"message":"Show update notifications for unstable versions of the configurator"
},
"configuratorUpdateNotice":{
"message":"You are using an outdated version of the <b>Betaflight Configurator</b>.<br>Version <b>$1</b> is available online, please visit <a href=\"$2\" target=\"_blank\">the release page</a> to download and install the latest version with fixes and improvements.<br>Please close the configurator window before updating."
"message":"No configuration received within <span class=\"message-negative\">10 seconds</span>, communication <span class=\"message-negative\">failed</span>"
"message":"This firmware version is <span class=\"message-negative\">not supported</span>. Please upgrade to firmware that supports api version <strong>$1</strong> or higher. Use CLI for backup before flashing. CLI backup/restore procedure is in the documention.<br />Alternatively download and use an old version of the configurator if you are not ready to upgrade."
"message":"The firmware on this device needs upgrading to a newer version. Use CLI for backup before flashing. CLI backup/restore procedure is in the documention.<br />Alternatively download and use an old version of the configurator if you are not ready to upgrade."
"message":"There are custom defaults for this board available. Normally, a board will not work properly unless custom defaults are applied.<br />Do you want to apply the custom defaults for this board?"
"message":"Welcome to <strong>Betaflight - Configurator</strong>, a utility designed to simplify updating, configuring and tuning of your flight controller."
"message":"The application supports all hardware that can run Betaflight. Check flash tab for full list of hardware.<br><br> <a href=\"https://github.com/betaflight/blackbox-log-viewer/releases\" target=\"_blank\"> Download Betaflight Blackbox Log Viewer</a><br /><br />The firmware source code can be downloaded from <a href=\"https://github.com/betaflight/betaflight\" title=\"www.github.com\" target=\"_blank\">here</a><br /><br />Latest <a href=\"http://www.silabs.com/products/mcu/pages/usbtouartbridgevcpdrivers.aspx\" title=\"http://www.silabs.com\" target=\"_blank\">CP210x Drivers</a> can be downloaded from <a href=\"http://www.silabs.com/products/mcu/pages/usbtouartbridgevcpdrivers.aspx\" title=\"http://www.silabs.com\" target=\"_blank\">here</a><br />Latest <a href=\"http://www.st.com/web/en/catalog/tools/PF257938\" title=\"http://www.st.com\" target=\"_blank\">STM USB VCP Drivers</a> can be downloaded from <a href=\"http://www.st.com/web/en/catalog/tools/PF257938\" title=\"http://www.st.com\" target=\"_blank\">here</a><br />Latest <a href=\"http://zadig.akeo.ie/\" title=\"http://zadig.akeo.ie\" target=\"_blank\">Zadig</a> for Windows USB driver installation can be downloaded from <a href=\"http://zadig.akeo.ie/\" title=\"http://zadig.akeo.ie\" target=\"_blank\">here</a><br />"
"message":"If you would like to help make Betaflight even better you can help in many ways, including:<br /><ul><li>Answering other users questions on the forums and IRC.</li><li>Contributing code to the firmware and configurator - new features, fixes, improvements</li><li>Testing <a href=\"https://github.com/Betaflight/betaflight/pulls\" target=\"_blank\">new features/fixes</a> and providing feedback.</li><li>Helping out with <a href=\"https://github.com/betaflight/betaflight/issues\" target=\"_blank\">issues and commenting on feature requests</a>.</li><li>Collaborate by <a href=\"https://crowdin.com/project/betaflight-configurator\" target=\"_blank\">translating the configurator application</a> into your language.</li><li></li></ul>"
"message":"We also have a <a href=\"https://www.facebook.com/groups/betaflightgroup/\" target=\"_blank\">Facebook Group</a>.<br />Join us to get a place to talk about Betaflight, ask configuration questions, or just hang out with fellow pilots."
"message":"<p><strong>Betaflight</strong> is a flight controller software that is <strong>open source</strong> and is available free of charge <strong>without warranty</strong> to all users.</p><p>If you found the Betaflight or Betaflight configurator useful, please consider <strong>supporting</strong> its development by donating.</p>"
"message":"The Betaflight wiki is a great resource for information, it can be found <a href=\"https://github.com/betaflight/betaflight/wiki\" target=\"_blank\">here</a>."
"message":"The release notes for the firmware can be read at GitHub releases page, <a href=\"https://github.com/Betaflight/Betaflight/releases\" target=\"_blank\">here</a>."
"message":"<span class=\"message-negative\">Backup and restore functionality disabled.</span> You have firmware with API version <span class=\"message-negative\">$1</span>, backup and restore requires <span class=\"message-positive\">$2</span>. Please backup your settings via the CLI, see Betaflight documentation for procedure."
"message":"Place board or frame on <strong>leveled</strong> surface, proceed with calibration, ensure platform is not moving during calibration period"
"message":"<strong>Backup</strong> your configuration in case of an accident, <strong>CLI</strong> settings are <span class=\"message-negative\">not</span> included - use the command 'diff all' in CLI for this."
},
"initialSetupRebootBootloaderText":{
"message":"Reboot into <strong>boot loader / DFU</strong> mode."
"message":"List of flags indicating why arming is currently not allowed. Pass the mouse over the flag or refer to the Wiki ('Arming Sequence & Safety' page) for more info."
"message":"RPM-based filtering is enabled but one or more ESC's are not supplying valid DSHOT telemetry. Check that the ESC's are capable of and have the required firmware installed to support bidirectional DSHOT telemetry.",
"message":"Bitbanged DSHOT is not working properly and the motors can't be controlled. Likely caused by a timer conflict with other features enabled on the flight controller.",
"description":"Message that pops up to describe the DSHOT_BBANG arming disable flag"
"message":"If this feature is enabled, and no display device is connected (or the display device is not powered up), there will be a delay of approx. 10 seconds on every reboot of the flight controller."
"message":"<strong>Note:</strong> When Stage 2 is DISABLED, the fallback setting <strong>Auto</strong> is used instead of the user settings for all flightchannels (Roll, Pitch, Yaw and Throttle)."
},
"featureFAILSAFEOldTip":{
"message":"Apply Failsafe settings on RX signal loss"
"message":"RSSI is a measurement of signal strength and is very handy so you know when your aircraft is going out of range or if it is suffering RF interference."
"message":"<strong>Note:</strong> Not all combinations of features are valid. When the flight controller firmware detects invalid feature combinations conflicting features will be disabled.<br /><strong>Note:</strong> Configure serial ports <span class=\"message-negative\">before</span> enabling the features that will use the ports."
"message":"<strong>Note:</strong> Remember to configure a Serial Port (via Ports tab) and choose a Serial Receiver Provider when using RX_SERIAL feature."
"message":"<strong>Note:</strong> Not all features are supported by all flight controllers. If you enable a specific feature, and it is disabled after you hit 'Save and Reboot', it means that this feature is not supported on your board."
"message":"This option configures the mixer to expect the motor direction to be reversed and the propellers to be on accordingly. <strong>Warning:</strong> This does not reverse the motor direction. Use the configuration tool for your ESCs or switch the ESC - motor wiring order to achieve this. Also, make sure to check with propellers off that your motors are rotating in the directions shown in the diagram above before attempting to arm."
"message":"Disarm motors regardless of throttle value (When ARM is configured in Modes tab via AUX channel)"
},
"configurationDisarmKillSwitchHelp":{
"message":"Arming is always disabled when the throttle is not low. Be careful as you could disarm accidentally with a switch while flying with this option active."
"message":"This is the 'idle' value in percent of maximum throttle that is sent to the ESCs when the craft is armed and the trottle stick is at minimum position. Increase the percent value to gain more idle speed."
"description":"One of the fields of the ESC/Motor configuration"
},
"configurationMotorPolesLong":{
"message":"$t(configurationMotorPoles.message) (number of magnets on the motor bell)",
"description":"One of the fields of the ESC/Motor configuration"
},
"configurationMotorPolesHelp":{
"message":"This setting is used for some features like the RPM Filter.<br><br>Represents the number of magnets that are on the bell of the motor. <b>Do NOT count the stators</b> where the windings are located. Typical 5\" motors have 14 magnets, smaller ones like 3\" or less usually have 12 magnets.",
"description":"Help text for the Motor poles field of the ESC/Motor configuration"
"message":"This is the 'idle' value that is sent to the ESCs when the craft is armed and the trottle stick is at minimum position. Increase the value to gain more idle speed. Also raise the value in case of desyncs!"
"message":"This is the value that is sent to the ESCs when the craft is disarmed. Set this to a value that has the motors stopped (1000 for most ESCs)."
"message":"The Dshot beacon uses the ESCs and motors to produce sound. This means that the Dshot beacon cannot be used when the motors are spinning. In Betaflight 3.4 and newer, when arming is attempted while the Dshot beacon is active, there is a 2 second delay after the last Dshot beacon tone before the craft is armed. This is to prevent the Dshot beacon functionality from interfering with the Dshot commands sent when arming.<br/><strong>Warning:</strong> Since the Dshot beacon is running current through your motors when active, this can result in excessive heat production and damage to your motors and / or ESCs if the beacon strength is set too high. Use BLHeli Configurator or the BLHeli Suite to adjust and test the beacon strength."
"message":"<strong>Note:</strong> Make sure your FC is able to operate at these speeds! Check CPU and cycletime stability. Changing this may require PID re-tuning. TIP: Disable Accelerometer and other sensors to gain more performance."
"message":"$t(configurationLoopTimeHelp.message)<br><strong>Note about 32 kHz gyro sampling mode:</strong> Support for 32 kHz gyro sampling mode was added to Betaflight as an experimental feature. In the years that it was available, it has never shown that it has any advantage over 8 kHz gyro sampling mode, due to its susceptibility to vibrations, and its high noise level which require aggressive filtering, causing delays in the control loop. For this reason, <strong>support for 32 kHz gyro sampling mode has been dropped</strong> in Betaflight 4.0."
"message":"<strong>Note:</strong> not all combinations are valid. When the flight controller firmware detects this the serial port configuration will be reset."
"message":"<span class=\"message-negative\">WARNING:</span> The VTX table has not been set up correctly and without it VTX control will not be possible. Please set up the VTX table in $t(tabVtx.message) tab."
"message":"<strong>Note:</strong> Do <span class=\"message-negative\">NOT</span> disable MSP on the first serial port unless you know what you are doing. You may have to reflash and erase your configuration if you do."
"message":"<span class=\"message-negative\">Changing PID controller disabled - you can change it via the CLI.</span> You have firmware with API version <span class=\"message-negative\">$1</span>, but this functionality requires <span class=\"message-positive\">$2</span>."
"message":"Anti Gravity boosts the I term when fast throttle changes are detected. Higher gain values provide stability and better attitude hold when you pump the throttle."
"message":"<strong>Note:</strong> D Min feature is disabled and its parameters are hidden. To use D Min please enable it in $t(pidTuningPidSettings.message)."
"message":"D Min provides a way to have a lower level of D in normal flight and a higher level for quick maneuvers that might cause overshoot, like flips and rolls. It also brings D up during prop wash. Gain adjusts how fast D gets up to its maximum value and is based on gyro to determine sharp moves and propwash events. Advance makes D go up earlier by using setpoint instead of gyro to determine sharp moves.",
"message":"Controls the strength of dampening (D-term) in normal forward flight.<br>With D_min enabled, the Active D-gain changes during flight. In normal forward flight it is at the D_min gains below. During a sharp move or during prop wash, the Active D-gain raises to the Derivative gains specified to the left.<br><br>Full Derivative gains are reached on sharp stick inputs, but only partial are achieved during prop wash.<br>Adjust the D_Min Gain and Advance to control the gain boost sensitivity and timing.",
"description":"D Min helpicon message on PID table titlebar"
"description":"Auto Smoothness parameter for RC smoothing"
},
"receiverRcSmoothingAutoSmoothnessHelp":{
"message":"Adjusts the Auto smoothing calculation, 10 is the default smoothing to delay ratio. Increasing the number will smooth RC inputs more, while also adding delay. This may be useful for unreliable RC connections or for cinematic flying.<br>Be careful with numbers approaching 50, input delay will become noticeable.<br>Use the CLI command rc_smoothing_info while TX and RX are powered to see the automatically calculated RC smoothing cutoffs. ",
"description":"Auto Smoothness parameter help message"
"message":"The cutoff frequency in Hz used by the input filter. Using lower values will result in smoother inputs and are more appropriate for slower receiver protocols. Most users should leave this at 0 corresponding to \"Auto\"."
},
"rcSmoothingDerivativeCutoffHelp":{
"message":"The cutoff frequency in Hz used by the setpoint derivative filter. Using lower values will result in smoother inputs and are more appropriate for slower receiver protocols. Most users should leave this at 0 corresponding to \"Auto\"."
},
"rcSmoothingChannelsSmoothedHelp":{
"message":"The channels smoothing applies to"
},
"rcSmoothingDerivativeTypeHelp":{
"message":"The type of filtering method used for the setpoint derivative. Most users should use the default \"BIQUAD\" value as it provides a good balance between smoothness and delay. \"PT1\" reduces the delay slightly but provides less smoothing."
},
"rcSmoothingInputTypeHelp":{
"message":"The type of filtering method used for the input. Most users should use the default \"BIQUAD\" value as it provides a good balance between smoothness and delay. \"PT1\" reduces the delay slightly but provides less smoothing."
},
"receiverRcSmoothingInputManual":{
"message":"Selects whether the input filter cutoff frequency is automatically calculated (recommended) or manually selected by the user. Using \"Manual\" is not recommended for receiver protocols like Crossfire which can change in flight."
},
"receiverRcSmoothingDerivativeManual":{
"message":"Selects whether the setpoint derivative filter cutoff frequency is automatically calculated (recommended) or manually selected by the user. Using \"Manual\" is not recommended for receiver protocols like Crossfire which can change in flight."
"message":"RC TX/RX systems are not as fast as PID loops. That means that PID loop has gaps in the information stream from RC systems. This option enables interpolation of the RC input during the times when no RC frames are received. The option also offers cleaner P and D behaviour as there are no ramps in control input."
"message":"With this parameter, the Feedforward term can be reduced near the center of the sticks, which results in smoother end of flips and rolls.<br> The value represents a point of stick deflection: 0 - stick centered, 1 - full deflection. When the stick is above that point, Feedforward is kept constant at its configured value. When the stick is positioned below that point, Feedforward is reduced proportionally, reaching 0 at the stick center position.<br> Value of 1 gives maximum smoothing effect, while value of 0 keeps the Feedforward fixed at its configured value over the whole stick range."
"message":"With this parameter, D Setpoint Weight can be reduced near the center of the sticks, which results in smoother end of flips and rolls.<br> The value represents a point of stick deflection: 0 - stick centered, 1 - full deflection. When the stick is above that point, Setpoint Weight is kept constant at its configured value. When the stick is positioned below that point, Setpoint Weight is reduced proportionally, reaching 0 at the stick center position.<br> Value of 1 gives maximum smoothing effect, while value of 0 keeps the Setpoint Weight fixed at its configured value over the whole stick range."
"message":"This parameter determines the stick accelerating effect within derivative component.<br> Value of 0 equals to old Measuemenent method where D only tracks gyro, while value of 1 equals to old Error method with equal gyro and stick tracking ratio.<br> Lower value equals to slower/smoother stick response, while higher value provides more stick acceleration response.<br> Note that RC interpolation is recommended to be enabled with higher values to prevent control kicks making noise."
"message":"<span class=\"message-negative\"><strong>$t(warningTitle.message):<\/strong> The use of a D Setpoint transition greater than 0 and less than 0.1 is highly discouraged. Doing so may lead instability and reduced stick responsiveness as the sticks cross the centre point.<\/span>"
"message":"Controls the strength of how tightly the machine tracks the sticks (the Setpoint).<br><br>Higher value (gains) provide tighter tracking, but can cause overshoot if too high in proportion to the Derivative (D-term). Think of the P-term as the spring on a car.",
"description":"Proportional Term helpicon message on PID table titlebar"
"message":"Controls the strength of how tightly the machine holds the overall position of the Setpoint.<br>Similar to Proportional, but for longer biases on the craft such as an offset center of gravity (CoG) or persistent outside influence (steady wind).<br><br>Higher gains provide tighter tracking (e.g.: in sweeping turns), but can make the craft feel stiff for commanded stick inputs.<br>If extremely high in proportion to the D-term, can cause slow oscillations.",
"description":"Integral Term helpicon message on PID table titlebar"
"message":"Controls the strength of dampening to ANY motion on the craft. For stick moves, the D-term dampens the command. For an outside influence (prop wash OR wind gust) the D-term dampens the influence.<br><br>Higher gains provide more dampening and reduce overshoot by P-term and FF.<br>However, the D-term is VERY sensitive to gyro high frequency vibrations (noise | magnifies by 10x to 100x).<br><br>High frequency noise can cause motor heat and burn out motors if D-gains are too high or the gyro noise is not filtered well (see Filters tab).<br><br>Think of the D-term as the shock absorber on your car, but with the negative inherent property of magnifying high frequency gyro noise.",
"description":"Derivative Term helpicon message on PID table titlebar"
"message":"Is an additional pushing term (spring) based on stick input. FF helps the P-term push the craft for commanded stick moves.<br><br>The P-term pushes based on the difference between the commanded Setpoint (deg/sec) and the gyro reading of current rotational rate (deg/sec). FF pushes based on the commanded change of the sticks alone.<br><br>Higher values (gains) will result in a more sharp machine response to stick input.<br>Too high of values may result in some overshoot, increased motor heat, and motor saturation (where motors can not keep up with the desired rate of change).<br>Lower or zero (0) values will result in a slower and smoother response to stick inputs.",
"description":"Feedforward Term helpicon message on PID table titlebar"
"message":"<b>Rates and Expo</b>: Determine your stick feel based on these parameters. Use the graph and live 3D model to find your favourite rate setting."
"message":"Select the type of throttle limiting. <b>OFF</b> disables the feature, <b>SCALE</b> will transform the throttle range from 0 to the selected percentage using the full stick travel, <b>CLIP</b> will set a max throttle percentage and stick travel above that will have no additional effect"
},
"pidTuningThrottleLimitPercentTip":{
"message":"Set the desired throttle limit percentage. Setting to 100% disables the feature."
"message":"Please read receiver chapter of the documentation. Configure serial port (if required), receiver mode (serial/ppm/pwm), provider (for serial receivers), bind receiver, set channel map, configure channel endpoints/range on TX so that all channels go from ~1000 to ~2000. Set midpoint (default 1500), trim channels to 1500, configure stick deadband, verify behaviour when TX is off or out of range.<br /><span class=\"message-negative\">IMPORTANT:</span> Before flying read failsafe chapter of documentation and configure failsafe."
"message":"<b>Tuning tips</b><br /><span class=\"message-negative\">IMPORTANT:</span> It is important to verify motor temperatures during first flights. The higher the filter value gets the better it may fly, but you also will get more noise into the motors. <br>Default value of 100Hz is optimal, but for noiser setups you can try lowering Dterm filter to 50Hz and possibly also the gyro filter."
"message":"<span class=\"message-negative\">IMPORTANT:</span> We recommend using the sliders to change filter settings. Move both sliders together.<br>It is best to make relatively small changes and test fly after each change. Check the motor temperatures closely before making further changes.<br>Less filtering (sliders to the right, higher cutoff values) will improve propwash, but will let more noise through to the motors, making them hotter, possibly hot enough to burn out. Less filtering is possible on most clean builds and if rpm filtering is enabled.<br>Unusually high or low filter settings may cause flyaways on arming. The defaults are safe for typical 5\" quads.<br><strong>Note:</strong> Changing profiles will only change the D-term filter settings. Gyro filter settings are the same for all profiles.",
"message":"<span class=\"message-negative\"><b>Warning:</b></span> The amount of filtering you are using is dangerously low. This is likely to make the craft hard to control, and can result in flyaways. It is highly recommended that you <b>enable at least one of Gyro Dynamic Lowpass or Gyro Lowpass 1 and at least one of D Term Dynamic Lowpass or D Term Lowpass 1</b>."
"message":"These are values (in us) by how much RC input can be different before it's considered valid. For transmitters with jitter on outputs, this value can be increased if rc inputs twitch while idle."
"message":"These are values (in us) by how much RC input can be different before it's considered valid. For transmitters with jitter on outputs, this value can be increased if rc inputs twitch while idle. <strong>This setting is for Yaw only.</strong>"
"message":"These sticks allow Betaflight to be armed and tested without a transmitter or receiver being present. However, <strong>this feature is not intended for flight and propellers must not be attached.</strong><br><br>This feature does not guarantee reliable control of your craft. <strong>Serious injury is likely to result if propellers are left on.</strong>"
"message":"Configure modes here using a combination of ranges and/or links to other modes (links supported on BF 4.0 and later). Use <strong>ranges</strong> to define the switches on your transmitter and corresponding mode assignments. A receiver channel that gives a reading between a range min/max will activate the mode. Use a <strong>link</strong> to activate a mode when another mode is activated. <strong>Exceptions:</strong> ARM cannot be linked to or from another mode, modes cannot be linked to other modes that are configured with a link (chained links). Multiple ranges/links can be used to activate any mode. If there is more than one range/link defined for a mode, each of them can be set to <strong>AND</strong> or <strong>OR</strong>. A mode will be activated when:<br />- ALL <strong>AND</strong> ranges/links are active; OR<br />- at least one <strong>OR</strong> range/link is active.<br /><br />Remember to save your settings using the Save button."
"message":"Configure adjustment switches. See the 'in-flight adjustments' section of the manual for details. The changes that adjustment functions make are not saved automatically."
"message":"Use a three position switch on AUX1 to select between Pitch/Roll P, I and D and another three position switch on AUX2 to increase or decrease the value when held up or down."
"message":"Your flight controller's firmware does not support transponder functionality."
},
"transponderInformation":{
"message":"Transponders systems allow race organizers to time your laps. The transponder is fitted to your aircraft and when your aircraft passes the timing gate the track-side receiver registers your code and records your laptime. When fitting an IR based transponder your should ensure that it points outward from your aircraft towards the track-side receivers and that the light beam is not obstructed by your airframe, battery-straps, cables, propellers, etc."
"message":"Configure your transponder code here. Note: Only valid codes will be recognised by race timing systems. Valid transponder codes can be obtained from <a href=\"http://seriouslypro.com/transponder-codes\" target=\"_blank\">Seriously Pro</a>."
},
"transponderHelp2":{
"message":"For more information please visit <a href=\"http://www.arcitimer.com/\" title=\"aRCiTimer\" target=\"_blank\">aRCiTimer site</a>"
"message":"For more information please visit <a href=\"https://github.com/polyvision/EasyRaceLapTimer\" title=\"aRCiTimer\" target=\"_blank\">EasyRaceLapTimer site</a>"
"message":"This numbers show the telemetry info received from the ESCs if available. It can show the actual speed of motors (in RPM), the error rate of the telemetry link and the temperature of the ESCs.",
"description":"Help text for the telemetry values in the motors tab."
},
"motorsRPM":{
"message":"R: {{motorsRpmValue}}",
"description":"To put under the motors in the motors tab. KEEP IT SHORT or not translate. Keep the letters as prefix. Shows the RPM of the motor if telemetry is available."
},
"motorsRPMError":{
"message":"E: {{motorsErrorValue}}%",
"description":"To put under the motors in the motors tab. KEEP IT SHORT or not translate. Shows the error of motor telemetry if available."
},
"motorsESCTemperature":{
"message":"T: {{motorsESCTempValue}}°C",
"description":"To put under the motors in the motors tab. KEEP IT SHORT or not translate. Shows the ESC temperature if available."
"message":"<strong>Motor Test Mode / Arming Notice:</strong><br />Moving the sliders or arming your craft with the transmitter will cause the motors to <strong>spin up</strong>.<br />In order to prevent injury <strong class=\"message-negative\">remove ALL propellers</strong> before using this feature.<br />Enabling motor test mode will also temporarily disable Runaway Takeoff Prevention, to stop it from disarming the craft when bench testing without propellers.<br />"
"message":"<strong>I understand the risks</strong>, the propellers are removed - enable motor control and arming, and disable Runaway Takeoff Prevention."
"message":"Keep in mind that using fast update periods and rendering multiple graphs at the same time is resource heavy and will burn your battery quicker if you use a laptop.<br />We recommend to only render graphs for sensors you are interested in while using reasonable update periods."
"message":"The altitude is calculated by combining the output of the barometer (if available) with the altitude output from the GPS (if available). If a GPS connected and the GPS has a fix, the absolute altitude above sea level will be shown when disarmed. When armed, the altitude relative to the position when arming will be shown."
"message":"<strong>Note:</strong> Leaving CLI tab or pressing Disconnect will <strong>automatically</strong> send \"<strong>exit</strong>\" to the board. With the latest firmware this will make the controller <strong>restart</strong> and unsaved changes will be <strong>lost</strong>.<p><strong><span class=\"message-negative\">Warning:</span></strong> Some commands in CLI can result in arbitrary signals being sent on the motor output pins. This can cause motors to spin up if a battery is connected. Therefore it is highly recommended to make sure that <strong>no battery is connected before entering commands in CLI</strong>."
"message":"Data will be logged in this tab <span class=\"message-negative\">only</span>, leaving the tab will <span class=\"message-negative\">cancel</span> logging and application will return to its normal <strong>\"configurator\"</strong> state.<br /> You are free to select the global update period, data will be written into the log file every <strong>1</strong> second for performance reasons."
"message":"Saving blackbox logs through the configurator is slow and relatively prone to errors. It is recommended that you instead use '<b>$t(onboardLoggingRebootMscText.message)</b>' (below) to activate the Mass Storage Mode, and access your flight controller as a storage device to download the log files."
"message":"<span class=\"message-negative\">IMPORTANT: This firmware release is currently marked as a release candidate. Please report any issues immediately.</span>"
"message":"<span class=\"message-negative\">IMPORTANT</span>: Ensure you flash a file appropriate for your target. Flashing a binary for the wrong target can cause <span class=\"message-negative\">bad</span> things to happen."
"message":"Starting with Betaflight 4.1, Betaflight is introducing support for <strong>Unified Targets</strong>. The concept of Unified Targets means that the same firmware .hex file can be used for all boards using the same MCU (F4, F7). To make the different boards work with the same firmware, a specific configuration file is deployed alongside the firmware when a Unified Target is flashed.<br>This version of Betaflight configurator supports flashing of Unified Targets with the respective board specific configurations in one step. The different firmware types that are available for each board are shown in the drop-down as follows:<br><br><strong><board name></strong> or<br><strong><board name> (Legacy)</strong>:<br>non-unified target, or pre-4.1 versions of the firmware for Unified Targets.<br><br><strong><board name> (<manufacturer id>)</strong>:<br>(4 character manufacturer id)<br>Unified Target.<br><br><strong>Please use Unified Targets where available.</strong> If you encounter problems using a Unified Target, please open an <a href=\"https://github.com/betaflight/betaflight/issues\" target=\"_blank\" rel=\"noopener noreferrer\">issue</a> and then use the non-unified target until the issue has been resolved."
"message":"Manual selection of baud rate for boards that don't support the default speed or for flashing via bluetooth.<br /><span class=\"message-negative\">Note:</span> Not used when flashing via USB DFU"
"message":"Please do <span class=\"message-negative\">not</span> try to flash <strong>non-Betaflight</strong> hardware with this firmware flasher.<br />Do <span class=\"message-negative\">not</span> <strong>disconnect</strong> the board or <strong>turn off</strong> your computer while flashing.<br /><br /><strong>Note: </strong>STM32 bootloader is stored in ROM, it cannot be bricked.<br /><strong>Note: </strong><span class=\"message-negative\">Auto-Connect</span> is always disabled while you are inside firmware flasher.<br /><strong>Note: </strong>Make sure you have a backup; some upgrades/downgrades will wipe your configuration.<br /><strong>Note:</strong> If you have problems flashing <strong>try disconnecting all cables from your FC</strong> first, try rebooting, upgrade chrome, upgrade drivers.<br /><strong>Note:</strong> When flashing boards that have directly connected USB sockets (most newer boards) ensure you have read the USB Flashing section of the Betaflight manual and have the correct software and drivers installed"
"message":"If you have lost communication with your board follow these steps to restore communication: <ul><li>Power off</li><li>Enable 'No reboot sequence', enable 'Full chip erase'.</li><li>Jumper the BOOT pins or hold BOOT button.</li><li>Power on (activity LED will NOT flash if done correctly).</li><li>Install all STM32 drivers and Zadig if required (see <a href=\"https://github.com/betaflight/betaflight/wiki/Installing-Betaflight\"target=\"_blank\">USB Flashing</a> section of Betaflight manual).</li><li>Close configurator, Close all running chrome instances, Close all Chrome apps, Restart Configurator.</li><li>Release BOOT button if your FC has one.</li><li>Flash with correct firmware (using manual baud rate if specified in your FC's manual).</li><li>Power off.</li><li>Remove BOOT jumper.</li><li>Power on (activity LED should flash).</li><li>Connect normally.</li></ul>"
"message":"The flight controller can control colors and effects of individual LEDs on a strip.<br />Configure LEDs on the grid, configure wiring order then attach LEDs on your aircraft according to grid positions. LEDs without wire ordering number will not be saved.<br />Double-click on a color to edit the HSV values."
"message":"Keeps the craft from jumping up at the end of yaws. Higher number gives more damping at the end of yaw moves (works like old yaw D, which was not a real D like on other axis)"
"message":"The values below change the behaviour of the ANGLE and HORIZON flight modes. Different PID controllers handle the values differently. Please check the documentation."
"message":"Sliders to adjust the quad gyro and D-term filtering.<br><br>More Filtering gives you smoother flight, but also increases gyro signal delay (Phase Delay) to the PID loop which will result in worse aggressive flight performance, prop wash handling, stick response and if excessive can cause oscillations.<br><br>Less Filtering reduces the gyro signal delay, but can increase motor temperatures due to the D-term reacting to the high frequency motor vibrations (noise).<br>Additionally, if filtering is excessively low, it will cause a decrease in flight performance (higher noise to signal ratio).",
"description":"Overall helpicon message for filter tuning sliders"
"message":"Raises or Lowers the default Gyro Lowpass Filters in proportion to each-other. The gyro filtering is applied before the PID loop.<br>General motor noise ranges per quad class:<br><br>6\"+ quads - generally within 100hz to 330hz<br>5\" quads - generally within 220hz to 500hz<br>Whoop to 3\" quads - generally within 300hz to 850hz<br><br>Generally, you want to set the slider to have the Gyro Lowpass 1 Dynamic Min/Max Cutoff range cover the above.<br>However, for smoother flights use More Filtering on the slider. To get a more aggressive filter tune, use Less Filtering on the slider.<br><br>With Less Filtering BE CAREFUL to not get radical as to cause a fly-away or burn out motors.<br>Note frame resonance issues, bad bearings, and beat up props may cause you to need more filtering.",
"message":"Raises or Lower the default D-term Lowpass Filters in proportion to each-other.<br>The D-term filtering is applied after the PID loop, ONLY on the D-term, since it is the term most sensitive to noise and can amplify any high frequency noise by 10x to 100x plus.<br><br>Generally you want to move the D-term Filter slider up with the Gyro Filter slider. You want to have the D-term filter cutoffs well below the motor noise range for harder D-term filtering then what is applied on the entire gyro signal with the Gyro Filter Multiplier.<br>That recommended differential is built into the default and slider scaling.",
"description":"D Term filtering tuning slider helpicon message"
},
"pidTuningPidSlidersHelp":{
"message":"Sliders to adjust the quad flight characteristics (PID gains)<br><br>Master Multiplier: Raises or Lowers all the PID gains (above) holding the proportional difference between the gains.<br><br>PD Balance: Adjusts the balance (ratio \\ proportional difference) between the P and D terms ('the spring' [p-term] and 'shock absorber' [d-term]).<br><br>PD Gain: Raises or Lowers the P&D gains together - holding the ratio (balance) between the two - for more (or less) PID control authority.<br><br>Stick Response Gain: Raises or Lowers the FeedForward gains to control the stick response feel of the quad.",
"description":"Overall helpicon message for PID tuning sliders"
"message":"<span class=\"message-negative\">CAUTION</span>: Current slider positions may cause flyaways, motor damage or unsafe craft behaviour. Please proceed with caution.",
"description":"Warning shown when tuning slider are above safe limits"
},
"pidTuningSlidersDisabled":{
"message":"<strong>Note:</strong> Sliders are disabled because values were changed manually. Clicking the '$t(pidTuningSliderEnableButton.message)' button will activate them again. This will reset the values and any unsaved changes will be lost.",
"description":"Tuning sliders disabled note when manual changes are detected"
"message":"<strong>Note:</strong> Sliders range is restricted because you are not in expert mode. This range should be suitable for most builds and beginners.",
"message":"Generally larger quads need higher PID gains due to having a lower power to weight ratio.<br><br>Smaller quads (micros) generally need lower PID gains due to a higher power to weight ratio.<br><br>Higher values are for lower authority quads. Lower values are for higher authority quads.",
"description":"Master gain tuning slider helpicon message"
},
"pidTuningPDRatioSliderHelp":{
"message":"Lower PD balance will lower overall response but will also reduce a possibility of fast bounceback after a flip or roll.<br><br>Higher PD balance provides faster reponse and better propwash handling. However, if your PD balance is too high you will get oscillations after a flip or roll and extended oscillations during prop wash.",
"message":"Lower P and D gain will result in cooler motors but will result in more propwash oscillation. Too low value may cause the quad to be unstable.<br><br>P and D terms work together to reduce propwash.<br><br>Higher values will increase motor heat and could increase oscillations during smooth forward flight due to higher D term gains.",
"description":"P and D gain tuning slider helpicon message"
},
"pidTuningResponseSliderHelp":{
"message":"Lower values will worsen the stick response and may result in slow bounceback at the end of a flip or roll (I-term windup).<br><br>Higher value will have a better stick response for sharp moves. However, too high of values can cause overshoots and fast bounceback at the end of a flip or roll.",
"description":"Stick response gain tuning slider helpicon message"
"message":"The Lowpass Filters can have two variants: static and dynamic. For a determined lowpass filter number only one (static or dynamic) can be enabled at the same time. The static only has a Cutoff that is a value that defines in some way where the filter starts. The dynamic defines a min and max values, that is the range where the Cutoff is placed. This Cutoff moves from min to max at the same time than you move the throttle stick."
"message":"The Notch Filter has a Center and a Cutoff. The filter is symmetrical. The Center Frequency is the center of the filter and the Cutoff Frequency is where Notch filter starts. For example with Notch Cutoff of 160 and Notch Center of 260 it means the range is 160-360Hz with most attenuation around center"
"message":"<strong>Notice:</strong> The dynamic notch filter is disabled. In order to configure and use it, please enable the 'DYNAMIC_FILTER' feature in the '$t(configurationFeatures.message)' section of the '$t(tabConfiguration.message)' tab."
"message":"The dynamic notch has three frequency ranges in which it can operate: LOW(80-330hz) for lower revving quads like 6+ inches, MEDIUM(140-550hz) for a normal 5 inch quad, HIGH(230-800hz) for very high revving 2.5-3 inch quads. AUTO option selects the range depending on the value of the Gyro Dynamic Lowpass 1 Filter's max cutoff frequency."
"message":"This sets the width between two dynamic notch filters. Setting it at 0 will disable the second dynamic notch filter and will reduce filter delay, however it may make motor temperatures higher."
},
"pidTuningDynamicNotchQHelp":{
"message":"Q factor adjust how narrow or wide the dynamic notch filters are. Higher value makes it narrower and more precise and lower value makes it wider and broader. Having a really low value will greatly increase filter delay."
},
"pidTuningDynamicNotchMinHzHelp":{
"message":"Defines the lowest dynamic notch center frequency below which the dynamic notch will not go."
"description":"Header text for the RPM Filter group"
},
"pidTuningRpmFilterHelp":{
"message":"RPM filtering is a bank of notch filters on gyro which use the RPM telemetry data to remove motor noise with surgical precision.<br><br><b><span class=\"message-positive\">IMPORTANT</span>: The ESC must support the Bidirectional DShot protocol and the value of the $t(configurationMotorPoles.message) in the $t(tabConfiguration.message) tab must be correct for this filter to work.</b>",
"description":"Header text for the RPM Filter group"
},
"pidTuningRpmHarmonics":{
"message":"Gyro RPM Filter Harmonics Number",
"description":"Text for one of the parameters of the RPM Filter"
},
"pidTuningRpmHarmonicsHelp":{
"message":"Number of harmonics per motor. A value of 3 (recommended for most quads) will generate 3 notch filters, per motor for each axis, totaling 36 notches. One at the base motor frequency and two harmonics at multiples of that base frequency.",
"description":"Help text for one of the parameters of the RPM Filter"
},
"pidTuningRpmMinHz":{
"message":"Gyro RPM Filter Min Frequency [Hz]",
"description":"Text for one of the parameters of the RPM Filter"
},
"pidTuningRpmMinHzHelp":{
"message":"Minimum frequency that will be used by the RPM Filter.",
"description":"Help text for one of the parameters of the RPM Filter"
"message":"Increases the PID values to compensate when Vbat gets lower. This will give more constant flight characteristics throughout the flight. The amount of compensation that is applied is calculated from the $t(powerBatteryMaximum.message) set in the $t(tabPower.message) page, so make sure that is set to something appropriate."
"message":"Rotates the current I Term vector properly to other axes as the quad rotates when yawing continuously during rolls and when performing funnels and other tricks. Very appreciated by LOS acro pilots."
"message":"Reduces the effect of the F Term in the PID. When both the P Term and the F Term are active at the same moment, it only uses the larger of the two, avoiding overshoots without the needing to raise D, but also reduces the responsiveness effect produced by the F term when added to P."
"message":"Limits the accumulation of I Term when fast movements happen. This helps specially to reduce the bounceback at the end of rolls and other fast movements. You can choose the axes in which this is active, and if the fast movement is detectd using the Gyro or the Setpoint (stick)."
"message":"This feature solves some underlying problems of $t(pidTuningItermRotation.message) and should hopefully replace it at some point. This feature accumulates the absolute gyro error in quad coordinates and mixes a proportional correction into the setpoint. For it to work you need to enable AirMode and $t(pidTuningItermRelax.message) (for $t(pidTuningItermRelaxAxesOptionRP.message)). If you combine this feature with $t(pidTuningIntegratedYaw.message), you can set $t(pidTuningItermRelax.message) enabled for $t(pidTuningItermRelaxAxesOptionRPY.message)."
"message":"This feature allows throttle to be temporarily boosted on quick stick movements, which increases acceleration torque to the motors, providing a much faster throttle response."
"message":"Adds a new angle limiting mode for pilots who are learning to fly in acro mode. The range valid is 10-80 and must be activated with a switch in the $t(tabAuxiliary.message) tab."
"message":"<span class=\"message-negative\">CAUTION</span>: if you enable this feature, you must adjust the YAW PID accordingly. More info <a href=\"https://github.com/betaflight/betaflight/wiki/Integrated-Yaw\" target=\"_blank\">here</a>"
},
"pidTuningIntegratedYawHelp":{
"message":"Integrated Yaw is a feature which corrects a fundamental issue with quad control: while the pitch and roll axis are controlled by the thrust differentials the props generate yaw is different. Integrated Yaw fixes this by integrating the output of the yaw pid before applying them to the mixer. This normalizes the way the pids work. You can now tune as any other axis. It requires use of absolute control since no I is needed with Integrated Yaw."
"message":"Arbitrary board rotation in degrees, to allow mounting it sideways / upside down / rotated etc. When running external sensors, use the sensor alignments (Gyro, Acc, Mag) to define sensor position independent from board orientation. "
"message":"Failsafe has two stages. <strong>Stage 1</strong> is entered when a flightchannel has an invalid pulse length, the receiver reports failsafe mode or there is no signal from the receiver at all, the channel fallback settings are applied to <span class=\"message-negative\">all channels</span> and a short amount of time is provided to allow for recovery. <strong>Stage 2</strong> is entered when the error condition takes longer than the configured guard time while the craft is <span class=\"message-negative\">armed</span>, all channels will remain at the applied channel fallback setting unless overruled by the chosen procedure. <br /><strong>Note:</strong> Prior to entering stage 1, channel fallback settings are also applied to individual AUX channels that have invalid pulses."
"message":"Pulses shorter than minimum or longer than maximum are invalid and will trigger application of individual channel fallback settings for AUX channels or entering stage 1 for flightchannels"
"message":"These settings are applied to invalid individual AUX channels or to all channels when entering stage 1. <strong>Note:</strong> values are saved in steps of 25usec, so small changes disappear"
"message":"<strong>Auto</strong> means Roll, Pitch and Yaw to center and Throttle low. <strong>Hold</strong> means maintain the last good value received"
},
"failsafeChannelFallbackSettingsHold":{
"message":"<strong>Hold</strong> means maintain the last good value received. <strong>Set</strong> means the value given here will be used"
"message":"Set this option to make the failsafe switch (Modes Tab) act as a direct kill switch, bypassing the selected failsafe procedure. <strong>Note:</strong> Arming is blocked with the failsafe kill switch in the ON position"
"message":"This option determines what happens when Failsafe is activated through AUX switch:<br/><strong>Stage 1</strong> activates Stage 1 failsafe. This is useful if you want to simulate the exact signal loss failsafe behavior.<br/><strong>Stage 2</strong> skips Stage 1 and activates the Stage 2 procedure immediately<br/><strong>Kill</strong> disarms instantly (your craft will crash)"
"message":"Firmware upgrade <span class=\"message-negative\">required</span>. Battery/Amperage/Voltage configurations using API < 1.33.0 (Betaflight release <= 3.17) is not supported."
"message":"To calibrate, use a multimeter to measure the actual voltage / current draw on your craft (with a battery plugged in), and enter the values below. Then, with the same battery still plugged in, click [Calibrate]."
},
"powerCalibrationManagerNote":{
"message":"<strong>Note:</strong> Before calibrating the scale make sure that divider and multiplier for voltage and offset for amperage is set properly.<br>Leaving the values at 0 will not apply calibration.</br><strong>Remember to remove propellers before plugging in a battery!</strong>"
},
"powerCalibrationManagerWarning":{
"message":"<span class=\"message-negative\">Warning:</span> The battery <span class=\"message-negative\">is not plugged in</span> or voltage and amperage meter sources are <span class=\"message-negative\">not set properly.</span> Make sure that the voltage and/or amperage are reading a value above 0. Otherwise you will not be able to calibrate using this tool."
},
"powerCalibrationManagerSourceNote":{
"message":"<span class=\"message-negative\">Warning:</span> Voltage and/or amperage meter sources <strong>have been changed but not saved.</strong> Please set the correct meter sources and save them before trying to calibrate."
"message":"New calibrated scales are shown here. <br>Applying them will set the scales but <strong>will not save them.</strong></br> <br>After saving make sure that the new voltage and current are correct.</br>"
"message":"<strong>Note:</strong> OSD preview may not show the actual font that is installed on the flight controller. The layout of individual elements may look different when older versions of the firmware are used - please check the look through your goggles before flying."
"message":"Your flight controller isn't responding to OSD commands. This probably means that it does not have an integrated BetaFlight OSD."
},
"osdSetupUnsupportedNote2":{
"message":"Note that some flight controllers have an onboard <a href=\"https://www.youtube.com/watch?v=ikKH_6SQ-Tk\" target=\"_blank\">MinimOSD</a> that can be flashed and configured with <a href=\"https://github.com/ShikOfTheRa/scarab-osd/releases/latest\" target='_blank'>scarab-osd</a>, however the MinimOSD cannot be configured through this interface."
"description":"Label of the selector for the OSD Profile in the preview. KEEP IT SHORT!!!"
},
"osdSetupPreviewForTitle":{
"message":"Changing here the profile or the font will NOT change the profile or the font in the flight controller, only affects the preview window. If you want to change it, you must use the '$t(osdSetupSelectedProfileTitle.message)' option or the '$t(osdSetupFontManager.message)' button respectively.",
"description":"Help content for the OSD profile and font PREVIEW"
"message":"Select the timer alarm threshold in minutes, when the time exceeds this value the OSD element will blink, setting this to 0 disables the alarm"
"message":"Set the expected video mode of the camera (typically this can be left on AUTO, if you have difficulties then set this to match the camera output)."
},
"osdSectionHelpUnits":{
"message":"Sets the unit system used for numeric readouts."
},
"osdSectionHelpTimers":{
"message":"Configure flight timers."
},
"osdSectionHelpAlarms":{
"message":"Set the thresholds used for OSD elements with alarm states."
},
"osdSectionHelpStats":{
"message":"Set the values dispalyed on the post flight statistics screen."
},
"osdSectionHelpWarnings":{
"message":"Enable or disable warnings that are shown on the WARNINGS element."
"message":"Here you can configure the values for your Video Transmitter (VTX). You can view and change the transmission values, including the VTX Tables, if the flight controller and the VTX support it.<br>To set up your VTX use the following steps:<br>1. Go to <a target=\"_blank\" rel=\"noopener noreferrer\" href=\"https://github.com/betaflight/betaflight/wiki/VTX-tables\">this</a> page;<br>2. Find the appropriate VTX configuration file for your country and your VTX model and download it;<br>3. Click '$t(vtxButtonLoadFile.message)' below, select the VTX configuration file, load it;<br>4. Verify that the settings are correct;<br>5. Click '$t(vtxButtonSave.message)' to store the VTX settings on the flight controller.<br>6. Optionally click '$t(vtxButtonSaveLua.message)' to save a lua configuration file you can use with the betaflight lua scripts (See more <a target=\"_blank\" rel=\"noopener noreferrer\" href=\"https://github.com/betaflight/betaflight-tx-lua-scripts/\">here</a>.)",
"description":"Introduction message in the VTX tab"
},
"vtxMessageNotSupported":{
"message":"<span class=\"message-negative\">Attention:</span> Your VTX is not configured or not supported. So you can't modify the VTX values from here. This will only be possible if the flight controller is attached to the VTX using some protocol like Tramp or SmartAudio and is correctly configured in the $t(tabPorts.message) tab if needed.",
"description":"Message to show when the VTX is not supported in the VTX tab"
},
"vtxMessageTableNotConfigured":{
"message":"<span class=\"message-negative\">Attention:</span> You need to configure and save FIRST the VTX Table at the bottom before you can make use of the $t(vtxSelectedMode.message) fields.",
"description":"Message to show when the VTX is not supported in the VTX tab"
"message":"<span class=\"message-negative\">Attention:</span> The values of the VTX Table have been loaded, but not yet stored on the flight controller. You must verify and modify the values to be sure that they are valid and legal in your country and then press the $t(vtxButtonSave.message) button to store them on the flight controller.",
"description":"Message to show when the VTX Table has been loaded from a external source"
"description":"Text of one of the fields of the VTX tab"
},
"vtxFrequencyChannelHelp":{
"message":"If you enable this, the Configurator will let you select a frequency in place of the habitual band/channel. For this to work your VTX must support this feature.",
"description":"Help text for the frequency or channel select field of the VTX tab"
},
"vtxSelectedMode":{
"message":"Selected Mode",
"description":"Title for the actual mode header of the VTX"
},
"vtxActualState":{
"message":"Current Values",
"description":"Title for the actual values header of the VTX"
},
"vtxType":{
"message":"VTX Type",
"description":"Text of one of the fields of the VTX tab"
},
"vtxType_0":{
"message":"Unsupported",
"description":"Text for one of the types of the VTX type in VTX tab"
},
"vtxType_1":{
"message":"RTC607",
"description":"Text for one of the types of the VTX type in VTX tab"
},
"vtxType_3":{
"message":"SmartAudio",
"description":"Text for one of the types of the VTX type in VTX tab"
},
"vtxType_4":{
"message":"Tramp",
"description":"Text for one of the types of the VTX type in VTX tab"
},
"vtxType_255":{
"message":"Unknown",
"description":"Text for one of the types of the VTX type in VTX tab"
},
"vtxBand":{
"message":"Band",
"description":"Text of one of the fields of the VTX tab"
},
"vtxBandHelp":{
"message":"You can select here the band for your VTX",
"description":"Help text for the band field of the VTX tab"
},
"vtxBand_0":{
"message":"None",
"description":"Text of one of the options for the band field of the VTX tab"
},
"vtxBand_X":{
"message":"Band {{bandName}}",
"description":"Text of one of the options for the band field of the VTX tab"
},
"vtxChannel_0":{
"message":"None",
"description":"Text of one of the options for the channel field of the VTX tab"
},
"vtxChannel_X":{
"message":"Channel {{channelName}}",
"description":"Text of one of the options for the channel field of the VTX tab"
},
"vtxPower_0":{
"message":"None",
"description":"Text of one of the options for the power field of the VTX tab"
},
"vtxPower_X":{
"message":"Level {{powerLevel}}",
"description":"Text of one of the options for the power field of the VTX tab"
},
"vtxChannel":{
"message":"Channel",
"description":"Text of one of the fields of the VTX tab"
},
"vtxChannelHelp":{
"message":"You can select here the channel for your VTX",
"description":"Help text for the channel field of the VTX tab"
},
"vtxFrequency":{
"message":"Frequency",
"description":"Text of one of the fields of the VTX tab"
},
"vtxFrequencyHelp":{
"message":"You can select here the frequency for your VTX if it is supported",
"description":"Help text for the frequency field of the VTX tab"
},
"vtxDeviceReady":{
"message":"Device ready",
"description":"Text of one of the fields of the VTX tab"
},
"vtxPower":{
"message":"Power",
"description":"Text of one of the fields of the VTX tab"
},
"vtxPowerHelp":{
"message":"This is the power selected for the VTX. It can be modified if the $t(vtxPitMode.message) or the $t(vtxLowPowerDisarm.message) is enabled",
"description":"Help text for the power field of the VTX tab"
},
"vtxPitMode":{
"message":"Pit Mode",
"description":"Text of one of the fields of the VTX tab"
"message":"When enabled, the VTX enters in a very low power mode to let the quad be on at the bench without disturbing other pilots. Usually the range of this mode is less than 5m.<br><br>NOTE: Some protocols, like SmartAudio, can't enable Pit Mode via software after power-up.",
"message":"This table represents the different values of power that can be used for the VTX. They are divided into two: <br><b>- $t(vtxTablePowerLevelsValue.message):</b> each power level requires a value that is defined by the hardware manufacturer. Ask your manufacturer for the correct value or consult the Betaflight wiki of VTX Tables to grab some samples. <br><b>- $t(vtxTablePowerLevelsLabel.message):</b> you can put here the label you want for each power level value. It can be numbers (25, 200, 600, 1.2), letters (OFF, MIN, MAX) or a mix of them. <br><br>You must configure <b>only</b> the power levels that are legal at your country.",
"description":"Help for the number of bands and channels field of the VTX Table element in the VTX tab"
},
"vtxTableBandTitleName":{
"message":"Name",
"description":"Text of one of the titles of the VTX Table element in the VTX tab"
},
"vtxTableBandTitleLetter":{
"message":"Letter",
"description":"Text of one of the titles of the VTX Table element in the VTX tab"
},
"vtxTableBandTitleFactory":{
"message":"Factory",
"description":"Text of one of the titles of the VTX Table element in the VTX tab"
},
"vtxTableBandsChannelsTableHelp":{
"message":"This table represents all the frequencies that can be used for your VTX. You can have several bands and for each band you must configure:<br><b>- $t(vtxTableBandTitleName.message):</b> Name that you want to assign to this band, like BOSCAM_A, FATSHARK or RACEBAND.<br><b>- $t(vtxTableBandTitleLetter.message):</b> Short letter that references the band.<br><b>- $t(vtxTableBandTitleFactory.message):</b> This indicates if it is a factory band. If enabled Betaflight sends to the VTX a band and channel number. The VTX will then use its built-in frequency table and the frequencies configured here are only to show the value in the OSD and other places. If it is not enabled, then Betaflight will send to the VTX the real frequency configured here.<br><b>- Frequencies:</b> Frequencies for this band.<br><br>Remember that not all frequencies are legal at your country. You must put a value of <b>zero</b> to each frequency index that you are not allowed to use to disable it.",
"description":"Help for the table of bands-channels that appears in the VTX tab"
"message":"The '$t(vtxButtonSaveLua.message)' button will allow you to save a <i>craftname</i>.lua file containing the vtx table configuration that can be used with the betaflight lua scripts. (See more <a target=\"_blank\" rel=\"noopener noreferrer\" href=\"https://github.com/betaflight/betaflight-tx-lua-scripts/\">here</a>.)",
"description":"Tooltip message for the Save Lua script button in the VTX tab"
"message":"Select your motor protocol. <br>Make sure to verify the protocol is supported by your ESC, this information should be on the makers website. <br> <b>Be carefull using DSHOT900 and DSHOT1200 as not many ESC's support it!</b>"
"message":"Select your motor protocol. <br>Make sure to verify the protocol is supported by your ESC, this information should be on the makers website."
"message":"When enabled lets the DSHOT protocol receive information directly from the ESC, needed by the RPM Filter and other features.<br><br>This requires the JESC firmware from jflight.net on BLHELI_S or the latest BLHELI_32 firmware.",
"description":"Description of the Bidirectional DShot feature of the ESC/Motor"
"message":"32 kHz gyro update frequency is only possible if the gyro chip supports it (currently MPU6500, MPU9250, and ICM20xxx if connected over SPI). If in doubt, consult the specification for your board."
"message":"Craft will not ARM if tilted more than specified number of degrees. Only applies if accelerometer is enabled. Setting to 180 will effectivly disable check"
"message":"Up to 3 (2 for some controllers) different pid profiles can be stored on the flight controller. The pid profiles include pid, d setpoint and angle/horizon settings on this tab. Once in the field, simple stick commands (see online instructions) can be used to switch between the profiles."
"message":"Up to 3 different rateprofiles per profile can be stored on the flight controller. The rateprofiles include the settings for 'RC Rate', 'Rate', 'RC Expo', 'Throttle', and 'TPA'. Switching between rateprofiles is possible in-flight, by setting up a 3 position switch for 'Rate Profile Selection' on the 'Adjustments' tab."
"message":"Adjust these values to set your rates. Use RC Rate to increase maximum rate overall, use Super Rate to have higher rates at the end of the stick travel, use RC Expo to make the middle stick feel smooth.",
"message":"<b>Derivative from Error</b> provides more direct stick response and is mostly prefered for Racing.<br><br><b>Derivative from Measurement</b> provides smoother stick response what is more usefull for freestyling"
"message":"<b>Legacy vs Betaflight (float):</b> PID scaling and PID logic is exactly the same. Not necessarily retune needed. Legacy is old betaflight evolved rewrite, which is basic PID controller based on integer math. Betaflight PID controller uses floating point math and has many new features specifically designed for multirotor applications <br> <b>Float vs Integer:</b> PID scaling and PID logic is exactly the same. No retune needed. F1 boards have no onboard FPU and floating point math increases CPU load and integer math will improve performance, but float math might gain slightly more precision."
"message":"<b>Gyro Soft Filter:</b> Lowpass filter for gyro. Use lower value for more filtering.<br><b>D Term Filter:</b> Lowpass filter for Dterm. Can affect D tuning. Use lower value for more filtering. <br><b>Yaw Filter:</b> Filters yaw output. It can help on setups with noisy yaw axis."
"message":"Reboot into <strong>mass storage device (MSC)</strong> mode. Once activated, the onboard flash or SD card on your flight controller will be recognised as a storage device by your computer, and allow you to download your log files. Eject and power cycle your flight controller to leave mass storage device mode."
