mirror of https://github.com/ArduPilot/ardupilot
1078 lines
45 KiB
Plaintext
1078 lines
45 KiB
Plaintext
/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*-
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/*
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* ArduCopter parameter definitions
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*
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* This firmware is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*/
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#define GSCALAR(v, name, def) { g.v.vtype, name, Parameters::k_param_ ## v, &g.v, {def_value : def} }
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#define GGROUP(v, name, class) { AP_PARAM_GROUP, name, Parameters::k_param_ ## v, &g.v, {group_info : class::var_info} }
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#define GOBJECT(v, name, class) { AP_PARAM_GROUP, name, Parameters::k_param_ ## v, &v, {group_info : class::var_info} }
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const AP_Param::Info var_info[] PROGMEM = {
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// @Param: SYSID_SW_MREV
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// @DisplayName: Eeprom format version number
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// @Description: This value is incremented when changes are made to the eeprom format
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// @User: Advanced
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GSCALAR(format_version, "SYSID_SW_MREV", 0),
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// @Param: SYSID_SW_TYPE
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// @DisplayName: Software Type
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// @Description: This is used by the ground station to recognise the software type (eg ArduPlane vs ArduCopter)
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// @User: Advanced
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GSCALAR(software_type, "SYSID_SW_TYPE", Parameters::k_software_type),
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// @Param: SYSID_THISMAV
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// @DisplayName: Mavlink version
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// @Description: Allows reconising the mavlink version
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// @User: Advanced
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GSCALAR(sysid_this_mav, "SYSID_THISMAV", MAV_SYSTEM_ID),
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// @Param: SYSID_MYGCS
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// @DisplayName: My ground station number
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// @Description: Allows restricting radio overrides to only come from my ground station
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// @User: Advanced
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GSCALAR(sysid_my_gcs, "SYSID_MYGCS", 255),
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// @Param: SERIAL3_BAUD
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// @DisplayName: Telemetry Baud Rate
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// @Description: The baud rate used on the telemetry port
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// @Values: 1:1200,2:2400,4:4800,9:9600,19:19200,38:38400,57:57600,111:111100,115:115200
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// @User: Standard
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GSCALAR(serial3_baud, "SERIAL3_BAUD", SERIAL3_BAUD/1000),
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// @Param: TELEM_DELAY
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// @DisplayName: Telemetry startup delay
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// @Description: The amount of time (in seconds) to delay radio telemetry to prevent an Xbee bricking on power up
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// @User: Standard
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// @Units: seconds
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// @Range: 0 10
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// @Increment: 1
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GSCALAR(telem_delay, "TELEM_DELAY", 0),
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// @Param: RTL_ALT
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// @DisplayName: RTL Altitude
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// @Description: The minimum altitude the model will move to before Returning to Launch. Set to zero to return at current altitude.
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// @Units: Centimeters
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// @Range: 0 4000
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// @Increment: 1
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// @User: Standard
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GSCALAR(rtl_altitude, "RTL_ALT", RTL_ALT),
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// @Param: SONAR_ENABLE
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// @DisplayName: Enable Sonar
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// @Description: Setting this to Enabled(1) will enable the sonar. Setting this to Disabled(0) will disable the sonar
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// @Values: 0:Disabled,1:Enabled
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// @User: Standard
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GSCALAR(sonar_enabled, "SONAR_ENABLE", DISABLED),
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// @Param: SONAR_TYPE
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// @DisplayName: Sonar type
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// @Description: Used to adjust scaling to match the sonar used (only Maxbotix sonars are supported at this time)
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// @Values: 0:XL-EZ0,1:LV-EZ0,2:XLL-EZ0,3:HRLV
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// @User: Standard
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GSCALAR(sonar_type, "SONAR_TYPE", AP_RANGEFINDER_MAXSONARXL),
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// @Param: BATT_MONITOR
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// @DisplayName: Battery monitoring
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// @Description: Controls enabling monitoring of the battery's voltage and current
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// @Values: 0:Disabled,3:Voltage Only,4:Voltage and Current
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// @User: Standard
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GSCALAR(battery_monitoring, "BATT_MONITOR", DISABLED),
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// @Param: FS_BATT_ENABLE
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// @DisplayName: Battery Failsafe Enable
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// @Description: Controls whether failsafe will be invoked when battery voltage or current runs low
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// @Values: 0:Disabled,1:Enabled
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// @User: Standard
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GSCALAR(failsafe_battery_enabled, "FS_BATT_ENABLE", FS_BATTERY),
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// @Param: VOLT_DIVIDER
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// @DisplayName: Voltage Divider
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// @Description: Used to convert the voltage of the voltage sensing pin (BATT_VOLT_PIN) to the actual battery's voltage (pin voltage * INPUT_VOLTS/1024 * VOLT_DIVIDER)
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// @User: Advanced
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GSCALAR(volt_div_ratio, "VOLT_DIVIDER", VOLT_DIV_RATIO),
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// @Param: AMP_PER_VOLT
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// @DisplayName: Current Amps per volt
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// @Description: Used to convert the voltage on the current sensing pin (BATT_CURR_PIN) to the actual current being consumed in amps (curr pin voltage * INPUT_VOLTS/1024 * AMP_PER_VOLT )
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// @User: Advanced
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GSCALAR(curr_amp_per_volt, "AMP_PER_VOLT", CURR_AMP_PER_VOLT),
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// @Param: INPUT_VOLTS
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// @DisplayName: Max internal voltage of the battery voltage and current sensing pins
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// @Description: Used to convert the voltage read in on the voltage and current pins for battery monitoring. Normally 5 meaning 5 volts.
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// @User: Advanced
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GSCALAR(input_voltage, "INPUT_VOLTS", INPUT_VOLTAGE),
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// @Param: BATT_CAPACITY
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// @DisplayName: Battery Capacity
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// @Description: Battery capacity in milliamp-hours (mAh)
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// @Units: mAh
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GSCALAR(pack_capacity, "BATT_CAPACITY", HIGH_DISCHARGE),
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// @Param: MAG_ENABLE
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// @DisplayName: Enable Compass
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// @Description: Setting this to Enabled(1) will enable the compass. Setting this to Disabled(0) will disable the compass
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// @Values: 0:Disabled,1:Enabled
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// @User: Standard
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GSCALAR(compass_enabled, "MAG_ENABLE", MAGNETOMETER),
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// @Param: FLOW_ENABLE
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// @DisplayName: Enable Optical Flow
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// @Description: Setting this to Enabled(1) will enable optical flow. Setting this to Disabled(0) will disable optical flow
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// @Values: 0:Disabled,1:Enabled
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// @User: Standard
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GSCALAR(optflow_enabled, "FLOW_ENABLE", DISABLED),
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// @Param: LOW_VOLT
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// @DisplayName: Low Voltage
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// @Description: Set this to the voltage you want to represent low voltage
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// @Range: 0 20
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// @Increment: .1
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// @User: Standard
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GSCALAR(low_voltage, "LOW_VOLT", LOW_VOLTAGE),
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// @Param: SUPER_SIMPLE
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// @DisplayName: Enable Super Simple Mode
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// @Description: Setting this to Enabled(1) will enable Super Simple Mode. Setting this to Disabled(0) will disable Super Simple Mode
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// @Values: 0:Disabled,1:Enabled
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// @User: Standard
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GSCALAR(super_simple, "SUPER_SIMPLE", SUPER_SIMPLE),
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// @Param: RTL_ALT_FINAL
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// @DisplayName: RTL Final Altitude
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// @Description: This is the altitude the vehicle will move to as the final stage of Returning to Launch or after completing a mission. Set to zero to land.
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// @Units: Centimeters
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// @Range: -1 1000
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// @Increment: 1
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// @User: Standard
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GSCALAR(rtl_alt_final, "RTL_ALT_FINAL", RTL_ALT_FINAL),
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// @Param: TILT
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// @DisplayName: Auto Tilt Compensation
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// @Description: This is a feed-forward compensation which helps the aircraft achieve target waypoint speed.
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// @Range: 0 100
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// @Increment: 1
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// @User: Advanced
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GSCALAR(tilt_comp, "TILT", TILT_COMPENSATION),
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// @Param: BATT_VOLT_PIN
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// @DisplayName: Battery Voltage sensing pin
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// @Description: Setting this to 0 ~ 13 will enable battery current sensing on pins A0 ~ A13.
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// @Values: -1:Disabled, 0:A0, 1:A1, 13:A13
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// @User: Standard
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GSCALAR(battery_volt_pin, "BATT_VOLT_PIN", BATTERY_VOLT_PIN),
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// @Param: BATT_CURR_PIN
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// @DisplayName: Battery Current sensing pin
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// @Description: Setting this to 0 ~ 13 will enable battery current sensing on pins A0 ~ A13.
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// @Values: -1:Disabled, 1:A1, 2:A2, 12:A12
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// @User: Standard
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GSCALAR(battery_curr_pin, "BATT_CURR_PIN", BATTERY_CURR_PIN),
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// @Param: RSSI_PIN
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// @DisplayName: Receiver RSSI sensing pin
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// @Description: This selects an analog pin for the receiver RSSI voltage. It assumes the voltage is 5V for max rssi, 0V for minimum
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// @Values: -1:Disabled, 0:A0, 1:A1, 2:A2, 13:A13
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// @User: Standard
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GSCALAR(rssi_pin, "RSSI_PIN", -1),
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// @Param: THR_ACC_ENABLE
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// @DisplayName: Enable Accel based throttle controller
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// @Description: This allows enabling and disabling the accelerometer based throttle controller. If disabled a velocity based controller is used.
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// @Values: 0:Disabled, 1:Enabled
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// @User: Standard
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GSCALAR(throttle_accel_enabled, "THR_ACC_ENABLE", 1),
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// @Param: YAW_OVR_BEHAVE
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// @DisplayName: Yaw override behaviour
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// @Description: Controls when autopilot takes back normal control of yaw after pilot overrides
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// @Values: 0:At Next WP, 1:On Mission Restart
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// @User: Advanced
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GSCALAR(yaw_override_behaviour, "YAW_OVR_BEHAVE", YAW_OVERRIDE_BEHAVIOUR_AT_NEXT_WAYPOINT),
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// @Param: WP_TOTAL
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// @DisplayName: Waypoint Total
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// @Description: Total number of commands in the mission stored in the eeprom. Do not update this parameter directly!
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// @User: Advanced
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GSCALAR(command_total, "WP_TOTAL", 0),
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// @Param: WP_INDEX
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// @DisplayName: Waypoint Index
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// @Description: The index number of the command that is currently being executed. Do not update this parameter directly!
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// @User: Advanced
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GSCALAR(command_index, "WP_INDEX", 0),
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// @Param: WP_RADIUS
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// @DisplayName: Waypoint Radius
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// @Description: Defines the distance from a waypoint, that when crossed indicates the wp has been hit.
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// @Units: Meters
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// @Range: 1 127
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// @Increment: 1
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// @User: Standard
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GSCALAR(waypoint_radius, "WP_RADIUS", WP_RADIUS_DEFAULT),
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// @Param: CIRCLE_RADIUS
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// @DisplayName: Circle radius
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// @Description: Defines the radius of the circle the vehicle will fly when in Circle flight mode
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// @Units: Meters
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// @Range: 1 127
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// @Increment: 1
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// @User: Standard
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GSCALAR(circle_radius, "CIRCLE_RADIUS", CIRCLE_RADIUS),
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// @Param: WP_SPEED_MAX
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// @DisplayName: Waypoint Max Speed Target
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// @Description: Defines the speed which the aircraft will attempt to maintain during a WP mission.
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// @Units: Centimeters/Second
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// @Increment: 100
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// @User: Standard
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GSCALAR(waypoint_speed_max, "WP_SPEED_MAX", WAYPOINT_SPEED_MAX),
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// @Param: XTRK_GAIN_SC
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// @DisplayName: Cross-Track Gain
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// @Description: This controls the rate that the Auto Controller will attempt to return original track
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// @Units: Dimensionless
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// @User: Standard
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GSCALAR(crosstrack_gain, "XTRK_GAIN_SC", CROSSTRACK_GAIN),
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// @Param: XTRK_MIN_DIST
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// @DisplayName: Crosstrack mininum distance
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// @Description: Minimum distance in meters between waypoints to do crosstrack correction.
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// @Units: Meters
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// @Range: 0 32767
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// @Increment: 1
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// @User: Standard
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GSCALAR(crosstrack_min_distance, "XTRK_MIN_DIST", CROSSTRACK_MIN_DISTANCE),
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// @Param: RTL_LOIT_TIME
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// @DisplayName: RTL loiter time
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// @Description: Time (in milliseconds) to loiter above home before begining final descent
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// @Units: ms
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// @Range: 0 60000
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// @Increment: 1000
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// @User: Standard
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GSCALAR(rtl_loiter_time, "RTL_LOIT_TIME", RTL_LOITER_TIME),
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// @Param: LAND_SPEED
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// @DisplayName: Land speed
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// @Description: The descent speed for the final stage of landing in cm/s
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// @Units: Centimeters/Second
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// @Range: 10 200
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// @Increment: 10
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// @User: Standard
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GSCALAR(land_speed, "LAND_SPEED", LAND_SPEED),
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// @Param: AUTO_VELZ_MIN
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// @DisplayName: Autopilot's min vertical speed (max descent) in cm/s
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// @Description: The minimum vertical velocity (i.e. descent speed) the autopilot may request in cm/s
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// @Units: Centimeters/Second
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// @Range: -500 -50
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// @Increment: 10
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// @User: Standard
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GSCALAR(auto_velocity_z_min, "AUTO_VELZ_MIN", AUTO_VELZ_MIN),
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// @Param: AUTO_VELZ_MAX
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// @DisplayName: Auto pilot's max vertical speed in cm/s
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// @Description: The maximum vertical velocity the autopilot may request in cm/s
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// @Units: Centimeters/Second
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// @Range: 50 500
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// @Increment: 10
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// @User: Standard
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GSCALAR(auto_velocity_z_max, "AUTO_VELZ_MAX", AUTO_VELZ_MAX),
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// @Param: PILOT_VELZ_MAX
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// @DisplayName: Pilot maximum vertical speed
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// @Description: The maximum vertical velocity the pilot may request in cm/s
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// @Units: Centimeters/Second
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// @Range: 10 500
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// @Increment: 10
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// @User: Standard
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GSCALAR(pilot_velocity_z_max, "PILOT_VELZ_MAX", PILOT_VELZ_MAX),
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// @Param: THR_MIN
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// @DisplayName: Minimum Throttle
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// @Description: The minimum throttle that will be sent to the motors to keep them spinning
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// @Units: ms
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// @Range: 0 1000
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// @Increment: 1
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// @User: Standard
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GSCALAR(throttle_min, "THR_MIN", MINIMUM_THROTTLE),
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// @Param: THR_MAX
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// @DisplayName: Maximum Throttle
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// @Description: The maximum throttle that will be sent to the motors
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// @Units: ms
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// @Range: 0 1000
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// @Increment: 1
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// @User: Standard
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GSCALAR(throttle_max, "THR_MAX", MAXIMUM_THROTTLE),
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// @Param: FS_THR_ENABLE
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// @DisplayName: Throttle Failsafe Enable
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// @Description: The throttle failsafe allows you to configure a software failsafe activated by a setting on the throttle input channel
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// @Values: 0:Disabled,1:Enabled always RTL,2:Enabled Continue with Mission in Auto Mode
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// @User: Standard
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GSCALAR(failsafe_throttle, "FS_THR_ENABLE", FS_THR_DISABLED),
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// @Param: FS_THR_VALUE
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// @DisplayName: Throttle Failsafe Value
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// @Description: The PWM level on channel 3 below which throttle sailsafe triggers
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// @User: Standard
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GSCALAR(failsafe_throttle_value, "FS_THR_VALUE", FS_THR_VALUE_DEFAULT),
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// @Param: TRIM_THROTTLE
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// @DisplayName: Throttle Trim
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// @Description: The autopilot's estimate of the throttle required to maintain a level hover. Calculated automatically from the pilot's throttle input while in stabilize mode
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// @Range: 0 1000
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// @Units: PWM
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// @User: Standard
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GSCALAR(throttle_cruise, "TRIM_THROTTLE", THROTTLE_CRUISE),
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// @Param: FLTMODE1
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// @DisplayName: Flight Mode 1
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// @Description: Flight mode when Channel 5 pwm is <= 1230
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// @User: Standard
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GSCALAR(flight_mode1, "FLTMODE1", FLIGHT_MODE_1),
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// @Param: FLTMODE2
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// @DisplayName: Flight Mode 2
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// @Description: Flight mode when Channel 5 pwm is >1230, <= 1360
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// @User: Standard
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GSCALAR(flight_mode2, "FLTMODE2", FLIGHT_MODE_2),
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// @Param: FLTMODE3
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// @DisplayName: Flight Mode 3
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// @Description: Flight mode when Channel 5 pwm is >1360, <= 1490
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// @User: Standard
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GSCALAR(flight_mode3, "FLTMODE3", FLIGHT_MODE_3),
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// @Param: FLTMODE4
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// @DisplayName: Flight Mode 4
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// @Description: Flight mode when Channel 5 pwm is >1490, <= 1620
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// @User: Standard
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GSCALAR(flight_mode4, "FLTMODE4", FLIGHT_MODE_4),
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// @Param: FLTMODE5
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// @DisplayName: Flight Mode 5
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// @Description: Flight mode when Channel 5 pwm is >1620, <= 1749
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// @User: Standard
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GSCALAR(flight_mode5, "FLTMODE5", FLIGHT_MODE_5),
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// @Param: FLTMODE6
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// @DisplayName: Flight Mode 6
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// @Description: Flight mode when Channel 5 pwm is >=1750
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// @User: Standard
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GSCALAR(flight_mode6, "FLTMODE6", FLIGHT_MODE_6),
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// @Param: SIMPLE
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// @DisplayName: Simple mode bitmask
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// @Description: Bitmask which holds which flight modes use simple heading mode (eg bit 0 = 1 means Flight Mode 0 uses simple mode)
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// @User: Advanced
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GSCALAR(simple_modes, "SIMPLE", 0),
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// @Param: LOG_BITMASK
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// @DisplayName: Log bitmask
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// @Description: 2 byte bitmap of log types to enable
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// @User: Advanced
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GSCALAR(log_bitmask, "LOG_BITMASK", DEFAULT_LOG_BITMASK),
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// @Param: TOY_RATE
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// @DisplayName: Toy Yaw Rate
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// @Description: Controls yaw rate in Toy mode. Higher values will cause a slower yaw rate. Do not set to zero!
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// @User: Advanced
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// @Range: 1 10
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GSCALAR(toy_yaw_rate, "TOY_RATE", 1),
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// @Param: ESC
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// @DisplayName: ESC Calibration
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// @Description: Controls whether ArduCopter will enter ESC calibration on the next restart. Do not adjust this parameter manually.
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// @User: Advanced
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// @Values: 0:Normal Start-up,1:Start-up in ESC Calibration mode
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GSCALAR(esc_calibrate, "ESC", 0),
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// @Param: TUNE
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// @DisplayName: Channel 6 Tuning
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// @Description: Controls which parameters (normally PID gains) are being tuned with transmitter's channel 6 knob
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// @User: Standard
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// @Values: 0:CH6_NONE,1:CH6_STABILIZE_KP,2:CH6_STABILIZE_KI,3:CH6_YAW_KP,4:CH6_RATE_KP,5:CH6_RATE_KI,6:CH6_YAW_RATE_KP,7:CH6_THROTTLE_KP,8:CH6_TOP_BOTTOM_RATIO,9:CH6_RELAY,10:CH6_TRAVERSE_SPEED,11:CH6_NAV_KP,12:CH6_LOITER_KP,13:CH6_HELI_EXTERNAL_GYRO,14:CH6_THR_HOLD_KP,17:CH6_OPTFLOW_KP,18:CH6_OPTFLOW_KI,19:CH6_OPTFLOW_KD,20:CH6_NAV_KI,21:CH6_RATE_KD,22:CH6_LOITER_RATE_KP,23:CH6_LOITER_RATE_KD,24:CH6_YAW_KI,25:CH6_ACRO_KP,26:CH6_YAW_RATE_KD,27:CH6_LOITER_KI,28:CH6_LOITER_RATE_KI,29:CH6_STABILIZE_KD,30:CH6_AHRS_YAW_KP,31:CH6_AHRS_KP,32:CH6_INAV_TC,33:CH6_THROTTLE_KI,34:CH6_THR_ACCEL_KP,35:CH6_THR_ACCEL_KI,36:CH6_THR_ACCEL_KD
|
|
GSCALAR(radio_tuning, "TUNE", 0),
|
|
|
|
// @Param: TUNE_LOW
|
|
// @DisplayName: Tuning minimum
|
|
// @Description: The minimum value that will be applied to the parameter currently being tuned with the transmitter's channel 6 knob
|
|
// @User: Standard
|
|
// @Range: 0 32767
|
|
GSCALAR(radio_tuning_low, "TUNE_LOW", 0),
|
|
|
|
// @Param: TUNE_HIGH
|
|
// @DisplayName: Tuning maximum
|
|
// @Description: The maximum value that will be applied to the parameter currently being tuned with the transmitter's channel 6 knob
|
|
// @User: Standard
|
|
// @Range: 0 32767
|
|
GSCALAR(radio_tuning_high, "TUNE_HIGH", 1000),
|
|
|
|
// @Param: FRAME
|
|
// @DisplayName: Frame Orientation (+, X or V)
|
|
// @Description: Controls motor mixing for multicopters. Not used for Tri or Traditional Helicopters.
|
|
// @Values: 0:Plus, 1:X, 2:V
|
|
// @User: Standard
|
|
// @Range: 0 32767
|
|
GSCALAR(frame_orientation, "FRAME", FRAME_ORIENTATION),
|
|
|
|
// @Param: CH7_OPT
|
|
// @DisplayName: Channel 7 option
|
|
// @Description: Select which function if performed when CH7 is above 1800 pwm
|
|
// @Values: 0:Do Nothing, 2:Flip, 3:Simple Mode, 4:RTL, 5:Save Trim, 7:Save WP, 9:Camera Trigger, 10:Sonar
|
|
// @User: Standard
|
|
GSCALAR(ch7_option, "CH7_OPT", CH7_OPTION),
|
|
|
|
// @Param: AUTO_SLEW
|
|
// @DisplayName: Auto Slew Rate
|
|
// @Description: This restricts the rate of change of the roll and pitch attitude commanded by the auto pilot
|
|
// @Units: Degrees/Second
|
|
// @Range: 1 45
|
|
// @Increment: 1
|
|
// @User: Advanced
|
|
GSCALAR(auto_slew_rate, "AUTO_SLEW", AUTO_SLEW_RATE),
|
|
|
|
#if FRAME_CONFIG == HELI_FRAME
|
|
GGROUP(heli_servo_1, "HS1_", RC_Channel),
|
|
GGROUP(heli_servo_2, "HS2_", RC_Channel),
|
|
GGROUP(heli_servo_3, "HS3_", RC_Channel),
|
|
GGROUP(heli_servo_4, "HS4_", RC_Channel),
|
|
GSCALAR(heli_pitch_ff, "RATE_PIT_FF", HELI_PITCH_FF),
|
|
GSCALAR(heli_roll_ff, "RATE_RLL_FF", HELI_ROLL_FF),
|
|
GSCALAR(heli_yaw_ff, "RATE_YAW_FF", HELI_YAW_FF),
|
|
#endif
|
|
|
|
// RC channel
|
|
//-----------
|
|
// @Group: RC1_
|
|
// @Path: ../libraries/RC_Channel/RC_Channel.cpp
|
|
GGROUP(rc_1, "RC1_", RC_Channel),
|
|
// @Group: RC2_
|
|
// @Path: ../libraries/RC_Channel/RC_Channel.cpp
|
|
GGROUP(rc_2, "RC2_", RC_Channel),
|
|
// @Group: RC3_
|
|
// @Path: ../libraries/RC_Channel/RC_Channel.cpp
|
|
GGROUP(rc_3, "RC3_", RC_Channel),
|
|
// @Group: RC4_
|
|
// @Path: ../libraries/RC_Channel/RC_Channel.cpp
|
|
GGROUP(rc_4, "RC4_", RC_Channel),
|
|
// @Group: RC5_
|
|
// @Path: ../libraries/RC_Channel/RC_Channel.cpp,../libraries/RC_Channel/RC_Channel_aux.cpp
|
|
GGROUP(rc_5, "RC5_", RC_Channel_aux),
|
|
// @Group: RC6_
|
|
// @Path: ../libraries/RC_Channel/RC_Channel.cpp,../libraries/RC_Channel/RC_Channel_aux.cpp
|
|
GGROUP(rc_6, "RC6_", RC_Channel_aux),
|
|
// @Group: RC7_
|
|
// @Path: ../libraries/RC_Channel/RC_Channel.cpp,../libraries/RC_Channel/RC_Channel_aux.cpp
|
|
GGROUP(rc_7, "RC7_", RC_Channel_aux),
|
|
// @Group: RC8_
|
|
// @Path: ../libraries/RC_Channel/RC_Channel.cpp,../libraries/RC_Channel/RC_Channel_aux.cpp
|
|
GGROUP(rc_8, "RC8_", RC_Channel_aux),
|
|
|
|
#if MOUNT == ENABLED
|
|
// @Group: RC10_
|
|
// @Path: ../libraries/RC_Channel/RC_Channel.cpp,../libraries/RC_Channel/RC_Channel_aux.cpp
|
|
GGROUP(rc_10, "RC10_", RC_Channel_aux),
|
|
|
|
// @Group: RC11_
|
|
// @Path: ../libraries/RC_Channel/RC_Channel.cpp,../libraries/RC_Channel/RC_Channel_aux.cpp
|
|
GGROUP(rc_11, "RC11_", RC_Channel_aux),
|
|
#endif
|
|
|
|
// @Param: RC_SPEED
|
|
// @DisplayName: ESC Update Speed
|
|
// @Description: This is the speed in Hertz that your ESCs will receive updates
|
|
// @Units: Hertz (Hz)
|
|
// @Values: 125,400,490
|
|
// @User: Advanced
|
|
GSCALAR(rc_speed, "RC_SPEED", RC_FAST_SPEED),
|
|
|
|
// @Param: ACRO_P
|
|
// @DisplayName: Acro P gain
|
|
// @Description: Used to convert pilot roll, pitch and yaw input into a dssired rate of rotation in ACRO mode. Higher values mean faster rate of rotation.
|
|
// @Range: 1 10
|
|
// @User: Standard
|
|
GSCALAR(acro_p, "ACRO_P", ACRO_P),
|
|
|
|
// @Param: AXIS_ENABLE
|
|
// @DisplayName: Acro Axis
|
|
// @Description: Used to control whether acro mode actively maintains the current angle when control sticks are released (Enabled = maintains current angle)
|
|
// @Values: 0:Disabled, 1:Enabled
|
|
// @User: Standard
|
|
GSCALAR(axis_enabled, "AXIS_ENABLE", AXIS_LOCK_ENABLED),
|
|
|
|
// @Param: ACRO_BAL_ROLL
|
|
// @DisplayName: Acro Balance Roll
|
|
// @Description: rate at which roll angle returns to level in acro mode
|
|
// @Range: 0 300
|
|
// @Increment: 1
|
|
// @User: Advanced
|
|
GSCALAR(acro_balance_roll, "ACRO_BAL_ROLL", ACRO_BALANCE_ROLL),
|
|
|
|
// @Param: ACRO_BAL_PITCH
|
|
// @DisplayName: Acro Balance Pitch
|
|
// @Description: rate at which pitch angle returns to level in acro mode
|
|
// @Range: 0 300
|
|
// @Increment: 1
|
|
// @User: Advanced
|
|
GSCALAR(acro_balance_pitch, "ACRO_BAL_PITCH", ACRO_BALANCE_PITCH),
|
|
|
|
// @Param: ACRO_TRAINER
|
|
// @DisplayName: Acro Trainer Enabled
|
|
// @Description: Set to 1 (Enabled) to make roll return to within 45 degrees of level automatically
|
|
// @Values: 0:Disabled,1:Enabled
|
|
// @User: Advanced
|
|
GSCALAR(acro_trainer_enabled, "ACRO_TRAINER", ACRO_TRAINER_ENABLED),
|
|
|
|
// @Param: LED_MODE
|
|
// @DisplayName: Copter LED Mode
|
|
// @Description: bitmap to control the copter led mode
|
|
// @Values: 0:Disabled,1:Enable,2:GPS On,4:Aux,8:Buzzer,16:Oscillate,32:Nav Blink,64:GPS Nav Blink
|
|
// @User: Standard
|
|
GSCALAR(copter_leds_mode, "LED_MODE", 9),
|
|
|
|
// PID controller
|
|
//---------------
|
|
// @Param: RATE_RLL_P
|
|
// @DisplayName: Roll axis rate controller P gain
|
|
// @Description: Roll axis rate controller P gain. Converts the difference between desired roll rate and actual roll rate into a motor speed output
|
|
// @Range: 0.08 0.20
|
|
// @User: Standard
|
|
|
|
// @Param: RATE_RLL_I
|
|
// @DisplayName: Roll axis rate controller I gain
|
|
// @Description: Roll axis rate controller I gain. Corrects long-term difference in desired roll rate vs actual roll rate
|
|
// @Range: 0.01 0.5
|
|
// @User: Standard
|
|
|
|
// @Param: RATE_RLL_IMAX
|
|
// @DisplayName: Roll axis rate controller I gain maximum
|
|
// @Description: Roll axis rate controller I gain maximum. Constrains the maximum motor output that the I gain will output
|
|
// @Range: 0 500
|
|
// @Unit: PWM
|
|
// @User: Standard
|
|
|
|
// @Param: RATE_RLL_D
|
|
// @DisplayName: Roll axis rate controller D gain
|
|
// @Description: Roll axis rate controller D gain. Compensates for short-term change in desired roll rate vs actual roll rate
|
|
// @Range: 0.001 0.008
|
|
// @User: Standard
|
|
GGROUP(pid_rate_roll, "RATE_RLL_", AC_PID),
|
|
|
|
// @Param: RATE_PIT_P
|
|
// @DisplayName: Pitch axis rate controller P gain
|
|
// @Description: Pitch axis rate controller P gain. Converts the difference between desired pitch rate and actual pitch rate into a motor speed output
|
|
// @Range: 0.08 0.20
|
|
// @User: Standard
|
|
|
|
// @Param: RATE_PIT_I
|
|
// @DisplayName: Pitch axis rate controller I gain
|
|
// @Description: Pitch axis rate controller I gain. Corrects long-term difference in desired pitch rate vs actual pitch rate
|
|
// @Range: 0.01 0.5
|
|
// @User: Standard
|
|
|
|
// @Param: RATE_PIT_IMAX
|
|
// @DisplayName: Pitch axis rate controller I gain maximum
|
|
// @Description: Pitch axis rate controller I gain maximum. Constrains the maximum motor output that the I gain will output
|
|
// @Range: 0 500
|
|
// @Unit: PWM
|
|
// @User: Standard
|
|
|
|
// @Param: RATE_PIT_D
|
|
// @DisplayName: Pitch axis rate controller D gain
|
|
// @Description: Pitch axis rate controller D gain. Compensates for short-term change in desired pitch rate vs actual pitch rate
|
|
// @Range: 0.001 0.008
|
|
// @User: Standard
|
|
GGROUP(pid_rate_pitch, "RATE_PIT_", AC_PID),
|
|
|
|
// @Param: RATE_YAW_P
|
|
// @DisplayName: Yaw axis rate controller P gain
|
|
// @Description: Yaw axis rate controller P gain. Converts the difference between desired yaw rate and actual yaw rate into a motor speed output
|
|
// @Range: 0.150 0.250
|
|
// @User: Standard
|
|
|
|
// @Param: RATE_YAW_I
|
|
// @DisplayName: Yaw axis rate controller I gain
|
|
// @Description: Yaw axis rate controller I gain. Corrects long-term difference in desired yaw rate vs actual yaw rate
|
|
// @Range: 0.010 0.020
|
|
// @User: Standard
|
|
|
|
// @Param: RATE_YAW_IMAX
|
|
// @DisplayName: Yaw axis rate controller I gain maximum
|
|
// @Description: Yaw axis rate controller I gain maximum. Constrains the maximum motor output that the I gain will output
|
|
// @Range: 0 500
|
|
// @Unit: PWM
|
|
// @User: Standard
|
|
|
|
// @Param: RATE_YAW_D
|
|
// @DisplayName: Yaw axis rate controller D gain
|
|
// @Description: Yaw axis rate controller D gain. Compensates for short-term change in desired yaw rate vs actual yaw rate
|
|
// @Range: 0.000 0.001
|
|
// @User: Standard
|
|
GGROUP(pid_rate_yaw, "RATE_YAW_", AC_PID),
|
|
|
|
// @Param: LOITER_LAT_P
|
|
// @DisplayName: Loiter latitude rate controller P gain
|
|
// @Description: Loiter latitude rate controller P gain. Converts the difference between desired speed and actual speed into a lean angle in the latitude direction
|
|
// @Range: 2.000 6.000
|
|
// @User: Standard
|
|
|
|
// @Param: LOITER_LAT_I
|
|
// @DisplayName: Loiter latitude rate controller I gain
|
|
// @Description: Loiter latitude rate controller I gain. Corrects long-term difference in desired speed and actual speed in the latitude direction
|
|
// @Range: 0.020 0.060
|
|
// @User: Standard
|
|
|
|
// @Param: LOITER_LAT_IMAX
|
|
// @DisplayName: Loiter rate controller I gain maximum
|
|
// @Description: Loiter rate controller I gain maximum. Constrains the lean angle that the I gain will output
|
|
// @Range: 0 4500
|
|
// @Unit: Centi-Degrees
|
|
// @User: Standard
|
|
|
|
// @Param: LOITER_LAT_D
|
|
// @DisplayName: Loiter latitude rate controller D gain
|
|
// @Description: Loiter latitude rate controller D gain. Compensates for short-term change in desired speed vs actual speed
|
|
// @Range: 0.200 0.600
|
|
// @User: Standard
|
|
GGROUP(pid_loiter_rate_lat, "LOITER_LAT_", AC_PID),
|
|
|
|
// @Param: LOITER_LON_P
|
|
// @DisplayName: Loiter longitude rate controller P gain
|
|
// @Description: Loiter longitude rate controller P gain. Converts the difference between desired speed and actual speed into a lean angle in the longitude direction
|
|
// @Range: 2.000 6.000
|
|
// @User: Standard
|
|
|
|
// @Param: LOITER_LON_I
|
|
// @DisplayName: Loiter longitude rate controller I gain
|
|
// @Description: Loiter longitude rate controller I gain. Corrects long-term difference in desired speed and actual speed in the longitude direction
|
|
// @Range: 0.020 0.060
|
|
// @User: Standard
|
|
|
|
// @Param: LOITER_LON_IMAX
|
|
// @DisplayName: Loiter longitude rate controller I gain maximum
|
|
// @Description: Loiter longitude rate controller I gain maximum. Constrains the lean angle that the I gain will output
|
|
// @Range: 0 4500
|
|
// @Unit: Centi-Degrees
|
|
// @User: Standard
|
|
|
|
// @Param: LOITER_LON_D
|
|
// @DisplayName: Loiter longituderate controller D gain
|
|
// @Description: Loiter longitude rate controller D gain. Compensates for short-term change in desired speed vs actual speed
|
|
// @Range: 0.200 0.600
|
|
// @User: Standard
|
|
GGROUP(pid_loiter_rate_lon, "LOITER_LON_", AC_PID),
|
|
|
|
// @Param: NAV_LAT_P
|
|
// @DisplayName: Navigation latitude rate controller P gain
|
|
// @Description: Navigation latitude rate controller P gain. Converts the difference between desired speed and actual speed into a lean angle in the latitude direction
|
|
// @Range: 2.000 2.800
|
|
// @User: Standard
|
|
|
|
// @Param: NAV_LAT_I
|
|
// @DisplayName: Navigation latitude rate controller I gain
|
|
// @Description: Navigation latitude rate controller I gain. Corrects long-term difference in desired speed and actual speed in the latitude direction
|
|
// @Range: 0.140 0.200
|
|
// @User: Standard
|
|
|
|
// @Param: NAV_LAT_IMAX
|
|
// @DisplayName: Navigation rate controller I gain maximum
|
|
// @Description: Navigation rate controller I gain maximum. Constrains the lean angle that the I gain will output
|
|
// @Range: 0 4500
|
|
// @Unit: Centi-Degrees
|
|
// @User: Standard
|
|
|
|
// @Param: NAV_LAT_D
|
|
// @DisplayName: Navigation latitude rate controller D gain
|
|
// @Description: Navigation latitude rate controller D gain. Compensates for short-term change in desired speed vs actual speed
|
|
// @Range: 0.000 0.100
|
|
// @User: Standard
|
|
GGROUP(pid_nav_lat, "NAV_LAT_", AC_PID),
|
|
|
|
// @Param: NAV_LON_P
|
|
// @DisplayName: Navigation longitude rate controller P gain
|
|
// @Description: Navigation longitude rate controller P gain. Converts the difference between desired speed and actual speed into a lean angle in the longitude direction
|
|
// @Range: 2.000 2.800
|
|
// @User: Standard
|
|
|
|
// @Param: NAV_LON_I
|
|
// @DisplayName: Navigation longitude rate controller I gain
|
|
// @Description: Navigation longitude rate controller I gain. Corrects long-term difference in desired speed and actual speed in the longitude direction
|
|
// @Range: 0.140 0.200
|
|
// @User: Standard
|
|
|
|
// @Param: NAV_LON_IMAX
|
|
// @DisplayName: Navigation longitude rate controller I gain maximum
|
|
// @Description: Navigation longitude rate controller I gain maximum. Constrains the lean angle that the I gain will generate
|
|
// @Range: 0 4500
|
|
// @Unit: Centi-Degrees
|
|
// @User: Standard
|
|
|
|
// @Param: NAV_LON_D
|
|
// @DisplayName: Navigation longituderate controller D gain
|
|
// @Description: Navigation longitude rate controller D gain. Compensates for short-term change in desired speed vs actual speed
|
|
// @Range: 0.000 0.100
|
|
// @User: Standard
|
|
GGROUP(pid_nav_lon, "NAV_LON_", AC_PID),
|
|
|
|
// @Param: THR_RATE_P
|
|
// @DisplayName: Throttle rate controller P gain
|
|
// @Description: Throttle rate controller P gain. Converts the difference between desired vertical speed and actual speed into a desired acceleration that is passed to the throttle acceleration controller
|
|
// @Range: 1.000 8.000
|
|
// @User: Standard
|
|
|
|
// @Param: THR_RATE_I
|
|
// @DisplayName: Throttle rate controller I gain
|
|
// @Description: Throttle rate controller I gain. Corrects long-term difference in desired vertical speed and actual speed
|
|
// @Range: 0.000 0.100
|
|
// @User: Standard
|
|
|
|
// @Param: THR_RATE_IMAX
|
|
// @DisplayName: Throttle rate controller I gain maximum
|
|
// @Description: Throttle rate controller I gain maximum. Constrains the desired acceleration that the I gain will generate
|
|
// @Range: 0 500
|
|
// @Unit: cm/s/s
|
|
// @User: Standard
|
|
|
|
// @Param: THR_RATE_D
|
|
// @DisplayName: Throttle rate controller D gain
|
|
// @Description: Throttle rate controller D gain. Compensates for short-term change in desired vertical speed vs actual speed
|
|
// @Range: 0.000 0.400
|
|
// @User: Standard
|
|
GGROUP(pid_throttle, "THR_RATE_", AC_PID),
|
|
|
|
// @Param: THR_ACCEL_P
|
|
// @DisplayName: Throttle acceleration controller P gain
|
|
// @Description: Throttle acceleration controller P gain. Converts the difference between desired vertical acceleration and actual acceleration into a motor output
|
|
// @Range: 0.500 1.500
|
|
// @User: Standard
|
|
|
|
// @Param: THR_ACCEL_I
|
|
// @DisplayName: Throttle acceleration controller I gain
|
|
// @Description: Throttle acceleration controller I gain. Corrects long-term difference in desired vertical acceleration and actual acceleration
|
|
// @Range: 0.000 3.000
|
|
// @User: Standard
|
|
|
|
// @Param: THR_ACCEL_IMAX
|
|
// @DisplayName: Throttle acceleration controller I gain maximum
|
|
// @Description: Throttle acceleration controller I gain maximum. Constrains the maximum pwm that the I term will generate
|
|
// @Range: 0 500
|
|
// @Unit: PWM
|
|
// @User: Standard
|
|
|
|
// @Param: THR_ACCEL_D
|
|
// @DisplayName: Throttle acceleration controller D gain
|
|
// @Description: Throttle acceleration controller D gain. Compensates for short-term change in desired vertical acceleration vs actual acceleration
|
|
// @Range: 0.000 0.400
|
|
// @User: Standard
|
|
GGROUP(pid_throttle_accel,"THR_ACCEL_", AC_PID),
|
|
|
|
// @Param: OF_RLL_P
|
|
// @DisplayName: Optical Flow based loiter controller roll axis P gain
|
|
// @Description: Optical Flow based loiter controller roll axis P gain. Converts the position error from the target point to a roll angle
|
|
// @Range: 2.000 3.000
|
|
// @User: Standard
|
|
|
|
// @Param: OF_RLL_I
|
|
// @DisplayName: Optical Flow based loiter controller roll axis I gain
|
|
// @Description: Optical Flow based loiter controller roll axis I gain. Corrects long-term position error by more persistently rolling left or right
|
|
// @Range: 0.250 0.750
|
|
// @User: Standard
|
|
|
|
// @Param: OF_RLL_IMAX
|
|
// @DisplayName: Optical Flow based loiter controller roll axis I gain maximum
|
|
// @Description: Optical Flow based loiter controller roll axis I gain maximum. Constrains the maximum roll angle that the I term will generate
|
|
// @Range: 0 4500
|
|
// @Unit: Centi-Degrees
|
|
// @User: Standard
|
|
|
|
// @Param: OF_RLL_D
|
|
// @DisplayName: Optical Flow based loiter controller roll axis D gain
|
|
// @Description: Optical Flow based loiter controller roll axis D gain. Compensates for short-term change in speed in the roll direction
|
|
// @Range: 0.100 0.140
|
|
// @User: Standard
|
|
GGROUP(pid_optflow_roll, "OF_RLL_", AC_PID),
|
|
|
|
// @Param: OF_PIT_P
|
|
// @DisplayName: Optical Flow based loiter controller pitch axis P gain
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// @Description: Optical Flow based loiter controller pitch axis P gain. Converts the position error from the target point to a pitch angle
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// @Range: 2.000 3.000
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// @User: Standard
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// @Param: OF_PIT_I
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// @DisplayName: Optical Flow based loiter controller pitch axis I gain
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// @Description: Optical Flow based loiter controller pitch axis I gain. Corrects long-term position error by more persistently pitching left or right
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// @Range: 0.250 0.750
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// @User: Standard
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// @Param: OF_PIT_IMAX
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// @DisplayName: Optical Flow based loiter controller pitch axis I gain maximum
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// @Description: Optical Flow based loiter controller pitch axis I gain maximum. Constrains the maximum pitch angle that the I term will generate
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// @Range: 0 4500
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// @Unit: Centi-Degrees
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// @User: Standard
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// @Param: OF_PIT_D
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// @DisplayName: Optical Flow based loiter controller pitch axis D gain
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// @Description: Optical Flow based loiter controller pitch axis D gain. Compensates for short-term change in speed in the pitch direction
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// @Range: 0.100 0.140
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// @User: Standard
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GGROUP(pid_optflow_pitch, "OF_PIT_", AC_PID),
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// PI controller
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//--------------
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// @Param: STB_RLL_P
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// @DisplayName: Roll axis stabilize controller P gain
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// @Description: Roll axis stabilize (i.e. angle) controller P gain. Converts the error between the desired roll angle and actual angle to a desired roll rate
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// @Range: 3.000 6.000
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// @User: Standard
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// @Param: STB_RLL_I
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// @DisplayName: Roll axis stabilize controller I gain
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// @Description: Roll axis stabilize (i.e. angle) controller I gain. Corrects for longer-term difference in desired roll angle and actual angle
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// @Range: 0.000 0.100
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// @User: Standard
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// @Param: STB_RLL_IMAX
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// @DisplayName: Roll axis stabilize controller I gain maximum
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// @Description: Roll axis stabilize (i.e. angle) controller I gain maximum. Constrains the maximum roll rate that the I term will generate
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// @Range: 0 4500
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// @Unit: Centi-Degrees/Sec
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// @User: Standard
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GGROUP(pi_stabilize_roll, "STB_RLL_", APM_PI),
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// @Param: STB_PIT_P
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// @DisplayName: Pitch axis stabilize controller P gain
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// @Description: Pitch axis stabilize (i.e. angle) controller P gain. Converts the error between the desired pitch angle and actual angle to a desired pitch rate
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// @Range: 3.000 6.000
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// @User: Standard
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// @Param: STB_PIT_I
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// @DisplayName: Pitch axis stabilize controller I gain
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// @Description: Pitch axis stabilize (i.e. angle) controller I gain. Corrects for longer-term difference in desired pitch angle and actual angle
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// @Range: 0.000 0.100
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// @User: Standard
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// @Param: STB_PIT_IMAX
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// @DisplayName: Pitch axis stabilize controller I gain maximum
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// @Description: Pitch axis stabilize (i.e. angle) controller I gain maximum. Constrains the maximum pitch rate that the I term will generate
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// @Range: 0 4500
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// @Unit: Centi-Degrees/Sec
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// @User: Standard
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GGROUP(pi_stabilize_pitch, "STB_PIT_", APM_PI),
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// @Param: STB_YAW_P
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// @DisplayName: Yaw axis stabilize controller P gain
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// @Description: Yaw axis stabilize (i.e. angle) controller P gain. Converts the error between the desired yaw angle and actual angle to a desired yaw rate
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// @Range: 3.000 6.000
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// @User: Standard
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// @Param: STB_YAW_I
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// @DisplayName: Yaw axis stabilize controller I gain
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// @Description: Yaw axis stabilize (i.e. angle) controller I gain. Corrects for longer-term difference in desired yaw angle and actual angle
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// @Range: 0.000 0.100
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// @User: Standard
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// @Param: STB_YAW_IMAX
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// @DisplayName: Yaw axis stabilize controller I gain maximum
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// @Description: Yaw axis stabilize (i.e. angle) controller I gain maximum. Constrains the maximum yaw rate that the I term will generate
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// @Range: 0 4500
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// @Unit: Centi-Degrees/Sec
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// @User: Standard
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GGROUP(pi_stabilize_yaw, "STB_YAW_", APM_PI),
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// @Param: THR_ALT_P
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// @DisplayName: Altitude controller P gain
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// @Description: Altitude controller P gain. Converts the difference between the desired altitude and actual altitude into a climb or descent rate which is passed to the throttle rate controller
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// @Range: 3.000 6.000
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// @User: Standard
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// @Param: THR_ALT_I
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// @DisplayName: Altitude controller I gain
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// @Description: Altitude controller I gain. Corrects for longer-term difference in desired altitude and actual altitude
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// @Range: 0.000 0.100
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// @User: Standard
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// @Param: THR_ALT_IMAX
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// @DisplayName: Altitude controller I gain maximum
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// @Description: Altitude controller I gain maximum. Constrains the maximum climb rate rate that the I term will generate
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// @Range: 0 500
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// @Unit: cm/s
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// @User: Standard
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GGROUP(pi_alt_hold, "THR_ALT_", APM_PI),
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// @Param: HLD_LAT_P
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// @DisplayName: Loiter latitude position controller P gain
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// @Description: Loiter latitude position controller P gain. Converts the distance (in the latitude direction) to the target location into a desired speed which is then passed to the loiter latitude rate controller
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// @Range: 0.100 0.300
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// @User: Standard
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// @Param: HLD_LAT_I
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// @DisplayName: Loiter latitude position controller I gain
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// @Description: Loiter latitude position controller I gain. Corrects for longer-term distance (in latitude) to the target location
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// @Range: 0.000 0.100
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// @User: Standard
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// @Param: HLD_LAT_IMAX
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// @DisplayName: Loiter latitude position controller I gain maximum
|
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// @Description: Loiter latitude position controller I gain maximum. Constrains the maximum desired speed that the I term will generate
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// @Range: 0 3000
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// @Unit: cm/s
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// @User: Standard
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GGROUP(pi_loiter_lat, "HLD_LAT_", APM_PI),
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// @Param: HLD_LON_P
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// @DisplayName: Loiter longitude position controller P gain
|
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// @Description: Loiter longitude position controller P gain. Converts the distance (in the longitude direction) to the target location into a desired speed which is then passed to the loiter longitude rate controller
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// @Range: 0.100 0.300
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// @User: Standard
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// @Param: HLD_LON_I
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// @DisplayName: Loiter longitude position controller I gain
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// @Description: Loiter longitude position controller I gain. Corrects for longer-term distance (in longitude direction) to the target location
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// @Range: 0.000 0.100
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// @User: Standard
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// @Param: HLD_LON_IMAX
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// @DisplayName: Loiter longitudeposition controller I gain maximum
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// @Description: Loiter longitudeposition controller I gain maximum. Constrains the maximum desired speed that the I term will generate
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// @Range: 0 3000
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// @Unit: cm/s
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// @User: Standard
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GGROUP(pi_loiter_lon, "HLD_LON_", APM_PI),
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// variables not in the g class which contain EEPROM saved variables
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|
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// variables not in the g class which contain EEPROM saved variables
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#if CAMERA == ENABLED
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// @Group: CAM_
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// @Path: ../libraries/AP_Camera/AP_Camera.cpp
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GOBJECT(camera, "CAM_", AP_Camera),
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#endif
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// @Group: COMPASS_
|
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// @Path: ../libraries/AP_Compass/Compass.cpp
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GOBJECT(compass, "COMPASS_", Compass),
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// @Group: INS_
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// @Path: ../libraries/AP_InertialSensor/AP_InertialSensor.cpp
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#if HIL_MODE == HIL_MODE_DISABLED
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GOBJECT(ins, "INS_", AP_InertialSensor),
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#endif
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|
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#if INERTIAL_NAV_XY == ENABLED || INERTIAL_NAV_Z == ENABLED
|
|
// @Group: INAV_
|
|
// @Path: ../libraries/AP_InertialNav/AP_InertialNav.cpp
|
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GOBJECT(inertial_nav, "INAV_", AP_InertialNav),
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#endif
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|
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// @Group: SR0_
|
|
// @Path: ./GCS_Mavlink.pde
|
|
GOBJECT(gcs0, "SR0_", GCS_MAVLINK),
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|
|
// @Group: SR3_
|
|
// @Path: ./GCS_Mavlink.pde
|
|
GOBJECT(gcs3, "SR3_", GCS_MAVLINK),
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|
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// @Group: AHRS_
|
|
// @Path: ../libraries/AP_AHRS/AP_AHRS.cpp
|
|
GOBJECT(ahrs, "AHRS_", AP_AHRS),
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|
|
#if MOUNT == ENABLED
|
|
// @Group: MNT_
|
|
// @Path: ../libraries/AP_Mount/AP_Mount.cpp
|
|
GOBJECT(camera_mount, "MNT_", AP_Mount),
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#endif
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|
|
#if MOUNT2 == ENABLED
|
|
// @Group: MNT2_
|
|
// @Path: ../libraries/AP_Mount/AP_Mount.cpp
|
|
GOBJECT(camera_mount2, "MNT2_", AP_Mount),
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|
#endif
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|
|
#if CONFIG_HAL_BOARD == HAL_BOARD_AVR_SITL
|
|
GOBJECT(sitl, "SIM_", SITL),
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|
#endif
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|
|
|
GOBJECT(barometer, "GND_", AP_Baro),
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|
GOBJECT(scheduler, "SCHED_", AP_Scheduler),
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|
|
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#if AP_LIMITS == ENABLED
|
|
//@Group: LIM_
|
|
//@Path: ../libraries/AP_Limits/AP_Limits.cpp,../libraries/AP_Limits/AP_Limit_GPSLock.cpp,../libraries/AP_Limits/AP_Limit_Geofence.cpp,../libraries/AP_Limits/AP_Limit_Altitude.cpp,../libraries/AP_Limits/AP_Limit_Module.cpp
|
|
GOBJECT(limits, "LIM_", AP_Limits),
|
|
GOBJECT(gpslock_limit, "LIM_", AP_Limit_GPSLock),
|
|
GOBJECT(geofence_limit, "LIM_", AP_Limit_Geofence),
|
|
GOBJECT(altitude_limit, "LIM_", AP_Limit_Altitude),
|
|
#endif
|
|
|
|
#if FRAME_CONFIG == HELI_FRAME
|
|
// @Group: H_
|
|
// @Path: ../libraries/AP_Motors/AP_MotorsHeli.cpp
|
|
GOBJECT(motors, "H_", AP_MotorsHeli),
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|
#else
|
|
// @Group: MOT_
|
|
// @Path: ../libraries/AP_Motors/AP_Motors_Class.cpp
|
|
GOBJECT(motors, "MOT_", AP_Motors),
|
|
#endif
|
|
|
|
AP_VAREND
|
|
};
|
|
|
|
|
|
static void load_parameters(void)
|
|
{
|
|
// change the default for the AHRS_GPS_GAIN for ArduCopter
|
|
// if it hasn't been set by the user
|
|
if (!ahrs.gps_gain.load()) {
|
|
ahrs.gps_gain.set_and_save(1.0);
|
|
}
|
|
|
|
// setup different AHRS gains for ArduCopter than the default
|
|
// but allow users to override in their config
|
|
if (!ahrs._kp.load()) {
|
|
ahrs._kp.set_and_save(0.1);
|
|
}
|
|
if (!ahrs._kp_yaw.load()) {
|
|
ahrs._kp_yaw.set_and_save(0.1);
|
|
}
|
|
|
|
#if SECONDARY_DMP_ENABLED == ENABLED
|
|
if (!ahrs2._kp.load()) {
|
|
ahrs2._kp.set(0.1);
|
|
}
|
|
if (!ahrs2._kp_yaw.load()) {
|
|
ahrs2._kp_yaw.set(0.1);
|
|
}
|
|
#endif
|
|
|
|
|
|
if (!g.format_version.load() ||
|
|
g.format_version != Parameters::k_format_version) {
|
|
|
|
// erase all parameters
|
|
cliSerial->printf_P(PSTR("Firmware change: erasing EEPROM...\n"));
|
|
AP_Param::erase_all();
|
|
|
|
// save the current format version
|
|
g.format_version.set_and_save(Parameters::k_format_version);
|
|
default_dead_zones();
|
|
cliSerial->println_P(PSTR("done."));
|
|
} else {
|
|
uint32_t before = micros();
|
|
// Load all auto-loaded EEPROM variables
|
|
AP_Param::load_all();
|
|
|
|
cliSerial->printf_P(PSTR("load_all took %luus\n"), micros() - before);
|
|
}
|
|
}
|