@ -3114,7 +3114,7 @@ but also ignore less noise</short_desc>
<min > 0</min> <min > 0</min>
<max > 300</max> <max > 300</max>
<unit > s</unit> <unit > s</unit>
<scope > drivers/iridiumsbd</scope> <scope > drivers/telemetry/ iridiumsbd</scope>
</parameter> </parameter>
</group> </group>
<group name= "Land Detector" > <group name= "Land Detector" >
@ -3655,17 +3655,41 @@ Used to calculate increased terrain random walk nosie due to movement</short_des
<reboot_required > true</reboot_required> <reboot_required > true</reboot_required>
<scope > modules/mavlink</scope> <scope > modules/mavlink</scope>
</parameter> </parameter>
<parameter default= "1" name= "MAV_TEST_PAR" type= "INT32" >
<short_desc > Test parameter</short_desc>
<long_desc > This parameter is not actively used by the system. Its purpose is to allow testing the parameter interface on the communication level.</long_desc>
<min > -1000</min>
<max > 1000</max>
<scope > modules/mavlink</scope>
</parameter>
<parameter default= "2" name= "MAV_TYPE" type= "INT32" > <parameter default= "2" name= "MAV_TYPE" type= "INT32" >
<short_desc > MAVLink airframe type</short_desc> <short_desc > MAVLink airframe type</short_desc>
<min > 1</min> <min > 1</min>
<max > 27</max>
<scope > modules/mavlink</scope> <scope > modules/mavlink</scope>
<values >
<value code= "0" > Generic micro air vehicle</value>
<value code= "1" > Fixed wing aircraft</value>
<value code= "2" > Quadrotor</value>
<value code= "3" > Coaxial helicopter</value>
<value code= "4" > Normal helicopter with tail rotor</value>
<value code= "5" > Ground installation</value>
<value code= "6" > Operator control unit / ground control station</value>
<value code= "7" > Airship, controlled</value>
<value code= "8" > Free balloon, uncontrolled</value>
<value code= "9" > Rocket</value>
<value code= "10" > Ground rover</value>
<value code= "11" > Surface vessel, boat, ship</value>
<value code= "12" > Submarine</value>
<value code= "13" > Hexarotor</value>
<value code= "14" > Octorotor</value>
<value code= "15" > Tricopter</value>
<value code= "16" > Flapping wing</value>
<value code= "17" > Kite</value>
<value code= "18" > Onboard companion controller</value>
<value code= "19" > Two-rotor VTOL using control surfaces in vertical operation in addition. Tailsitter.</value>
<value code= "20" > Quad-rotor VTOL using a V-shaped quad config in vertical operation. Tailsitter.</value>
<value code= "21" > Tiltrotor VTOL</value>
<value code= "22" > VTOL reserved 2</value>
<value code= "23" > VTOL reserved 3</value>
<value code= "24" > VTOL reserved 4</value>
<value code= "25" > VTOL reserved 5</value>
<value code= "26" > Onboard gimbal</value>
<value code= "27" > Onboard ADSB peripheral</value>
</values>
</parameter> </parameter>
<parameter default= "0" name= "MAV_USEHILGPS" type= "INT32" > <parameter default= "0" name= "MAV_USEHILGPS" type= "INT32" >
<short_desc > Use/Accept HIL GPS message even if not in HIL mode</short_desc> <short_desc > Use/Accept HIL GPS message even if not in HIL mode</short_desc>
@ -3930,6 +3954,15 @@ Used to calculate increased terrain random walk nosie due to movement</short_des
<value code= "6" > Lockdown</value> <value code= "6" > Lockdown</value>
</values> </values>
</parameter> </parameter>
<parameter default= "120.0" name= "NAV_RCL_LT" type= "FLOAT" >
<short_desc > RC Loss Loiter Time (CASA Outback Challenge rules)</short_desc>
<long_desc > The amount of time in seconds the system should loiter at current position before termination. Only applies if NAV_RCL_ACT is set to 2 (CASA Outback Challenge rules). Set to -1 to make the system skip loitering.</long_desc>
<min > -1.0</min>
<unit > s</unit>
<decimal > 1</decimal>
<increment > 0.1</increment>
<scope > modules/navigator</scope>
</parameter>
<parameter default= "1" name= "NAV_TRAFF_AVOID" type= "INT32" > <parameter default= "1" name= "NAV_TRAFF_AVOID" type= "INT32" >
<short_desc > Set traffic avoidance mode</short_desc> <short_desc > Set traffic avoidance mode</short_desc>
<long_desc > Enabling this will allow the system to respond to transponder data from e.g. ADSB transponders</long_desc> <long_desc > Enabling this will allow the system to respond to transponder data from e.g. ADSB transponders</long_desc>
@ -4503,6 +4536,7 @@ the vehicle will accelerate at this rate until the normal position control speed
is 90 degrees. It should be lower than MPC_XY_CRUISE</short_desc> is 90 degrees. It should be lower than MPC_XY_CRUISE</short_desc>
<long_desc > Applies only in AUTO modes (includes also RTL / hold / etc.)</long_desc> <long_desc > Applies only in AUTO modes (includes also RTL / hold / etc.)</long_desc>
<min > 1.0</min> <min > 1.0</min>
<max > 20.0</max>
<unit > m/s</unit> <unit > m/s</unit>
<decimal > 2</decimal> <decimal > 2</decimal>
<increment > 1</increment> <increment > 1</increment>
@ -5568,6 +5602,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC10_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC10_TRIM" type= "FLOAT" >
<short_desc > RC channel 10 trim</short_desc> <short_desc > RC channel 10 trim</short_desc>
@ -5606,6 +5644,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC11_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC11_TRIM" type= "FLOAT" >
<short_desc > RC channel 11 trim</short_desc> <short_desc > RC channel 11 trim</short_desc>
@ -5644,6 +5686,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC12_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC12_TRIM" type= "FLOAT" >
<short_desc > RC channel 12 trim</short_desc> <short_desc > RC channel 12 trim</short_desc>
@ -5682,6 +5728,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC13_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC13_TRIM" type= "FLOAT" >
<short_desc > RC channel 13 trim</short_desc> <short_desc > RC channel 13 trim</short_desc>
@ -5720,6 +5770,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC14_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC14_TRIM" type= "FLOAT" >
<short_desc > RC channel 14 trim</short_desc> <short_desc > RC channel 14 trim</short_desc>
@ -5758,6 +5812,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC15_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC15_TRIM" type= "FLOAT" >
<short_desc > RC channel 15 trim</short_desc> <short_desc > RC channel 15 trim</short_desc>
@ -5796,6 +5854,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC16_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC16_TRIM" type= "FLOAT" >
<short_desc > RC channel 16 trim</short_desc> <short_desc > RC channel 16 trim</short_desc>
@ -5834,6 +5896,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC17_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC17_TRIM" type= "FLOAT" >
<short_desc > RC channel 17 trim</short_desc> <short_desc > RC channel 17 trim</short_desc>
@ -5872,6 +5938,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC18_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC18_TRIM" type= "FLOAT" >
<short_desc > RC channel 18 trim</short_desc> <short_desc > RC channel 18 trim</short_desc>
@ -5911,6 +5981,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500.0" name= "RC1_TRIM" type= "FLOAT" > <parameter default= "1500.0" name= "RC1_TRIM" type= "FLOAT" >
<short_desc > RC channel 1 trim</short_desc> <short_desc > RC channel 1 trim</short_desc>
@ -5950,6 +6024,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500.0" name= "RC2_TRIM" type= "FLOAT" > <parameter default= "1500.0" name= "RC2_TRIM" type= "FLOAT" >
<short_desc > RC channel 2 trim</short_desc> <short_desc > RC channel 2 trim</short_desc>
@ -5989,6 +6067,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC3_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC3_TRIM" type= "FLOAT" >
<short_desc > RC channel 3 trim</short_desc> <short_desc > RC channel 3 trim</short_desc>
@ -6028,6 +6110,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC4_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC4_TRIM" type= "FLOAT" >
<short_desc > RC channel 4 trim</short_desc> <short_desc > RC channel 4 trim</short_desc>
@ -6066,6 +6152,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC5_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC5_TRIM" type= "FLOAT" >
<short_desc > RC channel 5 trim</short_desc> <short_desc > RC channel 5 trim</short_desc>
@ -6104,6 +6194,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC6_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC6_TRIM" type= "FLOAT" >
<short_desc > RC channel 6 trim</short_desc> <short_desc > RC channel 6 trim</short_desc>
@ -6142,6 +6236,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC7_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC7_TRIM" type= "FLOAT" >
<short_desc > RC channel 7 trim</short_desc> <short_desc > RC channel 7 trim</short_desc>
@ -6180,6 +6278,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC8_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC8_TRIM" type= "FLOAT" >
<short_desc > RC channel 8 trim</short_desc> <short_desc > RC channel 8 trim</short_desc>
@ -6218,6 +6320,10 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<min > -1.0</min> <min > -1.0</min>
<max > 1.0</max> <max > 1.0</max>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
<values >
<value code= "-1.0" > Reverse</value>
<value code= "1.0" > Normal</value>
</values>
</parameter> </parameter>
<parameter default= "1500" name= "RC9_TRIM" type= "FLOAT" > <parameter default= "1500" name= "RC9_TRIM" type= "FLOAT" >
<short_desc > RC channel 9 trim</short_desc> <short_desc > RC channel 9 trim</short_desc>
@ -6243,14 +6349,14 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
</parameter> </parameter>
<parameter default= "10.0" name= "RC_FLT_CUTOFF" type= "FLOAT" > <parameter default= "10.0" name= "RC_FLT_CUTOFF" type= "FLOAT" >
<short_desc > Cutoff frequency for the low pass filter on roll,pitch, yaw and throttle</short_desc> <short_desc > Cutoff frequency for the low pass filter on roll, pitch, yaw and throttle</short_desc>
<long_desc > Does not get set unless below RC_FLT_SMP_RATE/2 because of filter instability characteristics.</long_desc> <long_desc > Does not get set unless below RC_FLT_SMP_RATE/2 because of filter instability characteristics.</long_desc>
<min > 0.1</min> <min > 0.1</min>
<unit > Hz</unit> <unit > Hz</unit>
<scope > modules/sensors</scope> <scope > modules/sensors</scope>
</parameter> </parameter>
<parameter default= "50.0" name= "RC_FLT_SMP_RATE" type= "FLOAT" > <parameter default= "50.0" name= "RC_FLT_SMP_RATE" type= "FLOAT" >
<short_desc > Sample rate of the remote control values for the low pass filter on roll,pitch, yaw and throttle</short_desc> <short_desc > Sample rate of the remote control values for the low pass filter on roll, pitch, yaw and throttle</short_desc>
<long_desc > Has an influence on the cutoff frequency precision.</long_desc> <long_desc > Has an influence on the cutoff frequency precision.</long_desc>
<min > 1.0</min> <min > 1.0</min>
<unit > Hz</unit> <unit > Hz</unit>
@ -6688,17 +6794,6 @@ the setpoint will be capped to MPC_XY_VEL_MAX</short_desc>
<scope > modules/commander</scope> <scope > modules/commander</scope>
</parameter> </parameter>
</group> </group>
<group name= "Radio Signal Loss" >
<parameter default= "120.0" name= "NAV_RCL_LT" type= "FLOAT" >
<short_desc > Loiter Time</short_desc>
<long_desc > The amount of time in seconds the system should loiter at current position before termination Set to -1 to make the system skip loitering</long_desc>
<min > -1.0</min>
<unit > s</unit>
<decimal > 1</decimal>
<increment > 0.1</increment>
<scope > modules/navigator</scope>
</parameter>
</group>
<group name= "Radio Switches" > <group name= "Radio Switches" >
<parameter default= "0.5" name= "RC_ACRO_TH" type= "FLOAT" > <parameter default= "0.5" name= "RC_ACRO_TH" type= "FLOAT" >
<short_desc > Threshold for selecting acro mode</short_desc> <short_desc > Threshold for selecting acro mode</short_desc>
@ -8080,14 +8175,14 @@ This is used for gathering replay logs for the ekf2 module</short_desc>
<short_desc > LeddarOne rangefinder</short_desc> <short_desc > LeddarOne rangefinder</short_desc>
<boolean /> <boolean />
<reboot_required > true</reboot_required> <reboot_required > true</reboot_required>
<scope > modules/sensors </scope> <scope > drivers/distance_sensor/leddar_one </scope>
</parameter> </parameter>
<parameter default= "0" name= "SENS_EN_LL40LS" type= "INT32" > <parameter default= "0" name= "SENS_EN_LL40LS" type= "INT32" >
<short_desc > Lidar-Lite (LL40LS)</short_desc> <short_desc > Lidar-Lite (LL40LS)</short_desc>
<min > 0</min> <min > 0</min>
<max > 2</max> <max > 2</max>
<reboot_required > true</reboot_required> <reboot_required > true</reboot_required>
<scope > modules/sensor s</scope> <scope > drivers/distance_sensor/ll40l s</scope>
<values > <values >
<value code= "0" > Disabled</value> <value code= "0" > Disabled</value>
<value code= "1" > PWM</value> <value code= "1" > PWM</value>
@ -8098,14 +8193,14 @@ This is used for gathering replay logs for the ekf2 module</short_desc>
<short_desc > Maxbotix Soanr (mb12xx)</short_desc> <short_desc > Maxbotix Soanr (mb12xx)</short_desc>
<boolean /> <boolean />
<reboot_required > true</reboot_required> <reboot_required > true</reboot_required>
<scope > modules/sensors </scope> <scope > drivers/distance_sensor/mb12xx </scope>
</parameter> </parameter>
<parameter default= "0" name= "SENS_EN_SF0X" type= "INT32" > <parameter default= "0" name= "SENS_EN_SF0X" type= "INT32" >
<short_desc > Lightware laser rangefinder (serial)</short_desc> <short_desc > Lightware laser rangefinder (serial)</short_desc>
<min > 0</min> <min > 0</min>
<max > 4</max> <max > 4</max>
<reboot_required > true</reboot_required> <reboot_required > true</reboot_required>
<scope > modules/sensors </scope> <scope > drivers/distance_sensor/sf0x </scope>
<values > <values >
<value code= "0" > Disabled</value> <value code= "0" > Disabled</value>
<value code= "1" > SF02</value> <value code= "1" > SF02</value>
@ -8120,7 +8215,7 @@ This is used for gathering replay logs for the ekf2 module</short_desc>
<min > 0</min> <min > 0</min>
<max > 5</max> <max > 5</max>
<reboot_required > true</reboot_required> <reboot_required > true</reboot_required>
<scope > modules/sensors </scope> <scope > drivers/distance_sensor/sf1xx </scope>
<values > <values >
<value code= "0" > Disabled</value> <value code= "0" > Disabled</value>
<value code= "1" > SF10/a</value> <value code= "1" > SF10/a</value>
@ -8134,7 +8229,7 @@ This is used for gathering replay logs for the ekf2 module</short_desc>
<short_desc > Benewake TFmini laser rangefinder</short_desc> <short_desc > Benewake TFmini laser rangefinder</short_desc>
<boolean /> <boolean />
<reboot_required > true</reboot_required> <reboot_required > true</reboot_required>
<scope > modules/sensors </scope> <scope > drivers/distance_sensor/tfmini </scope>
</parameter> </parameter>
<parameter default= "-1" name= "SENS_EN_THERMAL" type= "INT32" > <parameter default= "-1" name= "SENS_EN_THERMAL" type= "INT32" >
<short_desc > Thermal control of sensor temperature</short_desc> <short_desc > Thermal control of sensor temperature</short_desc>
@ -8149,7 +8244,7 @@ This is used for gathering replay logs for the ekf2 module</short_desc>
<min > 0</min> <min > 0</min>
<max > 3</max> <max > 3</max>
<reboot_required > true</reboot_required> <reboot_required > true</reboot_required>
<scope > modules/sensors </scope> <scope > drivers/distance_sensor/teraranger </scope>
<values > <values >
<value code= "0" > Disabled</value> <value code= "0" > Disabled</value>
<value code= "1" > Autodetect</value> <value code= "1" > Autodetect</value>
PX4 Jenkins
7 years ago
committed by
Daniel Agar