.0
deg
modules/fw_pos_control_l1/mtecs
Maximal pitch in underspeed mode
-90.0
90.0
deg
modules/fw_pos_control_l1/mtecs
Minimal throttle in landing mode (only last phase of landing)
0.0
1.0
modules/fw_pos_control_l1/mtecs
Maximal throttle in landing mode (only last phase of landing)
0.0
1.0
modules/fw_pos_control_l1/mtecs
Minimal pitch in landing mode
-90.0
90.0
deg
modules/fw_pos_control_l1/mtecs
Maximal pitch in landing mode
-90.0
90.0
deg
modules/fw_pos_control_l1/mtecs
Integrator Limit for Total Energy Rate Control
0.0
10.0
modules/fw_pos_control_l1/mtecs
Integrator Limit for Energy Distribution Rate Control
0.0
10.0
modules/fw_pos_control_l1/mtecs
SEG_TH2V_P
modules/segway
SEG_TH2V_I
modules/segway
SEG_TH2V_I_MAX
modules/segway
SEG_Q2V
modules/segway
Failsafe channel mapping
The RC mapping index indicates which channel is used for failsafe If 0, whichever channel is mapped to throttle is used otherwise the value indicates the specific rc channel to use
0
18
modules/sensors
Channel 11
Channel 10
Channel 13
Channel 12
Channel 15
Channel 14
Channel 17
Channel 16
Channel 18
Channel 1
Unassigned
Channel 3
Channel 2
Channel 5
Channel 4
Channel 7
Channel 6
Channel 9
Channel 8
First flightmode slot (1000-1160)
If the main switch channel is in this range the selected flight mode will be applied.
modules/commander
Land
Takeoff
Follow Me
Altitude
Manual
Mission
Position
Unassigned
Hold
Offboard
Acro
Rattitude
Return
Stabilized
Second flightmode slot (1160-1320)
If the main switch channel is in this range the selected flight mode will be applied.
modules/commander
Land
Takeoff
Follow Me
Altitude
Manual
Mission
Position
Unassigned
Hold
Offboard
Acro
Rattitude
Return
Stabilized
Third flightmode slot (1320-1480)
If the main switch channel is in this range the selected flight mode will be applied.
modules/commander
Land
Takeoff
Follow Me
Altitude
Manual
Mission
Position
Unassigned
Hold
Offboard
Acro
Rattitude
Return
Stabilized
Fourth flightmode slot (1480-1640)
If the main switch channel is in this range the selected flight mode will be applied.
modules/commander
Land
Takeoff
Follow Me
Altitude
Manual
Mission
Position
Unassigned
Hold
Offboard
Acro
Rattitude
Return
Stabilized
Fifth flightmode slot (1640-1800)
If the main switch channel is in this range the selected flight mode will be applied.
modules/commander
Land
Takeoff
Follow Me
Altitude
Manual
Mission
Position
Unassigned
Hold
Offboard
Acro
Rattitude
Return
Stabilized
Sixth flightmode slot (1800-2000)
If the main switch channel is in this range the selected flight mode will be applied.
modules/commander
Land
Takeoff
Follow Me
Altitude
Manual
Mission
Position
Unassigned
Hold
Offboard
Acro
Rattitude
Return
Stabilized
EXFW_HDNG_P
examples/fixedwing_control
EXFW_ROLL_P
examples/fixedwing_control
EXFW_PITCH_P
examples/fixedwing_control
RV_YAW_P
examples/rover_steering_control