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Please carefully read all of this document for the best possible experience and safety.
Contact other pilots, share experiences, suggestions and ask for help on:
7.1.2 fixes an altitude bug that was in 7.1.1.
INAV 7 is the last INAV official release available for F411 based flight controllers. The next milestone, INAV 8 will not be available for F411 boards.
The GPS NMEA protocol is no longer supported. All pilots are required to switch to UBLOX protocol. All modern GPS modules (even as old as from 2015 and earlier) support UBLOX protocol and there is not a single good reason to stick to NMEA nowadays
Make sure to remove props and check your motor and servo outputs before powering your upgraded flight controller with a battery for the first time. The changes to enable flexible motor and servo allocation may change what outputs your configuration uses by default.
Attention all drone pilots and enthusiasts,
Are you ready to take your flights to new heights with INAV 7.1? We've got some important information to share with you.
INAV 7.1 brings an exciting update to navigation capabilities. Now, you can soar through the skies, navigate waypoints, and even return to home without relying on a compass. Yes, you heard that right! But before you launch into the air, there's something crucial to consider.
While INAV 7.1 may not require a compass for basic navigation functions, we strongly advise you to install one for optimal flight performance. Here's why:
🛰️ Better Flight Precision: A compass provides essential data for accurate navigation, ensuring smoother and more precise flight paths.
🌐 Enhanced Reliability: With a compass onboard, your drone can maintain stability even in challenging environments, low speeds and strong wind.
🚀 Minimize Risks: Although INAV 7.1 can get you where you need to go without a compass, flying without one may result in a bumpier ride and increased risk of drift or inaccurate positioning.
Remember, safety and efficiency are paramount when operating drones. By installing a compass, you're not just enhancing your flight experience, but also prioritizing safety for yourself and those around you.
So, before you take off on your next adventure, make sure to equip your drone with a compass. It's the smart choice for smoother flights and better navigation.
Fly safe, fly smart with INAV 7.1 and a compass by your side!
Currently, if you wish to fly a multirotor without a compass. You will need to enable a compass (fake is ok) to change navigational modes in Configurator. You should disable the compass after making the changes. This has been fixed for a future release.
diff all
commandPlease follow the instructions on this page.
Fixes an altitude holding bug by turning use_gps_no_baro OFF by default.
Full Changelog: https://github.com/iNavFlight/inav/compare/7.1.1...7.1.2
Full Changelog: https://github.com/iNavFlight/inav/compare/7.1.0...7.1.2
Published by DzikuVx 6 months ago
Please carefully read all of this document for the best possible experience and safety.
Contact other pilots, share experiences, suggestions and ask for help on:
INAV 7 is the last INAV official release available for F411 based flight controllers. The next milestone, INAV 8 will not be available for F411 boards.
The GPS NMEA protocol is no longer supported. All pilots are required to switch to UBLOX protocol. All modern GPS modules (even as old as from 2015 and earlier) support UBLOX protocol and there is not a single good reason to stick to NMEA nowadays
Make sure to remove props and check your motor and servo outputs before powering your upgraded flight controller with a battery for the first time. The changes to enable flexible motor and servo allocation may change what outputs your configuration uses by default.
Attention all drone pilots and enthusiasts,
Are you ready to take your flights to new heights with INAV 7.1? We've got some important information to share with you.
INAV 7.1 brings an exciting update to navigation capabilities. Now, you can soar through the skies, navigate waypoints, and even return to home without relying on a compass. Yes, you heard that right! But before you launch into the air, there's something crucial to consider.
While INAV 7.1 may not require a compass for basic navigation functions, we strongly advise you to install one for optimal flight performance. Here's why:
🛰️ Better Flight Precision: A compass provides essential data for accurate navigation, ensuring smoother and more precise flight paths.
🌐 Enhanced Reliability: With a compass onboard, your drone can maintain stability even in challenging environments, low speeds and strong wind.
🚀 Minimize Risks: Although INAV 7.1 can get you where you need to go without a compass, flying without one may result in a bumpier ride and increased risk of drift or inaccurate positioning.
Remember, safety and efficiency are paramount when operating drones. By installing a compass, you're not just enhancing your flight experience, but also prioritizing safety for yourself and those around you.
So, before you take off on your next adventure, make sure to equip your drone with a compass. It's the smart choice for smoother flights and better navigation.
Fly safe, fly smart with INAV 7.1 and a compass by your side!
Currently, if you wish to fly a multirotor without a compass. You will need to enable a compass (fake is ok) to change navigational modes in Configurator. You should disable the compass after making the changes. This has been fixed for a future release.
diff all
commandPlease follow the instructions on this page.
The full list of changes is available here
The full list of INAV Configurator changes is available here
Full Changelog: https://github.com/iNavFlight/inav/compare/7.1.0...7.1.1
Published by DzikuVx 7 months ago
Please carefully read all of this document for the best possible experience and safety.
Contact other pilots, share experiences, suggestions and ask for help on:
INAV 7 is the last INAV official release available for F411 based flight controllers. The next milestone, INAV 8 will not be available for F411 boards.
The GPS NMEA protocol is no longer supported. All pilots are required to switch to UBLOX protocol. All modern GPS modules (even as old as from 2015 and earlier) support UBLOX protocol and there is not a single good reason to stick to NMEA nowadays
Make sure to remove props and check your motor and servo outputs before powering your upgraded flight controller with a battery for the first time. The changes to enable flexible motor and servo allocation may change what outputs your configuration uses by default.
Attention all drone pilots and enthusiasts,
Are you ready to take your flights to new heights with INAV 7.1? We've got some important information to share with you.
INAV 7.1 brings an exciting update to navigation capabilities. Now, you can soar through the skies, navigate waypoints, and even return to home without relying on a compass. Yes, you heard that right! But before you launch into the air, there's something crucial to consider.
While INAV 7.1 may not require a compass for basic navigation functions, we strongly advise you to install one for optimal flight performance. Here's why:
🛰️ Better Flight Precision: A compass provides essential data for accurate navigation, ensuring smoother and more precise flight paths.
🌐 Enhanced Reliability: With a compass onboard, your drone can maintain stability even in challenging environments, low speeds and strong wind.
🚀 Minimize Risks: Although INAV 7.1 can get you where you need to go without a compass, flying without one may result in a bumpier ride and increased risk of drift or inaccurate positioning.
Remember, safety and efficiency are paramount when operating drones. By installing a compass, you're not just enhancing your flight experience, but also prioritizing safety for yourself and those around you.
So, before you take off on your next adventure, make sure to equip your drone with a compass. It's the smart choice for smoother flights and better navigation.
Fly safe, fly smart with INAV 7.1 and a compass by your side!
Currently, if you wish to fly a multirotor without a compass. You will need to enable a compass (fake is ok) to change navigational modes in Configurator. You should disable the compass after making the changes. This has been fixed for a future release.
Note: You must remove the compass (including FAKE
) to enable MR compass-free navigation flight. This will remove the visualisation of the modes from the 7.1.0 Configurator. However, as long as the modes were saved, they available in the flight controller and can be verified in the CLI aux
section.
diff all
commandPlease follow the instructions on this page.
INAV supports advanced automatic landings for fixed wing aircraft from version 7.1. The procedure is based on landings for man-carrying aircraft, so that safe landings at a specific location are possible. Supported are landings at Safehome after "Return to Home" or at a defined LAND waypoint for missions.
See: Fixed Wing Landing.md
IMPORTANT: When updating from an older INAV version with a diff, please change the following settings before using Autoland for better performance.
Plane with no tail: set nav_wp_radius = 1000
Plane with tail: set nav_wp_radius = 800
INAV now relies more heavily on GNSS data for navigation than before. This can provide more security if the Barometer fails, or if the multirotor is suffering from Compass interference. By still allowing it to navigate back to home.
From the release of INAV 7.1. The use of a compass is no longer mandatory for multirotor navigation as it once was. BUT it is still recommended for the best navigation performance, when it comes to maintaining a fixed position for an extended period of time, without heading drift. e.g. in Poshold. Or taking off and immediately starting a Waypoint mission.
If a user does decide to omit the use of a compass for a multirotor, be mindful that any navigation mode (RTH, Failsafe, Poshold, Cruise or a Waypoint mission) will not be operational UNTIL a GPS heading is first obtained, by flying in a straight line until both -
Example Video
For more details see here
Tailsitter builds are now natively supported to allow proper Board Orientation switching during transition. Details
The filtering of the ICM426xx gyros has been updated based on changes made to both Ardupilot and BetaFlight and we expect better performance, when comparing to previous INAV versions.
Users can now customize their own OSD messages, by way of the Programming Framework. Details
The Artificial Horizon will not properly track the real horizon in the correct way, when the craft is inverted. Details
The mode is called Angle Hold. For more details see here
Name | Description |
---|---|
gps_dyn_model |
Default: AIR_2G GPS navigation model: Pedestrian, Automotive, Air<1g, Air<2g, Air<4g. Default is AIR_2G. Use pedestrian/Automotive with caution, can cause flyaways with fast flying. |
Name | Description |
---|---|
ahrs_gps_yaw_weight |
Arhs gps yaw weight when mag is avaliable, 0 means no gps yaw, 100 means equal weight as compass Values: 0 - 500 Default: 100 |
nav_fw_land_approach_length |
Length of the final approach Values: 100 - 100000 Default: 35000 |
nav_fw_land_final_approach_pitch2throttle_mod |
Modifier for pitch to throttle ratio at final approach. In Percent. Values: 100 - 400 Default: 100 |
nav_fw_land_flare_alt |
Initial altitude of the flare phase Values: 0 - 10000 Default: 150 |
nav_fw_land_flare_pitch |
Pitch value for flare phase. In degrees Values: -15 - 45 Default: 8 |
nav_fw_land_glide_alt |
Initial altitude of the glide phase Values: 100 - 5000 Default: 200 |
nav_fw_land_glide_pitch |
Pitch value for glide phase. In degrees. Values: -15 - 45 Default: 0 |
nav_fw_land_max_tailwind |
Max. tailwind (in cm/s) if no landing direction with downwind is available Values: 0 - 3000 Default: 140 |
nav_fw_launch_land_abort_deadband |
Launch and landing abort stick deadband in [r/c points], applied after r/c deadband and expo. The Roll/Pitch stick needs to be deflected beyond this deadband to abort the launch or landing. Values: 2 - 250 Default: 100. Replaces nav_fw_launch_abort_deadband
|
nav_min_ground_speed |
Minimum ground speed for navigation flight modes [m/s]. Default 7 m/s. Values: 6 - 50 Default: 7 |
nav_rth_fs_landing_delay |
If landing is active on Failsafe and this is above 0. The aircraft will hover or loiter for X seconds before performing the landing. If the battery enters the warning or critical levels, the land will proceed. Default = 0 [seconds] Values: 0 - 1800 Default: 0 |
tailsitter_orientation_offset |
Apply a 90 deg pitch offset in sensor aliment for tailsitter flying mode Default: FALSE |
Name | Description |
---|---|
inav_w_xyz_acc_p |
|
nav_fw_launch_abort_deadband |
Replaced by nav_fw_launch_land_abort_deadband
|
The list of most important changes is also available in a video form: https://youtu.be/8Q8t_KwlSAQ
The full list of changes is available here
The full list of INAV Configurator changes is available here
Full Changelog: https://github.com/iNavFlight/inav/compare/7.0.0...7.1.0
Published by DzikuVx 8 months ago
Please carefully read all of this document for the best possible experience and safety.
Contact other pilots, share experiences, suggestions and ask for help on:
INAV 7 is the last INAV official release available for F411 based flight controllers. The next milestone, INAV 8 will not be available for F411 boards.
The GPS NMEA protocol is no longer supported. All pilots are required to switch to UBLOX protocol. All modern GPS modules (even as old as from 2015 and earlier) support UBLOX protocol and there is not a single good reason to stick to NMEA nowadays
Make sure to remove props and check your motor and servo outputs before powering your upgraded flight controller with a battery for the first time. The changes to enable flexible motor and servo allocation may change what outputs your configuration uses by default.
diff all
commandPlease follow the instructions on this page.
INAV supports advanced automatic landings for fixed wing aircraft from version 7.1. The procedure is based on landings for man-carrying aircraft, so that safe landings at a specific location are possible. Supported are landings at Safehome after "Return to Home" or at a defined LAND waypoint for missions.
See: Fixed Wing Landing.md
INAV now relies more heavily on GNSS data for navigation than before. This can provide more security if the Barometer fails, or if the multirotor is suffering from Compass interference. By still allowing it to navigate back to home.
For more details see here
The filtering of the ICM426xx gyros has been updated based on changes made to both Ardupilot and BetaFlight and we expect better performance, when comparing to previous INAV versions.
Users can now customize their own OSD messages, by way of the Programming Framework. Details
The mode is called Angle Hold. For more details see here
Name | Description |
---|---|
gps_dyn_model |
Default: AIR_2G GPS navigation model: Pedestrian, Automotive, Air<1g, Air<2g, Air<4g. Default is AIR_2G. Use pedestrian/Automotive with caution, can cause flyaways with fast flying. |
Name | Description |
---|---|
ahrs_gps_yaw_weight |
Arhs gps yaw weight when mag is avaliable, 0 means no gps yaw, 100 means equal weight as compass Values: 0 - 500 Default: 100 |
nav_fw_land_approach_length |
Length of the final approach Values: 100 - 100000 Default: 35000 |
nav_fw_land_final_approach_pitch2throttle_mod |
Modifier for pitch to throttle ratio at final approach. In Percent. Values: 100 - 400 Default: 100 |
nav_fw_land_flare_alt |
Initial altitude of the flare phase Values: 0 - 10000 Default: 150 |
nav_fw_land_flare_pitch |
Pitch value for flare phase. In degrees Values: -15 - 45 Default: 8 |
nav_fw_land_glide_alt |
Initial altitude of the glide phase Values: 100 - 5000 Default: 200 |
nav_fw_land_glide_pitch |
Pitch value for glide phase. In degrees. Values: -15 - 45 Default: 0 |
nav_fw_land_max_tailwind |
Max. tailwind (in cm/s) if no landing direction with downwind is available Values: 0 - 3000 Default: 140 |
nav_fw_launch_land_abort_deadband |
Launch and landing abort stick deadband in [r/c points], applied after r/c deadband and expo. The Roll/Pitch stick needs to be deflected beyond this deadband to abort the launch or landing. Values: 2 - 250 Default: 100 |
nav_min_ground_speed |
Minimum ground speed for navigation flight modes [m/s]. Default 7 m/s. Values: 6 - 50 Default: 7 |
nav_rth_fs_landing_delay |
If landing is active on Failsafe and this is above 0. The aircraft will hover or loiter for X seconds before performing the landing. If the battery enters the warning or critical levels, the land will proceed. Default = 0 [seconds] Values: 0 - 1800 Default: 0 |
tailsitter_orientation_offset |
Apply a 90 deg pitch offset in sensor aliment for tailsitter flying mode Default: FALSE |
Name | Description |
---|---|
inav_w_xyz_acc_p |
|
nav_fw_launch_abort_deadband |
The list of most important changes is also available in a video form: https://youtu.be/8Q8t_KwlSAQ
The full list of changes is available here
The full list of INAV Configurator changes is available here
Full Changelog: https://github.com/iNavFlight/inav/compare/7.0.0...7.1.0-RC1
Published by DzikuVx 11 months ago
Please carefully read all of this document for the best possible experience and safety.
Contact other pilots, share experiences, suggestions and ask for help on:
INAV 7 is the last INAV official release available for F411 based flight controllers. The next milestone, INAV 8 will not be available for F411 boards.
The GPS NMEA protocol is no longer supported. All pilots are required to switch to UBLOX protocol. All modern GPS modules (even as old as from 2015 and earlier) support UBLOX protocol and there is not a single good reason to stick to NMEA nowadays
The FrSky D-series telemetry support has been removed. This applies to legacy D4R receivers and some 3rd party whoop boards
Make sure to remove props and check your motor and servo outputs before powering your upgraded flight controller with a battery for the first time. The changes to enable flexible motor and servo allocation may change what outputs your configuration uses by default.
Please follow the instructions on this page.
INAV now was a function that allows to flexibly assign functions to PWM outputs directly from INAV Configurator.
Specific function AUTO
, MOTORS
or SERVOS
can be assigned to each Timer Group. Then, all outputs from this group will perform this function.
Thanks to this, it's possible to use servos and motors in ways that previously required building a custom targets.
Bear in mind:
This has been a frequent request since PNP VTOL models started becoming more common.
Read more in Mixer Profile INAV docs and VTOL INAV docs
The Ez Tune is a simplified tuning framework similar to Betalight's Simplified Slider Tuning. Instead of setting each PID controller gain, rate, and filter setting separately, Pilot is presented with 8 sliders for:
Ez Tune settings are not compatible with Betaflight Slider Tuning setting and cannot be migrated directly.
Read the description in Configurator's Ez Tune tab on what each setting does and how it should be used.
More on the topic of Ez Tune can be found here
INAV 7 adds the DMA Burst mode to selected target as ultimately fixes the problem of DSHOT protocol not working on some boards. Pilots do not have to take any actions, DSHOT is just available on previously affected flight controllers. This applies to:
The JETI EXBUS protocol should now not hang the flight controller during operation. The issue was originally fixed in https://github.com/betaflight/betaflight/pull/13130 . Thank you @SteveCEvans and @klutvott123
The Cruise Mode for Multirotors allows pilots to let go the radio sticks while UAV flies on a predefined course with predefined speed. Just like with regular PosHold, Throttle stick sets the altitude and course, while the pitch stick is used to set the horizontal speed. When released INAV will hold set speed, altitude, and course. More information available in here https://youtu.be/4pgDxexuSnU
As mentioned in the Important Notes
section, INAV 7 no longer supports the GPS NMEA protocol. All modern GPS module support one of the UBLOX protocols and as a result pilots must switch to either UBLOX
or UBLOX7
protocol.
A number of improvements have been made to GPS support in INAV 7.
It is now possible to select multiple GPS constellations, and not only Galileo. If your GPS modules does not support a particular combination, it will fallback to no extra constellations.
M10 GPS units will now default to 10Hz, like M8 units and a new cli setting has been added to allow overriding the update rate of your UBLOX7
GPS (gps_ublox_nav_hz
). This should allow you to fall back to 5Hz or bump it up to the limits of what is supported by your GPS module.
INAV now support MSP VTX when using MSP DisplayPort OSD.
Now it is possible to change VTX power levels and channels via INAV's OSD menu or ELRS backpack without connecting the SmartAudio wire on HD-Zero VTXs.
If you MSP DisplayPort OSD is working, no extra configuration is needed.
AT_LEAST_LINEAR_DESCENT
is no longer a method for RTH. It has been replaced with a more flexible linear descent option that will work with any RTH method. If previously using AT_LEAST_LINEAR_DESCENT
, you should now just use AT_LEAST
as the RTH type. Linear Descent is now a separate option that can be used with any other RTH method. To make this possible, the target altitude of the descent is now the nav_rth_home_altitude
. In some cases, if flying below the home position, this will work as a linear ascent.
You can also decide when the linear descent will start. Set the nav_rth_linear_descent_start_distance
parameter to the distance (metres) from the home point, where you want to start descending. Set to 0
, the default setting; the descent will start immediately, as with the pre-7.0 implementation.
These options are available in Configurator.
See the Navigation Mode: Return to Home wiki for more details.
You can now have custom pilot logos on your OSD and arming screen (HD Only). You will need to create a custom font with your logos to show them on screen. The OSD logo is a 3x1 character symbol. This can be used with both analogue and HD. The arming screen logo is a 10x4 character image, and only works with HD systems.
More details are available in the OSD Document.
AUTOLEVEL
mode is renamed to AUTO LEVEL TRIM
. The functionality remains the same.osd_mah_used_precision
parameter has been renamed osd_mah_precision
.output_mode
setting that allows to reassign all PWM outputs to either MOTORS or SERVOSName | Description |
---|---|
gps_provider | Removed: NMEA
|
gps_sbas_mode | New: SPAN
|
nav_rth_alt_mode | Removed: AT_LEAST_LINEAR_DESCENT
|
pitot_hardware | New: DLVR-L10D
|
Name | Description |
---|---|
ez_aggressiveness | EzTune aggressiveness Values: 0 - 200 Default: 100 |
ez_axis_ratio | EzTune axis ratio Values: 25 - 175 Default: 110 |
ez_damping | EzTune damping Values: 0 - 200 Default: 100 |
ez_enabled | Enables EzTune feature Default: FALSE |
ez_expo | EzTune expo Values: 0 - 200 Default: 100 |
ez_filter_hz | EzTune filter cutoff frequency Values: 10 - 300 Default: 110 |
ez_rate | EzTune rate Values: 0 - 200 Default: 100 |
ez_response | EzTune response Values: 0 - 200 Default: 100 |
ez_stability | EzTune stability Values: 0 - 200 Default: 100 |
gps_auto_baud_max_supported | Max baudrate supported by GPS unit. This is used during autobaud. M8 supports up to 460400, M10 supports up to 921600 and 230400 is the value used before INAV 7.0 Default: 230400 |
gps_ublox_nav_hz | Navigation update rate for UBLOX7 receivers. Some receivers may limit the maximum number of satellites tracked when set to a higher rate or even stop sending navigation updates if the value is too high. Some M10 devices can do up to 25Hz. 10 is a safe value for M8 and newer. Values: 5 - 200 Default: 10 |
gps_ublox_use_beidou | Enable use of Beidou satellites. This is at the expense of other regional constellations, so benefit may also be regional. Requires gps hardware support [OFF/ON]. Default: FALSE |
gps_ublox_use_glonass | Enable use of Glonass satellites. This is at the expense of other regional constellations, so benefit may also be regional. Requires gps haardware support [OFF/ON]. Default: FALSE |
led_pin_pwm_mode | PWM mode of LED pin. Values: SHARED_LOW , SHARED_HIGH , LOW , HIGH . Default: SHARED_LOW
|
mixer_automated_switch | If set to on, This mixer_profile will try to switch to another mixer_profile when 1.RTH heading home is requested and distance to home is lager than 3*nav_fw_loiter_radius on mixer_profile is a MULTIROTOR or TRICOPTER platform_type. 2. RTH landing is requested on this mixer_profile is a AIRPLANE platform_type Default: FALSE |
mixer_pid_profile_linking | If enabled, pid profile_index will follow mixer_profile index. Set to OFF(default) if you want to handle PID profile by your self. Recommend to set to ON on all mixer_profiles to let the mixer_profile handle the PID profile switching on a VTOL or mixed platform type setup. Default: FALSE |
mixer_switch_trans_timer | If switch another mixer_profile is scheduled by mixer_automated_switch or mixer_automated_switch. Activate Mixertransion motor/servo mixing for this many decisecond(0.1s) before the actual mixer_profile switch. Values: 0 - 200 Default: 0 |
motorstop_on_low | If enabled, motor will stop when throttle is low on this mixer_profile Default: FALSE |
nav_cruise_yaw_rate | Max YAW rate when NAV COURSE HOLD/CRUISE mode is enabled. Set to 0 to disable on fixed wing (Note: On multirotor setting to 0 will disable Course Hold/Cruise mode completely) [dps] Values: 0 - 120 Default: 20 |
nav_landing_bump_detection | Allows immediate landing detection based on G bump at touchdown when set to ON. Requires a barometer and currently only works for multirotors. Default: FALSE |
nav_mc_althold_throttle | If set to STICK the FC remembers the throttle stick position when enabling ALTHOLD and treats it as the neutral midpoint for holding altitude. If set to MID_STICK or HOVER the neutral midpoint is set to the mid stick position or the hover throttle position respectively. Default: STICK |
nav_rth_linear_descent_start_distance | The distance [m] away from home to start the linear descent. 0 = immediately (original linear descent behaviour) Values: 0 - 10000 Default: 0 |
nav_rth_use_linear_descent | If enabled, the aircraft will gradually descent to the nav_rth_home_altitude en route. The distance from home to start the descent can be set with nav_rth_linear_descent_start_distance . Default: FALSE |
osd_arm_screen_display_time | Amount of time to display the arm screen [ms] Values: 1000 - 5000 Default: 1500 |
osd_inav_to_pilot_logo_spacing | The space between the INAV and pilot logos, if osd_use_pilot_logo is ON . This number may be adjusted so that it fits the odd/even col width displays. For example, if using an odd column width display, such as Walksnail, and this is set to 4. 1 will be added so that the logos are equally spaced from the centre of the screen. Values: 0 - 20 Default: 8 |
osd_joystick_down | PWM value for DOWN key Values: 0 - 100 Default: 0 |
osd_joystick_enabled | Enable OSD Joystick emulation Default: FALSE |
osd_joystick_enter | PWM value for ENTER key Values: 0 - 100 Default: 75 |
osd_joystick_left | PWM value for LEFT key Values: 0 - 100 Default: 63 |
osd_joystick_right | PWM value for RIGHT key Values: 0 - 100 Default: 28 |
osd_joystick_up | PWM value for UP key Values: 0 - 100 Default: 48 |
osd_mah_precision | Number of digits used for mAh precision. Currently used by mAh Used and Battery Remaining Capacity Values: 4 - 6 Default: 4 |
osd_use_pilot_logo | Use custom pilot logo with/instead of the INAV logo. The pilot logo must be characters 473 to 511 Default: FALSE |
pid_iterm_limit_percent | Limits max/min I-term value in stabilization PID controller. It solves the problem of servo saturation before take-off/throwing the airplane into the air. Or multirotors with low authority. By default, error accumulated in I-term can not exceed 33% of total pid throw (around 165us on deafult pidsum_limit of pitch/roll). Set 0 to disable completely. Values: 0 - 200 Default: 33 |
tpa_on_yaw | Throttle PID attenuation also reduces influence on YAW for multi-rotor, Should be set to ON for tilting rotors. Default: FALSE |
Name | Description |
---|---|
dterm_lpf2_hz | |
dterm_lpf2_type | |
frsky_coordinates_format | |
frsky_default_latitude | |
frsky_default_longitude | |
frsky_unit | |
frsky_vfas_precision | |
fw_iterm_throw_limit | |
moron_threshold | |
nav_fw_cruise_yaw_rate | |
nav_use_midthr_for_althold | |
osd_mah_used_precision | |
output_mode |
The list of most important changes is also available in a video form: https://youtu.be/8Q8t_KwlSAQ
The full list of changes is available here
The full list of INAV Configurator changes is available here
Full Changelog: https://github.com/iNavFlight/inav/compare/6.1.1...7.0.0
Published by DzikuVx 11 months ago
Please carefully read all of this document for the best possible experience and safety.
Contact other pilots, share experiences, suggestions and ask for help on:
INAV 7 is the last INAV official release available for F411 based flight controllers. The next milestone, INAV 8 will not be available for F411 boards.
The GPS NMEA protocol is no longer supported. All pilots are required to switch to UBLOX protocol. All modern GPS modules (even as old as from 2015 and earlier) support UBLOX protocol and there is not a single good reason to stick to NMEA nowadays
The FrSky D-series telemetry support has been removed. This applies to legacy D4R receivers and some 3rd party whoop boards
Make sure to remove props and check your motor and servo outputs before powering your upgraded flight controller with a battery for the first time. The changes to enable flexible motor and servo allocation may change what outputs your configuration uses by default.
Please follow the instructions on this page.
INAV now was a function that allows to flexibly assign functions to PWM outputs directly from INAV Configurator.
Specific function AUTO
, MOTORS
or SERVOS
can be assigned to each Timer Group. Then, all outputs from this group will perform this function.
Thanks to this, it's possible to use servos and motors in ways that previously required building a custom targets.
Bear in mind:
This has been a frequent request since PNP VTOL models started becoming more common.
Read more in Mixer Profile INAV docs and VTOL INAV docs
The Ez Tune is a simplified tuning framework similar to Betalight's Simplified Slider Tuning. Instead of setting each PID controller gain, rate, and filter setting separately, Pilot is presented with 8 sliders for:
Ez Tune settings are not compatible with Betaflight Slider Tuning setting and cannot be migrated directly.
Read the description in Configurator's Ez Tune tab on what each setting does and how it should be used.
More on the topic of Ez Tune can be found here
INAV 7 adds the DMA Burst mode to selected target as ultimately fixes the problem of DSHOT protocol not working on some boards. Pilots do not have to take any actions, DSHOT is just available on previously affected flight controllers. This applies to:
The JETI EXBUS protocol should now not hang the flight controller during operation. The issue was originally fixed in https://github.com/betaflight/betaflight/pull/13130 . Thank you @SteveCEvans and @klutvott123
The Cruise Mode for Multirotors allows pilots to let go the radio sticks while UAV flies on a predefined course with predefined speed. Just like with regular PosHold, Throttle stick sets the altitude and course, while the pitch stick is used to set the horizontal speed. When released INAV will hold set speed, altitude, and course. More information available in here https://youtu.be/4pgDxexuSnU
As mentioned in the Important Notes
section, INAV 7 no longer supports the GPS NMEA protocol. All modern GPS module support one of the UBLOX protocols and as a result pilots must switch to either UBLOX
or UBLOX7
protocol.
A number of improvements have been made to GPS support in INAV 7.
It is now possible to select multiple GPS constellations, and not only Galileo. If your GPS modules does not support a particular combination, it will fallback to no extra constellations.
M10 GPS units will now default to 10Hz, like M8 units and a new cli setting has been added to allow overriding the update rate of your UBLOX7
GPS (gps_ublox_nav_hz
). This should allow you to fall back to 5Hz or bump it up to the limits of what is supported by your GPS module.
INAV now support MSP VTX when using MSP DisplayPort OSD.
Now it is possible to change VTX power levels and channels via INAV's OSD menu or ELRS backpack without connecting the SmartAudio wire on HD-Zero VTXs.
If you MSP DisplayPort OSD is working, no extra configuration is needed.
AT_LEAST_LINEAR_DESCENT
is no longer a method for RTH. It has been replaced with a more flexible linear descent option that will work with any RTH method. If previously using AT_LEAST_LINEAR_DESCENT
, you should now just use AT_LEAST
as the RTH type. Linear Descent is now a separate option that can be used with any other RTH method. To make this possible, the target altitude of the descent is now the nav_rth_home_altitude
. In some cases, if flying below the home position, this will work as a linear ascent.
You can also decide when the linear descent will start. Set the nav_rth_linear_descent_start_distance
parameter to the distance (metres) from the home point, where you want to start descending. Set to 0
, the default setting; the descent will start immediately, as with the pre-7.0 implementation.
These options are available in Configurator.
See the Navigation Mode: Return to Home wiki for more details.
You can now have custom pilot logos on your OSD and arming screen (HD Only). You will need to create a custom font with your logos to show them on screen. The OSD logo is a 3x1 character symbol. This can be used with both analogue and HD. The arming screen logo is a 10x4 character image, and only works with HD systems.
More details are available in the OSD Document.
AUTOLEVEL
mode is renamed to AUTO LEVEL TRIM
. The functionality remains the same.osd_mah_used_precision
parameter has been renamed osd_mah_precision
.output_mode
setting that allows to reassign all PWM outputs to either MOTORS or SERVOSName | Description |
---|---|
gps_provider | Removed: NMEA
|
gps_sbas_mode | New: SPAN
|
nav_rth_alt_mode | Removed: AT_LEAST_LINEAR_DESCENT
|
pitot_hardware | New: DLVR-L10D
|
Name | Description |
---|---|
ez_aggressiveness | EzTune aggressiveness Values: 0 - 200 Default: 100 |
ez_axis_ratio | EzTune axis ratio Values: 25 - 175 Default: 110 |
ez_damping | EzTune damping Values: 0 - 200 Default: 100 |
ez_enabled | Enables EzTune feature Default: FALSE |
ez_expo | EzTune expo Values: 0 - 200 Default: 100 |
ez_filter_hz | EzTune filter cutoff frequency Values: 10 - 300 Default: 110 |
ez_rate | EzTune rate Values: 0 - 200 Default: 100 |
ez_response | EzTune response Values: 0 - 200 Default: 100 |
ez_stability | EzTune stability Values: 0 - 200 Default: 100 |
gps_auto_baud_max_supported | Max baudrate supported by GPS unit. This is used during autobaud. M8 supports up to 460400, M10 supports up to 921600 and 230400 is the value used before INAV 7.0 Default: 230400 |
gps_ublox_nav_hz | Navigation update rate for UBLOX7 receivers. Some receivers may limit the maximum number of satellites tracked when set to a higher rate or even stop sending navigation updates if the value is too high. Some M10 devices can do up to 25Hz. 10 is a safe value for M8 and newer. Values: 5 - 200 Default: 10 |
gps_ublox_use_beidou | Enable use of Beidou satellites. This is at the expense of other regional constellations, so benefit may also be regional. Requires gps hardware support [OFF/ON]. Default: FALSE |
gps_ublox_use_glonass | Enable use of Glonass satellites. This is at the expense of other regional constellations, so benefit may also be regional. Requires gps haardware support [OFF/ON]. Default: FALSE |
led_pin_pwm_mode | PWM mode of LED pin. Values: SHARED_LOW , SHARED_HIGH , LOW , HIGH . Default: SHARED_LOW
|
mixer_automated_switch | If set to on, This mixer_profile will try to switch to another mixer_profile when 1.RTH heading home is requested and distance to home is lager than 3*nav_fw_loiter_radius on mixer_profile is a MULTIROTOR or TRICOPTER platform_type. 2. RTH landing is requested on this mixer_profile is a AIRPLANE platform_type Default: FALSE |
mixer_pid_profile_linking | If enabled, pid profile_index will follow mixer_profile index. Set to OFF(default) if you want to handle PID profile by your self. Recommend to set to ON on all mixer_profiles to let the mixer_profile handle the PID profile switching on a VTOL or mixed platform type setup. Default: FALSE |
mixer_switch_trans_timer | If switch another mixer_profile is scheduled by mixer_automated_switch or mixer_automated_switch. Activate Mixertransion motor/servo mixing for this many decisecond(0.1s) before the actual mixer_profile switch. Values: 0 - 200 Default: 0 |
motorstop_on_low | If enabled, motor will stop when throttle is low on this mixer_profile Default: FALSE |
nav_cruise_yaw_rate | Max YAW rate when NAV COURSE HOLD/CRUISE mode is enabled. Set to 0 to disable on fixed wing (Note: On multirotor setting to 0 will disable Course Hold/Cruise mode completely) [dps] Values: 0 - 120 Default: 20 |
nav_landing_bump_detection | Allows immediate landing detection based on G bump at touchdown when set to ON. Requires a barometer and currently only works for multirotors. Default: FALSE |
nav_mc_althold_throttle | If set to STICK the FC remembers the throttle stick position when enabling ALTHOLD and treats it as the neutral midpoint for holding altitude. If set to MID_STICK or HOVER the neutral midpoint is set to the mid stick position or the hover throttle position respectively. Default: STICK |
nav_rth_linear_descent_start_distance | The distance [m] away from home to start the linear descent. 0 = immediately (original linear descent behaviour) Values: 0 - 10000 Default: 0 |
nav_rth_use_linear_descent | If enabled, the aircraft will gradually descent to the nav_rth_home_altitude en route. The distance from home to start the descent can be set with nav_rth_linear_descent_start_distance . Default: FALSE |
osd_arm_screen_display_time | Amount of time to display the arm screen [ms] Values: 1000 - 5000 Default: 1500 |
osd_inav_to_pilot_logo_spacing | The space between the INAV and pilot logos, if osd_use_pilot_logo is ON . This number may be adjusted so that it fits the odd/even col width displays. For example, if using an odd column width display, such as Walksnail, and this is set to 4. 1 will be added so that the logos are equally spaced from the centre of the screen. Values: 0 - 20 Default: 8 |
osd_joystick_down | PWM value for DOWN key Values: 0 - 100 Default: 0 |
osd_joystick_enabled | Enable OSD Joystick emulation Default: FALSE |
osd_joystick_enter | PWM value for ENTER key Values: 0 - 100 Default: 75 |
osd_joystick_left | PWM value for LEFT key Values: 0 - 100 Default: 63 |
osd_joystick_right | PWM value for RIGHT key Values: 0 - 100 Default: 28 |
osd_joystick_up | PWM value for UP key Values: 0 - 100 Default: 48 |
osd_mah_precision | Number of digits used for mAh precision. Currently used by mAh Used and Battery Remaining Capacity Values: 4 - 6 Default: 4 |
osd_use_pilot_logo | Use custom pilot logo with/instead of the INAV logo. The pilot logo must be characters 473 to 511 Default: FALSE |
pid_iterm_limit_percent | Limits max/min I-term value in stabilization PID controller. It solves the problem of servo saturation before take-off/throwing the airplane into the air. Or multirotors with low authority. By default, error accumulated in I-term can not exceed 33% of total pid throw (around 165us on deafult pidsum_limit of pitch/roll). Set 0 to disable completely. Values: 0 - 200 Default: 33 |
tpa_on_yaw | Throttle PID attenuation also reduces influence on YAW for multi-rotor, Should be set to ON for tilting rotors. Default: FALSE |
Name | Description |
---|---|
dterm_lpf2_hz | |
dterm_lpf2_type | |
frsky_coordinates_format | |
frsky_default_latitude | |
frsky_default_longitude | |
frsky_unit | |
frsky_vfas_precision | |
fw_iterm_throw_limit | |
moron_threshold | |
nav_fw_cruise_yaw_rate | |
nav_use_midthr_for_althold | |
osd_mah_used_precision | |
output_mode |
The full list of changes is available here
The full list of INAV Configurator changes is available here
Full Changelog: https://github.com/iNavFlight/inav/compare/6.1.1...7.0.0-RC3
Changelog: https://github.com/iNavFlight/inav/compare/7.0.0-RC2...7.0.0-RC3
Published by DzikuVx 12 months ago
Please carefully read all of this document for the best possible experience and safety.
Contact other pilots, share experiences, suggestions and ask for help on:
INAV 7 is the last INAV official release available for F411 based flight controllers. The next milestone, INAV 8 will not be available for F411 boards.
The GPS NMEA protocol is no longer supported. All pilots are required to switch to UBLOX protocol. All modern GPS modules (even as old as from 2015 and earlier) support UBLOX protocol and there is not a single good reason to stick to NMEA nowadays
The FrSky D-series telemetry support has been removed. This applies to legacy D4R receivers and some 3rd party whoop boards
Make sure to remove props and check your motor and servo outputs before powering your upgraded flight controller with a battery for the first time. The changes to enable flexible motor and servo allocation may change what outputs your configuration uses by default.
Please follow the instructions on this page.
INAV now was a function that allows to flexibly assign functions to PWM outputs directly from INAV Configurator.
Specific function AUTO
, MOTORS
or SERVOS
can be assigned to each Timer Group. Then, all outputs from this group will perform this function.
Thanks to this, it's possible to use servos and motors in ways that previously required building a custom targets.
Bear in mind:
This has been a frequent request since PNP VTOL models started becoming more common.
Read more in Mixer Profile INAV docs and VTOL INAV docs
The Ez Tune is a simplified tuning framework similar to Betalight's Simplified Slider Tuning. Instead of setting each PID controller gain, rate, and filter setting separately, Pilot is presented with 8 sliders for:
Ez Tune settings are not compatible with Betaflight Slider Tuning setting and cannot be migrated directly.
Read the description in Configurator's Ez Tune tab on what each setting does and how it should be used.
More on the topic of Ez Tune can be found here
INAV 7 adds the DMA Burst mode to selected target as ultimately fixes the problem of DSHOT protocol not working on some boards. Pilots do not have to take any actions, DSHOT is just available on previously affected flight controllers. This applies to:
The JETI EXBUS protocol should now not hang the flight controller during operation. The issue was originally fixed in https://github.com/betaflight/betaflight/pull/13130 . Thank you @SteveCEvans and @klutvott123
The Cruise Mode for Multirotors allows pilots to let go the radio sticks while UAV flies on a predefined course with predefined speed. Just like with regular PosHold, Throttle stick sets the altitude and course, while the pitch stick is used to set the horizontal speed. When released INAV will hold set speed, altitude, and course. More information available in here https://youtu.be/4pgDxexuSnU
As mentioned in the Important Notes
section, INAV 7 no longer supports the GPS NMEA protocol. All modern GPS module support one of the UBLOX protocols and as a result pilots must switch to either UBLOX
or UBLOX7
protocol.
A number of improvements have been made to GPS support in INAV 7.
It is now possible to select multiple GPS constellations, and not only Galileo. If your GPS modules does not support a particular combination, it will fallback to no extra constellations.
M10 GPS units will now default to 10Hz, like M8 units and a new cli setting has been added to allow overriding the update rate of your UBLOX7
GPS (gps_ublox_nav_hz
). This should allow you to fall back to 5Hz or bump it up to the limits of what is supported by your GPS module.
INAV now support MSP VTX when using MSP DisplayPort OSD.
Now it is possible to change VTX power levels and channels via INAV's OSD menu or ELRS backpack without connecting the SmartAudio wire on HD-Zero VTXs.
If you MSP DisplayPort OSD is working, no extra configuration is needed.
AT_LEAST_LINEAR_DESCENT
is no longer a method for RTH. It has been replaced with a more flexible linear descent option that will work with any RTH method. If previously using AT_LEAST_LINEAR_DESCENT
, you should now just use AT_LEAST
as the RTH type. Linear Descent is now a separate option that can be used with any other RTH method. To make this possible, the target altitude of the descent is now the nav_rth_home_altitude
. In some cases, if flying below the home position, this will work as a linear ascent.
You can also decide when the linear descent will start. Set the nav_rth_linear_descent_start_distance
parameter to the distance (metres) from the home point, where you want to start descending. Set to 0
, the default setting; the descent will start immediately, as with the pre-7.0 implementation.
These options are available in Configurator.
See the Navigation Mode: Return to Home wiki for more details.
You can now have custom pilot logos on your OSD and arming screen (HD Only). You will need to create a custom font with your logos to show them on screen. The OSD logo is a 3x1 character symbol. This can be used with both analogue and HD. The arming screen logo is a 10x4 character image, and only works with HD systems.
More details are available in the OSD Document.
AUTOLEVEL
mode is renamed to AUTO LEVEL TRIM
. The functionality remains the same.osd_mah_used_precision
parameter has been renamed osd_mah_precision
.output_mode
setting that allows to reassign all PWM outputs to either MOTORS or SERVOSName | Description |
---|---|
gps_provider | Removed: NMEA
|
gps_sbas_mode | New: SPAN
|
nav_rth_alt_mode | Removed: AT_LEAST_LINEAR_DESCENT
|
pitot_hardware | New: DLVR-L10D
|
Name | Description |
---|---|
ez_aggressiveness | EzTune aggressiveness Values: 0 - 200 Default: 100 |
ez_axis_ratio | EzTune axis ratio Values: 25 - 175 Default: 110 |
ez_damping | EzTune damping Values: 0 - 200 Default: 100 |
ez_enabled | Enables EzTune feature Default: FALSE |
ez_expo | EzTune expo Values: 0 - 200 Default: 100 |
ez_filter_hz | EzTune filter cutoff frequency Values: 10 - 300 Default: 110 |
ez_rate | EzTune rate Values: 0 - 200 Default: 100 |
ez_response | EzTune response Values: 0 - 200 Default: 100 |
ez_stability | EzTune stability Values: 0 - 200 Default: 100 |
gps_auto_baud_max_supported | Max baudrate supported by GPS unit. This is used during autobaud. M8 supports up to 460400, M10 supports up to 921600 and 230400 is the value used before INAV 7.0 Default: 230400 |
gps_ublox_nav_hz | Navigation update rate for UBLOX7 receivers. Some receivers may limit the maximum number of satellites tracked when set to a higher rate or even stop sending navigation updates if the value is too high. Some M10 devices can do up to 25Hz. 10 is a safe value for M8 and newer. Values: 5 - 200 Default: 10 |
gps_ublox_use_beidou | Enable use of Beidou satellites. This is at the expense of other regional constellations, so benefit may also be regional. Requires gps hardware support [OFF/ON]. Default: FALSE |
gps_ublox_use_glonass | Enable use of Glonass satellites. This is at the expense of other regional constellations, so benefit may also be regional. Requires gps haardware support [OFF/ON]. Default: FALSE |
led_pin_pwm_mode | PWM mode of LED pin. Values: SHARED_LOW , SHARED_HIGH , LOW , HIGH . Default: SHARED_LOW
|
mixer_automated_switch | If set to on, This mixer_profile will try to switch to another mixer_profile when 1.RTH heading home is requested and distance to home is lager than 3*nav_fw_loiter_radius on mixer_profile is a MULTIROTOR or TRICOPTER platform_type. 2. RTH landing is requested on this mixer_profile is a AIRPLANE platform_type Default: FALSE |
mixer_pid_profile_linking | If enabled, pid profile_index will follow mixer_profile index. Set to OFF(default) if you want to handle PID profile by your self. Recommend to set to ON on all mixer_profiles to let the mixer_profile handle the PID profile switching on a VTOL or mixed platform type setup. Default: FALSE |
mixer_switch_trans_timer | If switch another mixer_profile is scheduled by mixer_automated_switch or mixer_automated_switch. Activate Mixertransion motor/servo mixing for this many decisecond(0.1s) before the actual mixer_profile switch. Values: 0 - 200 Default: 0 |
motorstop_on_low | If enabled, motor will stop when throttle is low on this mixer_profile Default: FALSE |
nav_cruise_yaw_rate | Max YAW rate when NAV COURSE HOLD/CRUISE mode is enabled. Set to 0 to disable on fixed wing (Note: On multirotor setting to 0 will disable Course Hold/Cruise mode completely) [dps] Values: 0 - 120 Default: 20 |
nav_landing_bump_detection | Allows immediate landing detection based on G bump at touchdown when set to ON. Requires a barometer and currently only works for multirotors. Default: FALSE |
nav_mc_althold_throttle | If set to STICK the FC remembers the throttle stick position when enabling ALTHOLD and treats it as the neutral midpoint for holding altitude. If set to MID_STICK or HOVER the neutral midpoint is set to the mid stick position or the hover throttle position respectively. Default: STICK |
nav_rth_linear_descent_start_distance | The distance [m] away from home to start the linear descent. 0 = immediately (original linear descent behaviour) Values: 0 - 10000 Default: 0 |
nav_rth_use_linear_descent | If enabled, the aircraft will gradually descent to the nav_rth_home_altitude en route. The distance from home to start the descent can be set with nav_rth_linear_descent_start_distance . Default: FALSE |
osd_arm_screen_display_time | Amount of time to display the arm screen [ms] Values: 1000 - 5000 Default: 1500 |
osd_inav_to_pilot_logo_spacing | The space between the INAV and pilot logos, if osd_use_pilot_logo is ON . This number may be adjusted so that it fits the odd/even col width displays. For example, if using an odd column width display, such as Walksnail, and this is set to 4. 1 will be added so that the logos are equally spaced from the centre of the screen. Values: 0 - 20 Default: 8 |
osd_joystick_down | PWM value for DOWN key Values: 0 - 100 Default: 0 |
osd_joystick_enabled | Enable OSD Joystick emulation Default: FALSE |
osd_joystick_enter | PWM value for ENTER key Values: 0 - 100 Default: 75 |
osd_joystick_left | PWM value for LEFT key Values: 0 - 100 Default: 63 |
osd_joystick_right | PWM value for RIGHT key Values: 0 - 100 Default: 28 |
osd_joystick_up | PWM value for UP key Values: 0 - 100 Default: 48 |
osd_mah_precision | Number of digits used for mAh precision. Currently used by mAh Used and Battery Remaining Capacity Values: 4 - 6 Default: 4 |
osd_use_pilot_logo | Use custom pilot logo with/instead of the INAV logo. The pilot logo must be characters 473 to 511 Default: FALSE |
pid_iterm_limit_percent | Limits max/min I-term value in stabilization PID controller. It solves the problem of servo saturation before take-off/throwing the airplane into the air. Or multirotors with low authority. By default, error accumulated in I-term can not exceed 33% of total pid throw (around 165us on deafult pidsum_limit of pitch/roll). Set 0 to disable completely. Values: 0 - 200 Default: 33 |
tpa_on_yaw | Throttle PID attenuation also reduces influence on YAW for multi-rotor, Should be set to ON for tilting rotors. Default: FALSE |
Name | Description |
---|---|
dterm_lpf2_hz | |
dterm_lpf2_type | |
frsky_coordinates_format | |
frsky_default_latitude | |
frsky_default_longitude | |
frsky_unit | |
frsky_vfas_precision | |
fw_iterm_throw_limit | |
moron_threshold | |
nav_fw_cruise_yaw_rate | |
nav_use_midthr_for_althold | |
osd_mah_used_precision | |
output_mode |
The full list of changes is available here
The full list of INAV Configurator changes is available here
Full Changelog: https://github.com/iNavFlight/inav/compare/6.1.1...7.0.0-RC2
Changelog: https://github.com/iNavFlight/inav/compare/7.0.0-RC1...7.0.0-RC2
Published by DzikuVx 12 months ago
Please carefully read all of this document for the best possible experience and safety.
Contact other pilots, share experiences, suggestions and ask for help on:
The GPS NMEA protocol is no longer supported. All pilots are required to switch to UBLOX protocol. All modern GPS modules (even as old as from 2015 and earlier) support UBLOX protocol and there is not a single good reason to stick to NMEA nowadays
The FrSky D-series telemetry support has been removed. This applies to legacy D4R receivers and some 3rd party whoop boards
Make sure to remove props and check your motor and servo outputs before powering your upgraded flight controller with a battery for the first time. The changes to enable flexible motor and servo allocation may change what outputs your configuration uses by default.
Please follow the instructions on this page.
INAV now was a function that allows to flexibly assign functions to PWM outputs directly from INAV Configurator.
Specific function AUTO
, MOTORS
or SERVOS
can be assigned to each Timer Group. Then, all outputs from this group will perform this function.
Thanks to this, it's possible to use servos and motors in ways that previously required building a custom targets.
Bear in mind:
This has been a frequent request since PNP VTOL models started becoming more common.
Read more in Mixer Profile INAV docs and VTOL INAV docs
The Ez Tune is a simplified tuning framework similar to Betalight's Simplified Slider Tuning. Instead of setting each PID controller gain, rate, and filter setting separately, Pilot is presented with 8 sliders for:
Ez Tune settings are not compatible with Betaflight Slider Tuning setting and cannot be migrated directly.
Read the description in Configurator's Ez Tune tab on what each setting does and how it should be used.
More on the topic of Ez Tune can be found here
INAV 7 adds the DMA Burst mode to selected target as ultimately fixes the problem of DSHOT protocol not working on some boards. Pilots do not have to take any actions, DSHOT is just available on previously affected flight controllers. This applies to:
The JETI EXBUS protocol should now not hang the flight controller during operation. The issue was originally fixed in https://github.com/betaflight/betaflight/pull/13130 . Thank you @SteveCEvans and @klutvott123
The Cruise Mode for Multirotors allows pilots to let go the radio sticks while UAV flies on a predefined course with predefined speed. Just like with regular PosHold, Throttle stick sets the altitude and course, while the pitch stick is used to set the horizontal speed. When released INAV will hold set speed, altitude, and course. More information available in here https://youtu.be/4pgDxexuSnU
As mentioned in the Important Notes
section, INAV 7 no longer supports the GPS NMEA protocol. All modern GPS module support one of the UBLOX protocols and as a result pilots must switch to either UBLOX
or UBLOX7
protocol.
A number of improvements have been made to GPS support in INAV 7.
It is now possible to select multiple GPS constellations, and not only Galileo. If your GPS modules does not support a particular combination, it will fallback to no extra constellations.
M10 GPS units will now default to 10Hz, like M8 units and a new cli setting has been added to allow overriding the update rate of your UBLOX7
GPS (gps_ublox_nav_hz
). This should allow you to fall back to 5Hz or bump it up to the limits of what is supported by your GPS module.
INAV now support MSP VTX when using MSP DisplayPort OSD.
Now it is possible to change VTX power levels and channels via INAV's OSD menu or ELRS backpack without connecting the SmartAudio wire on HD-Zero VTXs.
If you MSP DisplayPort OSD is working, no extra configuration is needed.
AT_LEAST_LINEAR_DESCENT
is no longer a method for RTH. It has been replaced with a more flexible linear descent option that will work with any RTH method. If previously using AT_LEAST_LINEAR_DESCENT
, you should now just use AT_LEAST
as the RTH type. Linear Descent is now a separate option that can be used with any other RTH method. To make this possible, the target altitude of the descent is now the nav_rth_home_altitude
. In some cases, if flying below the home position, this will work as a linear ascent.
You can also decide when the linear descent will start. Set the nav_rth_linear_descent_start_distance
parameter to the distance (metres) from the home point, where you want to start descending. Set to 0
, the default setting; the descent will start immediately, as with the pre-7.0 implementation.
These options are available in Configurator.
See the Navigation Mode: Return to Home wiki for more details.
You can now have custom pilot logos on your OSD and arming screen (HD Only). You will need to create a custom font with your logos to show them on screen. The OSD logo is a 3x1 character symbol. This can be used with both analogue and HD. The arming screen logo is a 10x4 character image, and only works with HD systems.
More details are available in the OSD Document.
AUTOLEVEL
mode is renamed to AUTO LEVEL TRIM
. The functionality remains the same.osd_mah_used_precision
parameter has been renamed osd_mah_precision
.output_mode
setting that allows to reassign all PWM outputs to either MOTORS or SERVOSName | Description |
---|---|
gps_provider | Removed: NMEA
|
gps_sbas_mode | New: SPAN
|
nav_rth_alt_mode | Removed: AT_LEAST_LINEAR_DESCENT
|
pitot_hardware | New: DLVR-L10D
|
Name | Description |
---|---|
ez_aggressiveness | EzTune aggressiveness Values: 0 - 200 Default: 100 |
ez_axis_ratio | EzTune axis ratio Values: 25 - 175 Default: 110 |
ez_damping | EzTune damping Values: 0 - 200 Default: 100 |
ez_enabled | Enables EzTune feature Default: FALSE |
ez_expo | EzTune expo Values: 0 - 200 Default: 100 |
ez_filter_hz | EzTune filter cutoff frequency Values: 10 - 300 Default: 110 |
ez_rate | EzTune rate Values: 0 - 200 Default: 100 |
ez_response | EzTune response Values: 0 - 200 Default: 100 |
ez_stability | EzTune stability Values: 0 - 200 Default: 100 |
gps_auto_baud_max_supported | Max baudrate supported by GPS unit. This is used during autobaud. M8 supports up to 460400, M10 supports up to 921600 and 230400 is the value used before INAV 7.0 Default: 230400 |
gps_ublox_nav_hz | Navigation update rate for UBLOX7 receivers. Some receivers may limit the maximum number of satellites tracked when set to a higher rate or even stop sending navigation updates if the value is too high. Some M10 devices can do up to 25Hz. 10 is a safe value for M8 and newer. Values: 5 - 200 Default: 10 |
gps_ublox_use_beidou | Enable use of Beidou satellites. This is at the expense of other regional constellations, so benefit may also be regional. Requires gps hardware support [OFF/ON]. Default: FALSE |
gps_ublox_use_glonass | Enable use of Glonass satellites. This is at the expense of other regional constellations, so benefit may also be regional. Requires gps haardware support [OFF/ON]. Default: FALSE |
led_pin_pwm_mode | PWM mode of LED pin. Values: SHARED_LOW , SHARED_HIGH , LOW , HIGH . Default: SHARED_LOW
|
mixer_automated_switch | If set to on, This mixer_profile will try to switch to another mixer_profile when 1.RTH heading home is requested and distance to home is lager than 3*nav_fw_loiter_radius on mixer_profile is a MULTIROTOR or TRICOPTER platform_type. 2. RTH landing is requested on this mixer_profile is a AIRPLANE platform_type Default: FALSE |
mixer_pid_profile_linking | If enabled, pid profile_index will follow mixer_profile index. Set to OFF(default) if you want to handle PID profile by your self. Recommend to set to ON on all mixer_profiles to let the mixer_profile handle the PID profile switching on a VTOL or mixed platform type setup. Default: FALSE |
mixer_switch_trans_timer | If switch another mixer_profile is scheduled by mixer_automated_switch or mixer_automated_switch. Activate Mixertransion motor/servo mixing for this many decisecond(0.1s) before the actual mixer_profile switch. Values: 0 - 200 Default: 0 |
motorstop_on_low | If enabled, motor will stop when throttle is low on this mixer_profile Default: FALSE |
nav_cruise_yaw_rate | Max YAW rate when NAV COURSE HOLD/CRUISE mode is enabled. Set to 0 to disable on fixed wing (Note: On multirotor setting to 0 will disable Course Hold/Cruise mode completely) [dps] Values: 0 - 120 Default: 20 |
nav_landing_bump_detection | Allows immediate landing detection based on G bump at touchdown when set to ON. Requires a barometer and currently only works for multirotors. Default: FALSE |
nav_mc_althold_throttle | If set to STICK the FC remembers the throttle stick position when enabling ALTHOLD and treats it as the neutral midpoint for holding altitude. If set to MID_STICK or HOVER the neutral midpoint is set to the mid stick position or the hover throttle position respectively. Default: STICK |
nav_rth_linear_descent_start_distance | The distance [m] away from home to start the linear descent. 0 = immediately (original linear descent behaviour) Values: 0 - 10000 Default: 0 |
nav_rth_use_linear_descent | If enabled, the aircraft will gradually descent to the nav_rth_home_altitude en route. The distance from home to start the descent can be set with nav_rth_linear_descent_start_distance . Default: FALSE |
osd_arm_screen_display_time | Amount of time to display the arm screen [ms] Values: 1000 - 5000 Default: 1500 |
osd_inav_to_pilot_logo_spacing | The space between the INAV and pilot logos, if osd_use_pilot_logo is ON . This number may be adjusted so that it fits the odd/even col width displays. For example, if using an odd column width display, such as Walksnail, and this is set to 4. 1 will be added so that the logos are equally spaced from the centre of the screen. Values: 0 - 20 Default: 8 |
osd_joystick_down | PWM value for DOWN key Values: 0 - 100 Default: 0 |
osd_joystick_enabled | Enable OSD Joystick emulation Default: FALSE |
osd_joystick_enter | PWM value for ENTER key Values: 0 - 100 Default: 75 |
osd_joystick_left | PWM value for LEFT key Values: 0 - 100 Default: 63 |
osd_joystick_right | PWM value for RIGHT key Values: 0 - 100 Default: 28 |
osd_joystick_up | PWM value for UP key Values: 0 - 100 Default: 48 |
osd_mah_precision | Number of digits used for mAh precision. Currently used by mAh Used and Battery Remaining Capacity Values: 4 - 6 Default: 4 |
osd_use_pilot_logo | Use custom pilot logo with/instead of the INAV logo. The pilot logo must be characters 473 to 511 Default: FALSE |
pid_iterm_limit_percent | Limits max/min I-term value in stabilization PID controller. It solves the problem of servo saturation before take-off/throwing the airplane into the air. Or multirotors with low authority. By default, error accumulated in I-term can not exceed 33% of total pid throw (around 165us on deafult pidsum_limit of pitch/roll). Set 0 to disable completely. Values: 0 - 200 Default: 33 |
tpa_on_yaw | Throttle PID attenuation also reduces influence on YAW for multi-rotor, Should be set to ON for tilting rotors. Default: FALSE |
Name | Description |
---|---|
dterm_lpf2_hz | |
dterm_lpf2_type | |
frsky_coordinates_format | |
frsky_default_latitude | |
frsky_default_longitude | |
frsky_unit | |
frsky_vfas_precision | |
fw_iterm_throw_limit | |
moron_threshold | |
nav_fw_cruise_yaw_rate | |
nav_use_midthr_for_althold | |
osd_mah_used_precision | |
output_mode |
The full list of changes is available here
The full list of INAV Configurator changes is available here
Full Changelog: https://github.com/iNavFlight/inav/compare/6.1.1...7.0.0-RC1
Published by DzikuVx over 1 year ago
Please carefully read all of this document for the best possible experience and safety.
Get in touch with other pilots, share experiences, suggestions and ask for help on:
Tested and suggested hardware can be found here
ahrs_inertia_comp_method
parameter, as this must be correct for your platform. See the release notes below.Please follow the instructions on this page.
This release fixes a "dolphining" bug that was affecting fixed wing airplanes in autonomous modes and causing airplanes not being able to precisely control altitude. INAV 6.1.1 addresses this issue and solved the problem.
Full Changelog: https://github.com/iNavFlight/inav/compare/6.1.0...6.1.1
Published by DzikuVx over 1 year ago
Please carefully read all of this document for the best possible experience and safety.
Get in touch with other pilots, share experiences, suggestions and ask for help on:
Tested and suggested hardware can be found here
ahrs_inertia_comp_method
parameter, as this must be correct for your platform. See the release notes below.Please follow the instructions on this page.
INAV 6.1 fixes a bug that was causing the H7 MCU to stop receiving RX signal after EEPROM save operation was performed. This happened from CMS and from Configurator. INAV 6.1 fixes the issue and RX operation is no longer stopped after the save operation
INAV 6.1 adds the BFHDCOMPAT
OSD mode that is compatible with the Betaflight HD OSD layout.
Name | Item |
---|---|
acc_hardware | New: LSM6DXX
|
current_sensor | New: FAKE
|
gps_provider | New: FAKE
|
nav_extra_arming_safety | Default: ALLOW_BYPASS
|
osd_video_system | New: BFHDCOMPAT
|
rangefinder_hardware | New: FAKE
|
receiver_type | New: SIM (SITL)
|
serial_rx | New: FBUS
|
voltage_sensor | New: FAKE
|
Full Changelog: https://github.com/iNavFlight/inav/compare/6.0.0...6.1.0
Published by DzikuVx over 1 year ago
Please carefully read all of this document for the best possible experience and safety.
Get in touch with other pilots, share experiences, suggestions and ask for help on:
Tested and suggested hardware can be found here
ahrs_inertia_comp_method
parameter, as this must be correct for your platform. See the release notes below.Please follow the instructions on this page.
INAV 6.1 fixes a bug that was causing the H7 MCU to stop receiving RX signal after EEPROM save operation was performed. This happened from CMS and from Configurator. INAV 6.1 fixes the issue and RX operation is no longer stopped after the save operation
INAV 6.1 adds the BFHDCOMPAT
OSD mode that is compatible with the Betaflight HD OSD layout.
Name | Item |
---|---|
acc_hardware | New: LSM6DXX
|
current_sensor | New: FAKE
|
gps_provider | New: FAKE
|
nav_extra_arming_safety | Default: ALLOW_BYPASS
|
osd_video_system | New: BFHDCOMPAT
|
rangefinder_hardware | New: FAKE
|
receiver_type | New: SIM (SITL)
|
serial_rx | New: FBUS
|
voltage_sensor | New: FAKE
|
Full Changelog: https://github.com/iNavFlight/inav/compare/6.0.0...6.1.0-RC1
Published by DzikuVx over 1 year ago
Please carefully read all of this document for the best possible experience and safety.
Get in touch with other pilots, share experiences, suggestions and ask for help on:
Tested and suggested hardware can be found here
ahrs_inertia_comp_method
parameter, as this must be correct for your platform. See the release notes below.Please follow the instructions on this page.
INAV 6.0 includes a complete rework of the AHRS for Attitude Estimation, to make sure INAV always knows its correct attitude relative to the ground. This should once and for all fix the issue, known as "Horizon Drift" and makes any navigation mode as well as self-levelling modes like ANGLE fully reliable and allows much more precise GPS-Navigation. This affects Fixed Wing as well as Multirotor.
The best results are given if the craft is equipped with GPS and in the case of Multirotor also with a compass. But also for pure LOS Craft that have no GPS on board, the AHI stability is noticeably improved in most situations. To work best with non-GPS Fixed Wings, the Reference Airspeed has to be set according the average cruise speed of the craft.
If you load a diff file from INAV 5.1 or older, it is safe to ignore errors related to imu_acc_ignore_rate
, imu_acc_ignore_slope
, imu_dcm_kp
, imu_dcm_kp_map
, or imu_dcm_ki_mag
. These variables behave differently in 6.0 and have been renamed. You should use the default values of the new parameter first. Below are the new parameter defaults.
set ahrs_acc_ignore_rate = 15
set ahrs_acc_ignore_slope = 5
set ahrs_dcm_kp = 2000
set ahrs_dcm_ki = 50
set ahrs_dcm_kp_mag = 2000
set ahrs_dcm_ki_mag = 50
If you have used the Feature Preview release, your diff, you may have the parameter imu_inertia_comp_method
. If not and you are coming from INAV 5.0 or 5.1, you may need to add the new parameter shown below. Firstly, if you have imu_inertia_comp_method
in your diff, you can remove that line.
If you are using fixed wing, you should add this new parameter to the # master
section of your diff:
set ahrs_inertia_comp_method = ADAPTIVE
For all other platforms, you do not need to add anything. The default value of VELNED
is correct for non-fixed wing platforms.
For Fixed Wing Craft with no GPS:
set fw_reference_airspeed = (set this in cm/s. Set this to airspeed at which PIDs were tuned. Usually should be set to cruise airspeed. Also used for coordinated turn calculation if airspeed sensor is not present.)
The operation of osd_horizon_offset
has been reversed, to make it more intuitive. If you have a non-zero value for osd_horizon_offset
it will need to be inverted. For example, osd_horizon_offset = 1
would become osd_horizon_offset = -1
. Positive values move the HUD up, and negative values move it down. This is corrected with the CLI Update tool.
When triggered the craft returns along the trackback route until the end is reached at which point it reverts to normal RTH heading directly home. It doesn't perform the RTH climb phase but instead uses the track point altitude but with altitude never allowed below the altitude of the start point so it can climb but never descend below the start point.
OFF
by default, adjust nav_rth_trackback_mode
to enable. For details see #7988
Accelerometer calibration is required only if any of the Accelerometer Based Flight Modes or Failsafe procedures is configured. For example, ACC calibration will be needed when Failsafe RTH is enabled, or any GPS assisted flight modes is configured. Acro only multirotor and fixed wings do not require calibration.
The off
option has been removed from nav_extra_arming_safety
. Instead, the allow_bypass
can be used for with the same effect. To allow the bypass, yaw right and arm. The extra arming safety features will be disabled until the next power cycle of the battery. Please update your diff if you use this parameter; either manually, or using this tool.
Attempts to improve fixed wing WP course tracking accuracy by adding a couple of options:
Tracking accuracy option that forces craft toward the waypoint course line as quickly as possible and actively tracks the line thereafter. A single setting adjusts the strength of the tracking behaviour. Works for WP mode and RTH trackback. Option is disabled by default.
Turn smoothing option for waypoint turns. Sets a loiter point within the turn such that the craft follows a loiter turn path that either passes through the waypoint or cuts the turn missing the waypoint (2 settings possible). Only works for WP mode. Option is disabled by default.
See #8234 for details
INAV flight controller can be used with X-Plane 11 flight simulator. Very useful for training, testing and debugging. Requires X-Plane 11 and HITL Plugin https://github.com/RomanLut/INAV-X-Plane-HITL
Allows WP multi-missions to be changed in flight using new mission change mode. With mode active the required mission index can be selected by cycling through missions using the WP mode switch. Selected mission is loaded when mission change mode is switched off. Mission index can also be changed through addition of a new Mission Index adjustment function which should be useful for DJI users unable to use the normal OSD mission related fields. See #8354 for details
INAV has now support for various flavours of the MSP DisplayPort protocol used by HDZero, DJI Goggles 2, Walksnail Avatar or WTFOS. Based on the osd_video_system
setting different canvas sizes and glyphs are used. Available options are:
AUTO
- for analogue systems onlyPAL
NTSC
HDZERO
DJIWTF
AVATAR
BF43COMPAT
- keep the compatibility with Betaflight 4.3 implementation by lowering canvas size, lowering the number of OSD glyphs and matching to Betaflight character mapping. Required for DJI MSP DisplayPort with DJI O3 Air UnitNOTE: Please read this section if you are using the Programming Framework (Programming tab).
The programming framework surrounding waypoints has changed. This has caused a conflict in compatibility with previous versions of INAV. If you use anything in the programming tab. Please run your diff through this conversion tool, to keep your logic conditions working. Please feel free to check out the new waypoint related logical switch operands in the Programming Framework document.
nav_wp_safe_distance
has been replaced with nav_wp_max_safe_distance
. This setting uses metres, and used to define the maximum distance away that the first waypoint can be. Please update your diff if you use this parameter; either manually, or using this tool.
The ability to arm the craft while in a navigation mode has been removed. The only people who this will effect are those who use permanently enabled autolaunch. Pre-6.0 you could arm while in a navigation mode. However this is dangerous, as it is easy to not realise, arm, disable the launch, then have the motor go to the cruise throttle. You will still be able to use a navigation mode as the exit mode from a launch. You just need to use the correct procedure for initiating the launch:
The disarm on landing flag is now set to ON
by default. This means, after successful automated landing your aircraft should disarm and stop the motors automatically!
Allows an emergency landing to be triggered manually as required.
Landing started or ended by rapid toggling of PosHold mode, at least 5 times at a minimum rate of 1Hz.
Emergency landing position hold added which will work for all emergency landings regardless of cause so long as a valid position is available.
Failsafe inhibited during manual emergency landing to allow landing to continue if Failsafe triggered whilst active.
SET rc_filter_auto=ON
Note: nav_extra_arming_safety
The OFF
option has been removed. ON
and ALLOW_BYPASS
are now the only valid options. ALLOW_BYPASS
permits arming in "navigation unsafe" condition by temporally applying full right yaw when operating the arm switch.
Name | Values |
---|---|
acc_hardware | Removed: MPU6050
|
debug_modes | New: POS_EST , Removed: GYRO , SBUS , FPORT , ERPM , RPM_FILTER , RPM_FREQ , DYNAMIC_FILTER , DYNAMIC_FILTER_FREQUENCY , IRLOCK , KALMAN_GAIN , PID_MEASUREMENT , SPM_CELLS , SPM_VS600 , SPM_VARIO , IMU2 , SMITH_PREDICTOR
|
gps_provider | Removed: UNUSED , NAZA , MTK
|
mag_hardware | Removed: GPSMAG
|
nav_extra_arming_safety | Removed: OFF
|
osd_video_system | New: HDZERO , DJIWTF , AVATAR , BF43COMPAT
|
receiver_type | Removed: SPI
|
serial_rx | Removed: SUMH , XB-B , XB-B-RJ01
|
Name | Description |
---|---|
dynamic_gyro_notch_3d_q | Q factor for 3D dynamic notches Values: 1 - 1000 Default: 200 |
dynamic_gyro_notch_mode | Gyro dynamic notch type Default: 2D |
failsafe_mission_delay | Applies if failsafe occurs when a WP mission is in progress. Sets the time delay in seconds between failsafe occurring and the selected failsafe procedure activating. If set to -1 the failsafe procedure won't activate at all and the mission will continue until the end. Values: -1 - 600 Default: 0 |
imu_gps_yaw_windcomp | Wind compensation in heading estimation from gps groundcourse(fixed wing only) Default: TRUE |
imu_inertia_comp_method | Inertia force compensation method when gps is avaliable, VELNED use the accleration from gps, TURNRATE calculates accleration by turnrate multiplied by speed, ADAPTIVE choose best result from two in each ahrs loop Default: VELNED |
nav_auto_disarm_delay | Delay before craft disarms when nav_disarm_on_landing is set (ms) Values: 100 - 10000 Default: 1000 |
nav_fw_launch_abort_deadband | Launch abort stick deadband in [r/c points], applied after r/c deadband and expo. The Roll/Pitch stick needs to be deflected beyond this deadband to abort the launch. Values: 2 - 250 Default: 100 |
nav_fw_launch_manual_throttle | Allows launch with manually controlled throttle. INAV only levels wings and controls climb pitch during launch. Throttle is controlled directly by throttle stick movement. IF USED WITHOUT A GPS LOCK plane must be launched immediately after throttle is increased to avoid issues with climb out stabilisation and the launch ending sooner than expected (launch end timer starts as soon as the throttle stick is raised). Default: FALSE |
nav_fw_wp_tracking_accuracy | Waypoint tracking accuracy forces the craft to quickly head toward and track along the waypoint course line as closely as possible. Settings 1 to 10 adjust the course tracking response. Higher values dampen the response reducing possible overshoot. A value of 5 is a good starting point. Set to 0 to disable. Values: 0 - 10 Default: 0 |
nav_fw_wp_tracking_max_angle | Sets the maximum allowed alignment convergence angle to the waypoint course line when nav_fw_wp_tracking_accuracy is active [degrees]. Lower values result in smoother alignment with the course line but will take more distance until this is achieved. Values: 30 - 80 Default: 60 |
nav_fw_wp_turn_smoothing | Smooths turns during WP missions by switching to a loiter turn at waypoints. When set to ON the craft will reach the waypoint during the turn. When set to ON-CUT the craft will turn inside the waypoint without actually reaching it (cuts the corner). Default: OFF |
nav_land_detect_sensitivity | Changes sensitivity of landing detection. Higher values increase speed of detection but also increase risk of false detection. Default value should work in most cases. Values: 1 - 15 Default: 5 |
nav_rth_trackback_distance | Maximum distance allowed for RTH trackback. Normal RTH is executed once this distance is exceeded [m]. Values: 50 - 2000 Default: 500 |
nav_rth_trackback_mode | Useage modes for RTH Trackback. OFF = disabled, ON = Normal and Failsafe RTH, FS = Failsafe RTH only. Default: OFF |
nav_wp_max_safe_distance | First waypoint in the mission should be closer than this value [m]. A value of 0 disables this check. Values: 0 - 1500 Default: 100 |
osd_ahi_pitch_interval | Draws AHI at increments of the set pitch interval over the full pitch range. AHI line is drawn with ends offset when pitch first exceeds interval with offset increasing with increasing pitch. Offset direction changes between climb and dive. Set to 0 to disable (Not for pixel OSD) Values: 0 - 30 Default: 0 |
osd_msp_displayport_fullframe_interval | Full Frame redraw interval for MSP DisplayPort [deciseconds]. This is how often a full frame update is sent to the DisplayPort, to cut down on OSD artifacting. The default value should be fine for most pilots. Though long range pilots may benefit from increasing the refresh time, especially near the edge of range. -1 = disabled (legacy mode) , 0 = every frame (not recommended) , default = 10 (1 second) Values: -1 - 600 Default: 10 |
pilot_name | Pilot name Default: |
rc_filter_auto | When enabled, INAV will set RC filtering based on refresh rate and smoothing factor. Default: FALSE |
rc_filter_lpf_hz | RC data biquad filter cutoff frequency. Lower cutoff frequencies result in smoother response at expense of command control delay. Practical values are 20-50. Set to zero to disable entirely and use unsmoothed RC stick values Values: 15 - 250 Default: 50 |
rc_filter_smoothing_factor | The RC filter smoothing factor. The higher the value, the more smoothing but also the more delay in response. Value 1 sets the filter at half the refresh rate. Value 100 sets the filter to aprox. 10% of the RC refresh rate Values: 1 - 100 Default: 30 |
Name | Description |
---|---|
baro_median_filter | |
eleres_freq | |
eleres_loc_delay | |
eleres_loc_en | |
eleres_loc_power | |
eleres_signature | |
eleres_telemetry_en | |
eleres_telemetry_power | |
failsafe_mission | see new failsafe_mission_delay
|
imu2_align_pitch | |
imu2_align_roll | |
imu2_align_yaw | |
imu2_gain_acc_x | |
imu2_gain_acc_y | |
imu2_gain_acc_z | |
imu2_gain_mag_x | |
imu2_gain_mag_y | |
imu2_gain_mag_z | |
imu2_hardware | |
imu2_radius_acc | |
imu2_radius_mag | |
imu2_use_for_osd_ahi | |
imu2_use_for_osd_heading | |
imu2_use_for_stabilized | |
nav_fw_auto_disarm_delay | See generic nav_auto_disarm_delay
|
nav_mc_auto_disarm_delay | See generic nav_auto_disarm_delay
|
nav_wp_safe_distance | see nav_wp_max_safe_distance
|
rc_filter_frequency | |
rx_spi_id | |
rx_spi_protocol | |
rx_spi_rf_channel_count |
The full list of changes is available here
The full list of INAV Configurator changes is available here
Full Changelog: https://github.com/iNavFlight/inav/compare/5.1.0...6.0.0
Published by DzikuVx over 1 year ago
Please carefully read all of this document for the best possible experience and safety.
Get in touch with other pilots, share experiences, suggestions and ask for help on:
Tested and suggested hardware can be found here
ahrs_inertia_comp_method
parameter, as this must be correct for your platform. See the release notes below.Please follow the instructions on this page.
INAV 6.0 includes a complete rework of the AHRS for Attitude Estimation, to make sure INAV always knows its correct attitude relative to the ground. This should once and for all fix the issue, known as "Horizon Drift" and makes any navigation mode as well as self-levelling modes like ANGLE fully reliable and allows much more precise GPS-Navigation. This affects Fixed Wing as well as Multirotor.
The best results are given if the craft is equipped with GPS and in the case of Multirotor also with a compass. But also for pure LOS Craft that have no GPS on board, the AHI stability is noticeably improved in most situations. To work best with non-GPS Fixed Wings, the Reference Airspeed has to be set according the average cruise speed of the craft.
If you load a diff file from INAV 5.1 or older, it is safe to ignore errors related to imu_acc_ignore_rate
, imu_acc_ignore_slope
, imu_dcm_kp
, imu_dcm_kp_map
, or imu_dcm_ki_mag
. These variables behave differently in 6.0 and have been renamed. You should use the default values of the new parameter first. Below are the new parameter defaults.
set ahrs_acc_ignore_rate = 15
set ahrs_acc_ignore_slope = 5
set ahrs_dcm_kp = 2000
set ahrs_dcm_ki = 50
set ahrs_dcm_kp_mag = 2000
set ahrs_dcm_ki_mag = 50
If you have used the Feature Preview release, your diff, you may have the parameter imu_inertia_comp_method
. If not and you are coming from INAV 5.0 or 5.1, you may need to add the new parameter shown below. Firstly, if you have imu_inertia_comp_method
in your diff, you can remove that line.
If you are using fixed wing, you should add this new parameter to the # master
section of your diff:
set ahrs_inertia_comp_method = ADAPTIVE
For all other platforms, you do not need to add anything. The default value of VELNED
is correct for non-fixed wing platforms.
For Fixed Wing Craft with no GPS:
set fw_reference_airspeed = (set this in cm/s. Set this to airspeed at which PIDs were tuned. Usually should be set to cruise airspeed. Also used for coordinated turn calculation if airspeed sensor is not present.)
The operation of osd_horizon_offset
has been reversed, to make it more intuitive. If you have a non-zero value for osd_horizon_offset
it will need to be inverted. For example, osd_horizon_offset = 1
would become osd_horizon_offset = -1
. Positive values move the HUD up, and negative values move it down. This is corrected with the CLI Update tool.
When triggered the craft returns along the trackback route until the end is reached at which point it reverts to normal RTH heading directly home. It doesn't perform the RTH climb phase but instead uses the track point altitude but with altitude never allowed below the altitude of the start point so it can climb but never descend below the start point.
OFF
by default, adjust nav_rth_trackback_mode
to enable. For details see #7988
Accelerometer calibration is required only if any of the Accelerometer Based Flight Modes or Failsafe procedures is configured. For example, ACC calibration will be needed when Failsafe RTH is enabled, or any GPS assisted flight modes is configured. Acro only multirotor and fixed wings do not require calibration.
The off
option has been removed from nav_extra_arming_safety
. Instead, the allow_bypass
can be used for with the same effect. To allow the bypass, yaw right and arm. The extra arming safety features will be disabled until the next power cycle of the battery. Please update your diff if you use this parameter; either manually, or using this tool.
Attempts to improve fixed wing WP course tracking accuracy by adding a couple of options:
Tracking accuracy option that forces craft toward the waypoint course line as quickly as possible and actively tracks the line thereafter. A single setting adjusts the strength of the tracking behaviour. Works for WP mode and RTH trackback. Option is disabled by default.
Turn smoothing option for waypoint turns. Sets a loiter point within the turn such that the craft follows a loiter turn path that either passes through the waypoint or cuts the turn missing the waypoint (2 settings possible). Only works for WP mode. Option is disabled by default.
See #8234 for details
INAV flight controller can be used with X-Plane 11 flight simulator. Very useful for training, testing and debugging. Requires X-Plane 11 and HITL Plugin https://github.com/RomanLut/INAV-X-Plane-HITL
Allows WP multi-missions to be changed in flight using new mission change mode. With mode active the required mission index can be selected by cycling through missions using the WP mode switch. Selected mission is loaded when mission change mode is switched off. Mission index can also be changed through addition of a new Mission Index adjustment function which should be useful for DJI users unable to use the normal OSD mission related fields. See #8354 for details
INAV has now support for various flavours of the MSP DisplayPort protocol used by HDZero, DJI Goggles 2, Walksnail Avatar or WTFOS. Based on the osd_video_system
setting different canvas sizes and glyphs are used. Available options are:
AUTO
- for analogue systems onlyPAL
NTSC
HDZERO
DJIWTF
AVATAR
BF43COMPAT
- keep the compatibility with Betaflight 4.3 implementation by lowering canvas size, lowering the number of OSD glyphs and matching to Betaflight character mapping. Required for DJI MSP DisplayPort with DJI O3 Air UnitNOTE: Please read this section if you are using the Programming Framework (Programming tab).
The programming framework surrounding waypoints has changed. This has caused a conflict in compatibility with previous versions of INAV. If you use anything in the programming tab. Please run your diff through this conversion tool, to keep your logic conditions working. Please feel free to check out the new waypoint related logical switch operands in the Programming Framework document.
nav_wp_safe_distance
has been replaced with nav_wp_max_safe_distance
. This setting uses metres, and used to define the maximum distance away that the first waypoint can be. Please update your diff if you use this parameter; either manually, or using this tool.
The ability to arm the craft while in a navigation mode has been removed. The only people who this will effect are those who use permanently enabled autolaunch. Pre-6.0 you could arm while in a navigation mode. However this is dangerous, as it is easy to not realise, arm, disable the launch, then have the motor go to the cruise throttle. You will still be able to use a navigation mode as the exit mode from a launch. You just need to use the correct procedure for initiating the launch:
The disarm on landing flag is now set to ON
by default. This means, after successful automated landing your aircraft should disarm and stop the motors automatically!
Allows an emergency landing to be triggered manually as required.
Landing started or ended by rapid toggling of PosHold mode, at least 5 times at a minimum rate of 1Hz.
Emergency landing position hold added which will work for all emergency landings regardless of cause so long as a valid position is available.
Failsafe inhibited during manual emergency landing to allow landing to continue if Failsafe triggered whilst active.
SET rc_filter_auto=ON
Note: nav_extra_arming_safety
The OFF
option has been removed. ON
and ALLOW_BYPASS
are now the only valid options. ALLOW_BYPASS
permits arming in "navigation unsafe" condition by temporally applying full right yaw when operating the arm switch.
Name | Values |
---|---|
acc_hardware | Removed: MPU6050
|
debug_modes | New: POS_EST , Removed: GYRO , SBUS , FPORT , ERPM , RPM_FILTER , RPM_FREQ , DYNAMIC_FILTER , DYNAMIC_FILTER_FREQUENCY , IRLOCK , KALMAN_GAIN , PID_MEASUREMENT , SPM_CELLS , SPM_VS600 , SPM_VARIO , IMU2 , SMITH_PREDICTOR
|
gps_provider | Removed: UNUSED , NAZA , MTK
|
mag_hardware | Removed: GPSMAG
|
nav_extra_arming_safety | Removed: OFF
|
osd_video_system | New: HDZERO , DJIWTF , AVATAR , BF43COMPAT
|
receiver_type | Removed: SPI
|
serial_rx | Removed: SUMH , XB-B , XB-B-RJ01
|
Name | Description |
---|---|
dynamic_gyro_notch_3d_q | Q factor for 3D dynamic notches Values: 1 - 1000 Default: 200 |
dynamic_gyro_notch_mode | Gyro dynamic notch type Default: 2D |
failsafe_mission_delay | Applies if failsafe occurs when a WP mission is in progress. Sets the time delay in seconds between failsafe occurring and the selected failsafe procedure activating. If set to -1 the failsafe procedure won't activate at all and the mission will continue until the end. Values: -1 - 600 Default: 0 |
imu_gps_yaw_windcomp | Wind compensation in heading estimation from gps groundcourse(fixed wing only) Default: TRUE |
imu_inertia_comp_method | Inertia force compensation method when gps is avaliable, VELNED use the accleration from gps, TURNRATE calculates accleration by turnrate multiplied by speed, ADAPTIVE choose best result from two in each ahrs loop Default: VELNED |
nav_auto_disarm_delay | Delay before craft disarms when nav_disarm_on_landing is set (ms) Values: 100 - 10000 Default: 1000 |
nav_fw_launch_abort_deadband | Launch abort stick deadband in [r/c points], applied after r/c deadband and expo. The Roll/Pitch stick needs to be deflected beyond this deadband to abort the launch. Values: 2 - 250 Default: 100 |
nav_fw_launch_manual_throttle | Allows launch with manually controlled throttle. INAV only levels wings and controls climb pitch during launch. Throttle is controlled directly by throttle stick movement. IF USED WITHOUT A GPS LOCK plane must be launched immediately after throttle is increased to avoid issues with climb out stabilisation and the launch ending sooner than expected (launch end timer starts as soon as the throttle stick is raised). Default: FALSE |
nav_fw_wp_tracking_accuracy | Waypoint tracking accuracy forces the craft to quickly head toward and track along the waypoint course line as closely as possible. Settings 1 to 10 adjust the course tracking response. Higher values dampen the response reducing possible overshoot. A value of 5 is a good starting point. Set to 0 to disable. Values: 0 - 10 Default: 0 |
nav_fw_wp_tracking_max_angle | Sets the maximum allowed alignment convergence angle to the waypoint course line when nav_fw_wp_tracking_accuracy is active [degrees]. Lower values result in smoother alignment with the course line but will take more distance until this is achieved. Values: 30 - 80 Default: 60 |
nav_fw_wp_turn_smoothing | Smooths turns during WP missions by switching to a loiter turn at waypoints. When set to ON the craft will reach the waypoint during the turn. When set to ON-CUT the craft will turn inside the waypoint without actually reaching it (cuts the corner). Default: OFF |
nav_land_detect_sensitivity | Changes sensitivity of landing detection. Higher values increase speed of detection but also increase risk of false detection. Default value should work in most cases. Values: 1 - 15 Default: 5 |
nav_rth_trackback_distance | Maximum distance allowed for RTH trackback. Normal RTH is executed once this distance is exceeded [m]. Values: 50 - 2000 Default: 500 |
nav_rth_trackback_mode | Useage modes for RTH Trackback. OFF = disabled, ON = Normal and Failsafe RTH, FS = Failsafe RTH only. Default: OFF |
nav_wp_max_safe_distance | First waypoint in the mission should be closer than this value [m]. A value of 0 disables this check. Values: 0 - 1500 Default: 100 |
osd_ahi_pitch_interval | Draws AHI at increments of the set pitch interval over the full pitch range. AHI line is drawn with ends offset when pitch first exceeds interval with offset increasing with increasing pitch. Offset direction changes between climb and dive. Set to 0 to disable (Not for pixel OSD) Values: 0 - 30 Default: 0 |
osd_msp_displayport_fullframe_interval | Full Frame redraw interval for MSP DisplayPort [deciseconds]. This is how often a full frame update is sent to the DisplayPort, to cut down on OSD artifacting. The default value should be fine for most pilots. Though long range pilots may benefit from increasing the refresh time, especially near the edge of range. -1 = disabled (legacy mode) , 0 = every frame (not recommended) , default = 10 (1 second) Values: -1 - 600 Default: 10 |
pilot_name | Pilot name Default: |
rc_filter_auto | When enabled, INAV will set RC filtering based on refresh rate and smoothing factor. Default: FALSE |
rc_filter_lpf_hz | RC data biquad filter cutoff frequency. Lower cutoff frequencies result in smoother response at expense of command control delay. Practical values are 20-50. Set to zero to disable entirely and use unsmoothed RC stick values Values: 15 - 250 Default: 50 |
rc_filter_smoothing_factor | The RC filter smoothing factor. The higher the value, the more smoothing but also the more delay in response. Value 1 sets the filter at half the refresh rate. Value 100 sets the filter to aprox. 10% of the RC refresh rate Values: 1 - 100 Default: 30 |
Name | Description |
---|---|
baro_median_filter | |
eleres_freq | |
eleres_loc_delay | |
eleres_loc_en | |
eleres_loc_power | |
eleres_signature | |
eleres_telemetry_en | |
eleres_telemetry_power | |
failsafe_mission | see new failsafe_mission_delay
|
imu2_align_pitch | |
imu2_align_roll | |
imu2_align_yaw | |
imu2_gain_acc_x | |
imu2_gain_acc_y | |
imu2_gain_acc_z | |
imu2_gain_mag_x | |
imu2_gain_mag_y | |
imu2_gain_mag_z | |
imu2_hardware | |
imu2_radius_acc | |
imu2_radius_mag | |
imu2_use_for_osd_ahi | |
imu2_use_for_osd_heading | |
imu2_use_for_stabilized | |
nav_fw_auto_disarm_delay | See generic nav_auto_disarm_delay
|
nav_mc_auto_disarm_delay | See generic nav_auto_disarm_delay
|
nav_wp_safe_distance | see nav_wp_max_safe_distance
|
rc_filter_frequency | |
rx_spi_id | |
rx_spi_protocol | |
rx_spi_rf_channel_count |
The full list of changes is available here
The full list of INAV Configurator changes is available here
Full Changelog: https://github.com/iNavFlight/inav/compare/5.1.0...6.0.0-RC3
Published by DzikuVx over 1 year ago
Please carefully read all of this document for the best possible experience and safety.
Get in touch with other pilots, share experiences, suggestions and ask for help on:
Tested and suggested hardware can be found here
ahrs_inertia_comp_method
parameter, as this must be correct for your platform. See the release notes below.Please follow the instructions on this page.
INAV 6.0 includes a complete rework of the AHRS for Attitude Estimation, to make sure INAV always knows its correct attitude relative to the ground. This should once and for all fix the issue, known as "Horizon Drift" and makes any navigation mode as well as self-levelling modes like ANGLE fully reliable and allows much more precise GPS-Navigation. This affects Fixed Wing as well as Multirotor.
The best results are given if the craft is equipped with GPS and in the case of Multirotor also with a compass. But also for pure LOS Craft that have no GPS on board, the AHI stability is noticeably improved in most situations. To work best with non-GPS Fixed Wings, the Reference Airspeed has to be set according the average cruise speed of the craft.
If you load a diff file from INAV 5.1 or older, it is safe to ignore errors related to imu_acc_ignore_rate
, imu_acc_ignore_slope
, imu_dcm_kp
, imu_dcm_kp_map
, or imu_dcm_ki_mag
. These variables behave differently in 6.0 and have been renamed. You should use the default values of the new parameter first. Below are the new parameter defaults.
set ahrs_acc_ignore_rate = 15
set ahrs_acc_ignore_slope = 5
set ahrs_dcm_kp = 2000
set ahrs_dcm_ki = 50
set ahrs_dcm_kp_mag = 2000
set ahrs_dcm_ki_mag = 50
If you have used the Feature Preview release, your diff, you may have the parameter imu_inertia_comp_method
. If not and you are coming from INAV 5.0 or 5.1, you may need to add the new parameter shown below. Firstly, if you have imu_inertia_comp_method
in your diff, you can remove that line.
If you are using fixed wing, you should add this new parameter to the # master
section of your diff:
set ahrs_inertia_comp_method = ADAPTIVE
For all other platforms, you do not need to add anything. The default value of VELNED
is correct for non-fixed wing platforms.
For Fixed Wing Craft with no GPS:
set fw_reference_airspeed = (set this in cm/s. Set this to airspeed at which PIDs were tuned. Usually should be set to cruise airspeed. Also used for coordinated turn calculation if airspeed sensor is not present.)
The operation of osd_horizon_offset
has been reversed, to make it more intuitive. If you have a non-zero value for osd_horizon_offset
it will need to be inverted. For example, osd_horizon_offset = 1
would become osd_horizon_offset = -1
. Positive values move the HUD up, and negative values move it down. This is corrected with the CLI Update tool.
When triggered the craft returns along the trackback route until the end is reached at which point it reverts to normal RTH heading directly home. It doesn't perform the RTH climb phase but instead uses the track point altitude but with altitude never allowed below the altitude of the start point so it can climb but never descend below the start point.
OFF
by default, adjust nav_rth_trackback_mode
to enable. For details see #7988
Accelerometer calibration is required only if any of the Accelerometer Based Flight Modes or Failsafe procedures is configured. For example, ACC calibration will be needed when Failsafe RTH is enabled, or any GPS assisted flight modes is configured. Acro only multirotor and fixed wings do not require calibration.
The off
option has been removed from nav_extra_arming_safety
. Instead, the allow_bypass
can be used for with the same effect. To allow the bypass, yaw right and arm. The extra arming safety features will be disabled until the next power cycle of the battery. Please update your diff if you use this parameter; either manually, or using this tool.
Attempts to improve fixed wing WP course tracking accuracy by adding a couple of options:
Tracking accuracy option that forces craft toward the waypoint course line as quickly as possible and actively tracks the line thereafter. A single setting adjusts the strength of the tracking behaviour. Works for WP mode and RTH trackback. Option is disabled by default.
Turn smoothing option for waypoint turns. Sets a loiter point within the turn such that the craft follows a loiter turn path that either passes through the waypoint or cuts the turn missing the waypoint (2 settings possible). Only works for WP mode. Option is disabled by default.
See #8234 for details
INAV flight controller can be used with X-Plane 11 flight simulator. Very useful for training, testing and debugging. Requires X-Plane 11 and HITL Plugin https://github.com/RomanLut/INAV-X-Plane-HITL
Allows WP multi-missions to be changed in flight using new mission change mode. With mode active the required mission index can be selected by cycling through missions using the WP mode switch. Selected mission is loaded when mission change mode is switched off. Mission index can also be changed through addition of a new Mission Index adjustment function which should be useful for DJI users unable to use the normal OSD mission related fields. See #8354 for details
INAV has now support for various flavours of the MSP DisplayPort protocol used by HDZero, DJI Goggles 2, Walksnail Avatar or WTFOS. Based on the osd_video_system
setting different canvas sizes and glyphs are used. Available options are:
AUTO
- for analogue systems onlyPAL
NTSC
HDZERO
DJIWTF
AVATAR
BF43COMPAT
- keep the compatibility with Betaflight 4.3 implementation by lowering canvas size, lowering the number of OSD glyphs and matching to Betaflight character mapping. Required for DJI MSP DisplayPort with DJI O3 Air UnitThe programming framework surrounding waypoints has changed. This has caused a conflict in compatibility with previous versions of INAV. If you use anything in the programming tab. Please run your diff through this conversion tool, to keep your logic conditions working. Please feel free to check out the new waypoint related logical switch operands in the Programming Framework document.
nav_wp_safe_distance
has been replaced with nav_wp_max_safe_distance
. This setting uses metres, and used to define the maximum distance away that the first waypoint can be. Please update your diff if you use this parameter; either manually, or using this tool.
The ability to arm the craft while in a navigation mode has been removed. The only people who this will effect are those who use permanently enabled autolaunch. Pre-6.0 you could arm while in a navigation mode. However this is dangerous, as it is easy to not realise, arm, disable the launch, then have the motor go to the cruise throttle. You will still be able to use a navigation mode as the exit mode from a launch. You just need to use the correct procedure for initiating the launch:
The disarm on landing flag is now set to ON
by default. This means, after successful automated landing your aircraft should disarm and stop the motors automatically!
Allows an emergency landing to be triggered manually as required.
Landing started or ended by rapid toggling of PosHold mode, at least 5 times at a minimum rate of 1Hz.
Emergency landing position hold added which will work for all emergency landings regardless of cause so long as a valid position is available.
Failsafe inhibited during manual emergency landing to allow landing to continue if Failsafe triggered whilst active.
SET rc_filter_auto=ON
Note: nav_extra_arming_safety
The OFF
option has been removed. ON
and ALLOW_BYPASS
are now the only valid options. ALLOW_BYPASS
permits arming in "navigation unsafe" condition by temporally applying full right yaw when operating the arm switch.
Name | Values |
---|---|
acc_hardware | Removed: MPU6050
|
debug_modes | New: POS_EST , Removed: GYRO , SBUS , FPORT , ERPM , RPM_FILTER , RPM_FREQ , DYNAMIC_FILTER , DYNAMIC_FILTER_FREQUENCY , IRLOCK , KALMAN_GAIN , PID_MEASUREMENT , SPM_CELLS , SPM_VS600 , SPM_VARIO , IMU2 , SMITH_PREDICTOR
|
gps_provider | Removed: UNUSED , NAZA , MTK
|
mag_hardware | Removed: GPSMAG
|
nav_extra_arming_safety | Removed: OFF
|
osd_video_system | New: HDZERO , DJIWTF , AVATAR , BF43COMPAT
|
receiver_type | Removed: SPI
|
serial_rx | Removed: SUMH , XB-B , XB-B-RJ01
|
Name | Description |
---|---|
dynamic_gyro_notch_3d_q | Q factor for 3D dynamic notches Values: 1 - 1000 Default: 200 |
dynamic_gyro_notch_mode | Gyro dynamic notch type Default: 2D |
failsafe_mission_delay | Applies if failsafe occurs when a WP mission is in progress. Sets the time delay in seconds between failsafe occurring and the selected failsafe procedure activating. If set to -1 the failsafe procedure won't activate at all and the mission will continue until the end. Values: -1 - 600 Default: 0 |
imu_gps_yaw_windcomp | Wind compensation in heading estimation from gps groundcourse(fixed wing only) Default: TRUE |
imu_inertia_comp_method | Inertia force compensation method when gps is avaliable, VELNED use the accleration from gps, TURNRATE calculates accleration by turnrate multiplied by speed, ADAPTIVE choose best result from two in each ahrs loop Default: VELNED |
nav_auto_disarm_delay | Delay before craft disarms when nav_disarm_on_landing is set (ms) Values: 100 - 10000 Default: 1000 |
nav_fw_launch_abort_deadband | Launch abort stick deadband in [r/c points], applied after r/c deadband and expo. The Roll/Pitch stick needs to be deflected beyond this deadband to abort the launch. Values: 2 - 250 Default: 100 |
nav_fw_launch_manual_throttle | Allows launch with manually controlled throttle. INAV only levels wings and controls climb pitch during launch. Throttle is controlled directly by throttle stick movement. IF USED WITHOUT A GPS LOCK plane must be launched immediately after throttle is increased to avoid issues with climb out stabilisation and the launch ending sooner than expected (launch end timer starts as soon as the throttle stick is raised). Default: FALSE |
nav_fw_wp_tracking_accuracy | Waypoint tracking accuracy forces the craft to quickly head toward and track along the waypoint course line as closely as possible. Settings 1 to 10 adjust the course tracking response. Higher values dampen the response reducing possible overshoot. A value of 5 is a good starting point. Set to 0 to disable. Values: 0 - 10 Default: 0 |
nav_fw_wp_tracking_max_angle | Sets the maximum allowed alignment convergence angle to the waypoint course line when nav_fw_wp_tracking_accuracy is active [degrees]. Lower values result in smoother alignment with the course line but will take more distance until this is achieved. Values: 30 - 80 Default: 60 |
nav_fw_wp_turn_smoothing | Smooths turns during WP missions by switching to a loiter turn at waypoints. When set to ON the craft will reach the waypoint during the turn. When set to ON-CUT the craft will turn inside the waypoint without actually reaching it (cuts the corner). Default: OFF |
nav_land_detect_sensitivity | Changes sensitivity of landing detection. Higher values increase speed of detection but also increase risk of false detection. Default value should work in most cases. Values: 1 - 15 Default: 5 |
nav_rth_trackback_distance | Maximum distance allowed for RTH trackback. Normal RTH is executed once this distance is exceeded [m]. Values: 50 - 2000 Default: 500 |
nav_rth_trackback_mode | Useage modes for RTH Trackback. OFF = disabled, ON = Normal and Failsafe RTH, FS = Failsafe RTH only. Default: OFF |
nav_wp_max_safe_distance | First waypoint in the mission should be closer than this value [m]. A value of 0 disables this check. Values: 0 - 1500 Default: 100 |
osd_ahi_pitch_interval | Draws AHI at increments of the set pitch interval over the full pitch range. AHI line is drawn with ends offset when pitch first exceeds interval with offset increasing with increasing pitch. Offset direction changes between climb and dive. Set to 0 to disable (Not for pixel OSD) Values: 0 - 30 Default: 0 |
osd_msp_displayport_fullframe_interval | Full Frame redraw interval for MSP DisplayPort [deciseconds]. This is how often a full frame update is sent to the DisplayPort, to cut down on OSD artifacting. The default value should be fine for most pilots. Though long range pilots may benefit from increasing the refresh time, especially near the edge of range. -1 = disabled (legacy mode) , 0 = every frame (not recommended) , default = 10 (1 second) Values: -1 - 600 Default: 10 |
pilot_name | Pilot name Default: |
rc_filter_auto | When enabled, INAV will set RC filtering based on refresh rate and smoothing factor. Default: FALSE |
rc_filter_lpf_hz | RC data biquad filter cutoff frequency. Lower cutoff frequencies result in smoother response at expense of command control delay. Practical values are 20-50. Set to zero to disable entirely and use unsmoothed RC stick values Values: 15 - 250 Default: 50 |
rc_filter_smoothing_factor | The RC filter smoothing factor. The higher the value, the more smoothing but also the more delay in response. Value 1 sets the filter at half the refresh rate. Value 100 sets the filter to aprox. 10% of the RC refresh rate Values: 1 - 100 Default: 30 |
Name | Description |
---|---|
baro_median_filter | |
eleres_freq | |
eleres_loc_delay | |
eleres_loc_en | |
eleres_loc_power | |
eleres_signature | |
eleres_telemetry_en | |
eleres_telemetry_power | |
failsafe_mission | see new failsafe_mission_delay
|
imu2_align_pitch | |
imu2_align_roll | |
imu2_align_yaw | |
imu2_gain_acc_x | |
imu2_gain_acc_y | |
imu2_gain_acc_z | |
imu2_gain_mag_x | |
imu2_gain_mag_y | |
imu2_gain_mag_z | |
imu2_hardware | |
imu2_radius_acc | |
imu2_radius_mag | |
imu2_use_for_osd_ahi | |
imu2_use_for_osd_heading | |
imu2_use_for_stabilized | |
nav_fw_auto_disarm_delay | See generic nav_auto_disarm_delay
|
nav_mc_auto_disarm_delay | See generic nav_auto_disarm_delay
|
nav_wp_safe_distance | see nav_wp_max_safe_distance
|
rc_filter_frequency | |
rx_spi_id | |
rx_spi_protocol | |
rx_spi_rf_channel_count |
The full list of changes is available here
The full list of INAV Configurator changes is available here
Full Changelog: https://github.com/iNavFlight/inav/compare/5.1.0...6.0.0-RC1
Full Changelog: https://github.com/iNavFlight/inav/compare/5.10...6.0.0-RC2
Published by DzikuVx over 1 year ago
Please carefully read all of this document for the best possible experience and safety.
Get in touch with other pilots, share experiences, suggestions and ask for help on:
Tested and suggested hardware can be found here
Please follow the instructions on this page.
INAV 6.0 includes a complete rework of the AHRS for Attitude Estimation, to make sure INAV always knows its correct attitude relative to the ground. This should once and for all fix the issue, known as "Horizon Drift" and makes any navigation mode as well as self-levelling modes like ANGLE fully reliable and allows much more precise GPS-Navigation. This affects Fixed Wing as well as Multirotor.
The best results are given if the craft is equipped with GPS and in the case of Multirotor also with a compass. But also for pure LOS Craft that have no GPS on board, the AHI stability is noticeably improved in most situations. To work best with non-GPS Fixed Wings, the Reference Airspeed has to be set according the average cruise speed of the craft.
set imu_acc_ignore_rate = 15
set imu_acc_ignore_slope = 5
set imu_dcm_kp = 2000
set imu_dcm_ki = 50
set imu_dcm_kp_mag = 2000
set imu_dcm_ki_mag = 50
For Fixed Wing Craft with no GPS:
set fw_reference_airspeed = (set this in cm/s. Set this to airspeed at which PIDs were tuned. Usually should be set to cruise airspeed. Also used for coordinated turn calculation if airspeed sensor is not present.)
The operation of osd_horizon_offset
has been reversed, to make it more intuitive. If you have a non-zero value for osd_horizon_offset
it will need to be inverted. For example, osd_horizon_offset = 1
would become osd_horizon_offset = -1
. Positive values move the HUD up, and negative values move it down.
When triggered the craft returns along the trackback route until the end is reached at which point it reverts to normal RTH heading directly home. It doesn't perform the RTH climb phase but instead uses the track point altitude but with altitude never allowed below the altitude of the start point so it can climb but never descend below the start point.
OFF
by default, adjust nav_rth_trackback_mode
to enable. For details see #7988
Accelerometer calibration is required only if any of the Accelerometer Based Flight Modes or Failsafe procedures is configured. For example, ACC calibration will be needed when Failsafe RTH is enabled, or any GPS assisted flight modes is configured. Acro only multirotor and fixed wings do not require calibration.
The off
option has been removed from nav_extra_arming_safety
. Instead, the allow_bypass
can be used for with the same effect. To allow the bypass, yaw right and arm. The extra arming safety features will be disabled until the next power cycle of the battery. Please update your diff if you use this parameter; either manually, or using this tool.
Attempts to improve fixed wing WP course tracking accuracy by adding a couple of options:
Tracking accuracy option that forces craft toward the waypoint course line as quickly as possible and actively tracks the line thereafter. A single setting adjusts the strength of the tracking behaviour. Works for WP mode and RTH trackback. Option is disabled by default.
Turn smoothing option for waypoint turns. Sets a loiter point within the turn such that the craft follows a loiter turn path that either passes through the waypoint or cuts the turn missing the waypoint (2 settings possible). Only works for WP mode. Option is disabled by default.
See #8234 for details
INAV flight controller can be used with X-Plane 11 flight simulator. Very useful for training, testing and debugging. Requires X-Plane 11 and HITL Plugin https://github.com/RomanLut/INAV-X-Plane-HITL
Allows WP multi-missions to be changed in flight using new mission change mode. With mode active the required mission index can be selected by cycling through missions using the WP mode switch. Selected mission is loaded when mission change mode is switched off. Mission index can also be changed through addition of a new Mission Index adjustment function which should be useful for DJI users unable to use the normal OSD mission related fields. See #8354 for details
INAV has now support for various flavours of the MSP Displayport protocol used by HDZero, DJI Goggles 2, Walksnail Avatar or WTFOS. Based on the osd_video_system
setting different canvas sizes and glyphs are used. Available options are:
AUTO
- for analog systems onlyPAL
NTSC
HDZERO
DJIWTF
AVATAR
BF43COMPAT
- keep the compatibility with Betaflight 4.3 implementation by lowering canvas size, lowering the number of OSD glyphs and matching to Betaflight character mapping. Required for DJI MSP Displayport with DJI O3 Air UnitThe programming framework surrounding waypoints has changed. This has caused a conflict in compatibility with previous versions of INAV. If you use anything in the programming tab. Please run your diff through this conversion tool, to keep your logic conditions working. Please feel free to check out the new waypoint related logical switch operands in the Programming Framework document.
nav_wp_safe_distance
has been replaced with nav_wp_max_safe_distance
. This setting uses metres, and used to define the maximum distance away that the first waypoint can be. Please update your diff if you use this parameter; either manually, or using this tool.
The ability to arm the craft while in a navigation mode has been removed. The only people who this will effect are those who use permanently enabled autolaunch. Pre-6.0 you could arm while in a navigation mode. However this is dangerous, as it is easy to not realise, arm, disable the launch, then have the motor go to the cruise throttle. You will still be able to use a navigation mode as the exit mode from a launch. You just need to use the correct procedure for initiating the launch:
The disarm on landing flag is now set to ON
by default. This means, after successful automated landing your aircraft should disarm and stop the motors automatically!
Allows an emergency landing to be triggered manually as required.
Landing started or ended by rapid toggling of PosHold mode, at least 5 times at a minimum rate of 1Hz.
Emergency landing position hold added which will work for all emergency landings regardless of cause so long as a valid position is available.
Failsafe inhibited during manual emergency landing to allow landing to continue if Failsafe triggered whilst active.
SET rc_filter_auto=ON
Note: nav_extra_arming_safety
The OFF
option has been removed. ON
and ALLOW_BYPASS
are now the only valid options. ALLOW_BYPASS
permits arming in "navigation unsafe" condition by temporally applying full right yaw when operating the arm switch.
Name | Values |
---|---|
acc_hardware | Removed: MPU6050
|
debug_modes | New: POS_EST , Removed: GYRO , SBUS , FPORT , ERPM , RPM_FILTER , RPM_FREQ , DYNAMIC_FILTER , DYNAMIC_FILTER_FREQUENCY , IRLOCK , KALMAN_GAIN , PID_MEASUREMENT , SPM_CELLS , SPM_VS600 , SPM_VARIO , IMU2 , SMITH_PREDICTOR
|
gps_provider | Removed: UNUSED , NAZA , MTK
|
mag_hardware | Removed: GPSMAG
|
nav_extra_arming_safety | Removed: OFF
|
osd_video_system | New: HDZERO , DJIWTF , AVATAR , BF43COMPAT
|
receiver_type | Removed: SPI
|
serial_rx | Removed: SUMH , XB-B , XB-B-RJ01
|
Name | Description |
---|---|
dynamic_gyro_notch_3d_q | Q factor for 3D dynamic notches Values: 1 - 1000 Default: 200 |
dynamic_gyro_notch_mode | Gyro dynamic notch type Default: 2D |
failsafe_mission_delay | Applies if failsafe occurs when a WP mission is in progress. Sets the time delay in seconds between failsafe occurring and the selected failsafe procedure activating. If set to -1 the failsafe procedure won't activate at all and the mission will continue until the end. Values: -1 - 600 Default: 0 |
imu_gps_yaw_windcomp | Wind compensation in heading estimation from gps groundcourse(fixed wing only) Default: TRUE |
imu_inertia_comp_method | Inertia force compensation method when gps is avaliable, VELNED use the accleration from gps, TURNRATE calculates accleration by turnrate multiplied by speed, ADAPTIVE choose best result from two in each ahrs loop Default: VELNED |
nav_auto_disarm_delay | Delay before craft disarms when nav_disarm_on_landing is set (ms) Values: 100 - 10000 Default: 1000 |
nav_fw_launch_abort_deadband | Launch abort stick deadband in [r/c points], applied after r/c deadband and expo. The Roll/Pitch stick needs to be deflected beyond this deadband to abort the launch. Values: 2 - 250 Default: 100 |
nav_fw_launch_manual_throttle | Allows launch with manually controlled throttle. INAV only levels wings and controls climb pitch during launch. Throttle is controlled directly by throttle stick movement. IF USED WITHOUT A GPS LOCK plane must be launched immediately after throttle is increased to avoid issues with climb out stabilisation and the launch ending sooner than expected (launch end timer starts as soon as the throttle stick is raised). Default: FALSE |
nav_fw_wp_tracking_accuracy | Waypoint tracking accuracy forces the craft to quickly head toward and track along the waypoint course line as closely as possible. Settings 1 to 10 adjust the course tracking response. Higher values dampen the response reducing possible overshoot. A value of 5 is a good starting point. Set to 0 to disable. Values: 0 - 10 Default: 0 |
nav_fw_wp_tracking_max_angle | Sets the maximum allowed alignment convergence angle to the waypoint course line when nav_fw_wp_tracking_accuracy is active [degrees]. Lower values result in smoother alignment with the course line but will take more distance until this is achieved. Values: 30 - 80 Default: 60 |
nav_fw_wp_turn_smoothing | Smooths turns during WP missions by switching to a loiter turn at waypoints. When set to ON the craft will reach the waypoint during the turn. When set to ON-CUT the craft will turn inside the waypoint without actually reaching it (cuts the corner). Default: OFF |
nav_land_detect_sensitivity | Changes sensitivity of landing detection. Higher values increase speed of detection but also increase risk of false detection. Default value should work in most cases. Values: 1 - 15 Default: 5 |
nav_rth_trackback_distance | Maximum distance allowed for RTH trackback. Normal RTH is executed once this distance is exceeded [m]. Values: 50 - 2000 Default: 500 |
nav_rth_trackback_mode | Useage modes for RTH Trackback. OFF = disabled, ON = Normal and Failsafe RTH, FS = Failsafe RTH only. Default: OFF |
nav_wp_max_safe_distance | First waypoint in the mission should be closer than this value [m]. A value of 0 disables this check. Values: 0 - 1500 Default: 100 |
osd_ahi_pitch_interval | Draws AHI at increments of the set pitch interval over the full pitch range. AHI line is drawn with ends offset when pitch first exceeds interval with offset increasing with increasing pitch. Offset direction changes between climb and dive. Set to 0 to disable (Not for pixel OSD) Values: 0 - 30 Default: 0 |
osd_msp_displayport_fullframe_interval | Full Frame redraw interval for MSP DisplayPort [deciseconds]. This is how often a full frame update is sent to the DisplayPort, to cut down on OSD artifacting. The default value should be fine for most pilots. Though long range pilots may benefit from increasing the refresh time, especially near the edge of range. -1 = disabled (legacy mode) , 0 = every frame (not recommended) , default = 10 (1 second) Values: -1 - 600 Default: 10 |
pilot_name | Pilot name Default: |
rc_filter_auto | When enabled, INAV will set RC filtering based on refresh rate and smoothing factor. Default: FALSE |
rc_filter_lpf_hz | RC data biquad filter cutoff frequency. Lower cutoff frequencies result in smoother response at expense of command control delay. Practical values are 20-50. Set to zero to disable entirely and use unsmoothed RC stick values Values: 15 - 250 Default: 50 |
rc_filter_smoothing_factor | The RC filter smoothing factor. The higher the value, the more smoothing but also the more delay in response. Value 1 sets the filter at half the refresh rate. Value 100 sets the filter to aprox. 10% of the RC refresh rate Values: 1 - 100 Default: 30 |
Name | Description |
---|---|
baro_median_filter | |
eleres_freq | |
eleres_loc_delay | |
eleres_loc_en | |
eleres_loc_power | |
eleres_signature | |
eleres_telemetry_en | |
eleres_telemetry_power | |
failsafe_mission | see new failsafe_mission_delay
|
imu2_align_pitch | |
imu2_align_roll | |
imu2_align_yaw | |
imu2_gain_acc_x | |
imu2_gain_acc_y | |
imu2_gain_acc_z | |
imu2_gain_mag_x | |
imu2_gain_mag_y | |
imu2_gain_mag_z | |
imu2_hardware | |
imu2_radius_acc | |
imu2_radius_mag | |
imu2_use_for_osd_ahi | |
imu2_use_for_osd_heading | |
imu2_use_for_stabilized | |
nav_fw_auto_disarm_delay | See generic nav_auto_disarm_delay
|
nav_mc_auto_disarm_delay | See generic nav_auto_disarm_delay
|
nav_wp_safe_distance | see nav_wp_max_safe_distance
|
rc_filter_frequency | |
rx_spi_id | |
rx_spi_protocol | |
rx_spi_rf_channel_count |
The full list of changes is available here
The full list of INAV Configurator changes is available here
Full Changelog: https://github.com/iNavFlight/inav/compare/5.1.0...6.0.0-RC1
Published by DzikuVx almost 2 years ago
Please carefully read all of this document for the best possible experience and safety.
Get in touch with other pilots, share experiences, suggestions and ask for help on:
Tested and suggested hardware can be found here
Please follow the instructions on this page.
INAV 6.0 includes a big Update to its AHRS for Attitude Estimation, to make sure INAV always knows it's correct attitude relative to the ground. This should once and for all fix the issue, known as "Horizon Drift" and makes any navigation mode as well as self-leveling modes like ANGLE fully reliable and allows much more precise GPS-Navigation. This affects Fixed Wing as well as Multirotor.
The best results are given if the craft is equipped with GPS and in the case of Multirotor also with a compass. But also for pure LOS Crafts that have no GPS on board, the AHI stability is noticeably improved in most situations. To work best with non-GPS Fixed Wings, the Reference Airspeed has to be set according the average cruise speed of the craft.
set imu_acc_ignore_rate = 15
set imu_acc_ignore_slope = 10
set imu_dcm_kp = 2000
set imu_dcm_ki = 50
set imu_dcm_kp_mag = 2000
set imu_dcm_ki_mag = 50
Fixed Wing only:
set imu_inertia_comp_method = ADAPTIVE
Copter only:
set imu_inertia_comp_method = VELNED
For Fixed Wing Craft with no GPS:
set fw_reference_airspeed =
(set this in cm/s. Set this to airspeed at which PIDs were tuned. Usually should be set to cruise airspeed. Also used for coordinated turn calculation if airspeed sensor is not present.)
If you notice any problems, please head to the Discussion Thread here and post your feedback, if possible with DVR and Blackbox log: https://github.com/iNavFlight/inav/discussions/8469
The operation of osd_horizon_offset
has been reversed, to make it more intuitive. If you have a non-zero value for osd_horizon_offset
it will need to be inverted. For example osd_horizon_offset = 1
would become osd_horizon_offset = -1
. Positive values move the HUD up, and negative values move it down.
The full list of changes is available here
The full list of INAV Configurator changes is available here
Full Changelog: https://github.com/iNavFlight/inav/compare/5.1.0...6.0.0-FP1
Published by DzikuVx about 2 years ago
Please carefully read all of this document for the best possible experience and safety.
Get in touch with other pilots, share experiences, suggestions and ask for help on:
Please continue to support developers, for free, by checking out the following stores after having clicked on the following links:
Your contribution from the past month has been very welcome! Thanks!
Tested and suggested hardware can be found here
INAV 5.1 lowers the probablity of a full config wipe on reboot. Bear in mind, technically it's not a bug. When FC is disconnected during EEPROM write, checksum will not updated and INAV will erase flash on next boot as a safety measure. To prevent this from happening, always wait until INAV fully reboots before disconnecting the flight controller.
INAV 5.1 supports 128Mbit W25N01G flash memory that can be found on Mamba H743 and ZEEZF7 V2.
To improve AHI drift on fixed wings, apply following settings via CLI:
set imu_acc_ignore_rate = 9
set imu_acc_ignore_slope = 5
set nav_fw_pos_z_p = 35
set nav_fw_pos_z_i = 5
set nav_fw_pos_z_d = 10
set nav_fw_pos_xy_p = 70
set imu_dcm_kp = 1000
set imu_dcm_ki = 0
set imu_acc_ignore_rate = 7
set imu_acc_ignore_slope = 4
set nav_fw_pos_z_p = 25
set nav_fw_pos_z_i = 5
set nav_fw_pos_z_d = 7
set nav_fw_pos_xy_p = 55
set imu_dcm_kp = 1000
set imu_dcm_ki = 0
Please follow the instructions on this page.
nav_fw_launch_abort_deadband
Launch abort stick deadband in [r/c points], applied after r/c deadband and expo. The Roll/Pitch stick needs to be deflected beyond this deadband to abort the launch.Full Changelog: https://github.com/iNavFlight/inav/compare/5.0.0...5.1.0
The full list of changes is available here
The full list of INAV Configurator changes is available here
Published by DzikuVx over 2 years ago
Please carefully read all of this document for the best possible experience and safety.
Get in touch with other pilots, share experiences, suggestions and ask for help on:
Please continue to support developers, for free, by checking out the following stores after having clicked on the following links:
Your contribution from the past month has been very welcome! Thanks!
Tested and suggested hardware can be found here
A new feature on this firmware causes a save command to be executed every time the flight controller is powered on. If this save command is interrupted, the configuration could become corrupted, and you full configuration will be wiped. We recommend that you instead install INAV 5.1, which removed this save command, while keeping the new feature.
The I2C PCA9685 servo driver is no longer supported as obsolete and not widely adopted. All PCA9685 setups are advised to upgrade to SBUS output and SBUS to PWM
decoders
The align_acc
and align_gyro
settings are removed. Gyro/Acc orientation should always be set with align_board_yaw
The NAV_GPS_GLITCH_DETECTION
was removed as not suitable for modern aircraft. There is no user action required
INAV 5 removed the support for the following MSP frames:
MSP_IDENT
MSP_PID
MSP_PID_CONTROLLER
MSP_BF_CONFIG
MSP_BF_BUILD_INFO
MSP_SET_PID_CONTROLLER
MSP_SET_PID
MSP_SET_BF_CONFIG
MSP_CF_SERIAL_CONFIG
MSP_SET_CF_SERIAL_CONFIG
No user action is required in the case of the INAV Configurator or mwptools (mwp etc.). In the case of 3rd party INAV configuration apps, this change might break the compatibility if the app was using any of those frames. SpeedyBee
developers have been notified, other apps have to adjust accordingly.
In order to help mitigate the "randomly changed settings" bug, strict MSP payload length checking has been implemented. Fixed size MSP frames that do not specify the correct payload size will be rejected. The INAV Configurator and mwptools (mwp etc.) are compliant. In the case of 3rd party INAV configuration / mission planning / monitoring apps, this change might break interoperability if the app was not correctly setting the payload size. SpeedyBee
developers have been notified, other apps may have to adjust accordingly.
Please follow the instructions on this page.
INAV allows changing the function assignment of ALL PWM outputs. Bear in mind, that it's not resource mapping! This function allows assigning all outputs as motors or all outputs as servos. It's driven by CLI output_mode
setting
AUTO
assigns outputs according to the default mappingSERVOS
assigns all outputs to servosMOTORS
assigns all outputs to motorsUpdates landing detection for multirotor and add detection for fixed-wing. Detects when flying and activates landing detection from that point. Multirotor detection was added for non-autonomous landing as well as RTH. Fixed-wing detection is based on velocity, axis rates, and finally absolute movement in roll and pitch (so it probably wouldn't work if stuck in a tree being blown around by the wind). For details see https://github.com/iNavFlight/inav/pull/7270
LED hue can be updated with an RC channel. For example, CLI led 7 8,10::H:6
will adjust hue of LED number 7 based on RC channel 6. For details see https://github.com/iNavFlight/inav/pull/7618
This feature allows to arm of INAV aircraft on a boat or any other moving vehicle, as it allows to use of stored gyro calibration value instead of calibrating on every boot.
init_gyro_cal
If defined to OFF, it will ignore the gyroscope calibration done at each startup. Instead, the gyroscope's last calibration from when you calibrated will be used. It also means you don't have to keep the UAV stationary during a startup.gyro_zero_x
gyro X calibration storedgyro_zero_y
gyro Y calibration storedgyro_zero_z
gyro Z calibration storedProvides an option to force mission waypoint altitude to be achieved before moving on to the next waypoint. If the set altitude hasn't been achieved when the craft arrives at the waypoint it will hold and adjust the altitude as required with a target margin of 100cm. Planes use a spiral loiter whilst changing altitude. The option is set for the whole mission and applicable to basic and timed hold waypoints. For details see https://github.com/iNavFlight/inav/pull/7644
INAV will now use the SQRT
controller for Altitude Control on Multirotors. No extra pilot action required. For details see https://github.com/iNavFlight/inav/pull/7845
Adds the vtx_smartaudio_stopbits
setting that when set to 1
fixes the TBS Sixty9 SmartAudio 2.1 issues.
Adds following value as Logic Conditions Operands:
AGL_STATUS
boolean 1
when AGL can be trusted, 0
when AGL estimate can not be trustedAGL
integer Above The Groud Altitude in cm
RANGEFINDER_RAW
integer raw distance provided by the rangefinder in cm
To use the Matek 1G3SE with IRC Tramp. You will need to enter the CLI command set vtx_frequency_group = FREQUENCYGROUP_1G3
. You must also make sure that the initial VTx settings in the configuration tab are in a valid range. They are:
vtx_band
1 or 2vtx_channel
between 1 and 9The default VTx band has been changed from 4 to 1. If you are updating, please check that the band is still correct for your setup.
For details see https://github.com/iNavFlight/inav/pull/7949
motor_pwm_rate
setting is right now used only in case on BRUSHED
motor output. STANDARD
, ONESHOT125
, MULTISHOT
and all DSHOT
protocols use predefined update rate that can not be changed
KAKUTEH7
, MAMBAF722_2022A
and MAMBAH743
have now 4 motor and 4 servo outputs by default. To enable X8
mode, CLI set output_mode=MOTORS
command has to be used.
SPEEDYBEEF4
has now the following pin assignment in the fixed wing mode:
Name | Values |
---|---|
debug_modes | New: LANDING
|
servo_protocol | Removed: SERVO_DRIVER
|
Name | Description |
---|---|
ground_test_mode | For developer ground test use. Disables motors, sets heading status = Trusted on FW. Default: FALSE |
gyro_zero_x | Calculated gyro zero calibration of axis X Values: -32768 - 32767 Default: 0 |
gyro_zero_y | Calculated gyro zero calibration of axis Y Values: -32768 - 32767 Default: 0 |
gyro_zero_z | Calculated gyro zero calibration of axis Z Values: -32768 - 32767 Default: 0 |
init_gyro_cal | If defined to 'OFF', it will ignore the gyroscope calibration done at each startup. Instead, the gyroscope last calibration from when you calibrated will be used. It also means you don't have to keep the UAV stationary during a startup. Default: TRUE |
ins_gravity_cmss | Calculated 1G of Acc axis Z to use in INS Values: 0 - 2000 Default: 0.0 |
nav_fw_auto_disarm_delay | Delay before plane disarms when nav_disarm_on_landing is set (ms) Values: 100 - 10000 Default: 2000 |
nav_wp_enforce_altitude | Forces craft to achieve the set WP altitude as well as position before moving to next WP. Position is held and altitude adjusted as required before moving on. Default: FALSE |
osd_mah_used_precision | Number of digits used to display mAh used. Values: 4 - 6 Default: 4 |
osd_switch_indicator_one_channnel | RC Channel to use for OSD switch indicator 1. Default: 5 |
osd_switch_indicator_one_name | Character to use for OSD switch incicator 1. Values: 0 - 5 Default: GEAR |
osd_switch_indicator_three_channnel | RC Channel to use for OSD switch indicator 3. Default: 5 |
osd_switch_indicator_three_name | Character to use for OSD switch incicator 3. Values: 0 - 5 Default: LIGT |
osd_switch_indicator_two_channnel | RC Channel to use for OSD switch indicator 2. Default: 5 |
osd_switch_indicator_two_name | Character to use for OSD switch incicator 2. Values: 0 - 5 Default: CAM |
osd_switch_indicator_zero_channnel | RC Channel to use for OSD switch indicator 0. Default: 5 |
osd_switch_indicator_zero_name | Character to use for OSD switch incicator 0. Values: 0 - 5 Default: FLAP |
osd_switch_indicators_align_left | Align text to left of switch indicators Default: TRUE |
osd_system_msg_display_time | System message display cycle time for multiple messages (milliseconds). Values: 500 - 5000 Default: 1000 |
output_mode | Output function assignment mode. AUTO assigns outputs according to the default mapping, SERVOS assigns all outputs to servos, MOTORS assigns all outputs to motors Default: AUTO |
vtx_frequency_group | VTx Frequency group to use. Frequency groups: FREQUENCYGROUP_5G8: 5.8GHz, FREQUENCYGROUP_2G4: 2.4GHz, FREQUENCYGROUP_1G3: 1.3GHz. Values: 0 - 2 Default: FREQUENCYGROUP_5G8 |
vtx_smartaudio_stopbits | Set stopbit count for serial (TBS Sixty9 SmartAudio 2.1 require value of 1 bit) Values: 1 - 2 Default: 2 |
vtx_softserial_shortstop | Enable the 3x shorter stopbit on softserial. Need for some IRC Tramp VTXes. Default: FALSE |
Name | Description |
---|---|
align_acc | Use align_board_yaw
|
align_gyro | Use align_board_yaw
|
ninja
as build manager by @stronnag in https://github.com/iNavFlight/inav/pull/7942
The full list of changes is available here
The full list of INAV Configurator changes is available here
Published by DzikuVx over 2 years ago
Please carefully read all of this document for the best possible experience and safety.
Get in touch with other pilots, share experiences, suggestions and ask for help on:
Please continue to support developers, for free, by checking out the following stores after having clicked on the following links:
Your contribution from the past month has been very welcome! Thanks!
Tested and suggested hardware can be found here
The I2C PCA9685 servo driver is no longer supported as obsolete and not widely adopted. All PCA9685 setups are advised to upgrade to SBUS output and SBUS to PWM
decoders
The align_acc
and align_gyro
settings are removed. Gyro/Acc orientation should always be set with align_board_yaw
The NAV_GPS_GLITCH_DETECTION
was removed as not suitable for modern aircraft. There is no user action required
INAV 5 removed the support for the following MSP frames:
MSP_IDENT
MSP_PID
MSP_PID_CONTROLLER
MSP_BF_CONFIG
MSP_BF_BUILD_INFO
MSP_SET_PID_CONTROLLER
MSP_SET_PID
MSP_SET_BF_CONFIG
MSP_CF_SERIAL_CONFIG
MSP_SET_CF_SERIAL_CONFIG
No user action is required in the case of the INAV Configurator or mwptools (mwp etc.). In the case of 3rd party INAV configuration apps, this change might break the compatibility if the app was using any of those frames. SpeedyBee
developers have been notified, other apps have to adjust accordingly.
In order to help mitigate the "randomly changed settings" bug, strict MSP payload length checking has been implemented. Fixed size MSP frames that do not specify the correct payload size will be rejected. The INAV Configurator and mwptools (mwp etc.) are compliant. In the case of 3rd party INAV configuration / mission planning / monitoring apps, this change might break interoperability if the app was not correctly setting the payload size. SpeedyBee
developers have been notified, other apps may have to adjust accordingly.
Please follow the instructions on this page.
INAV allows changing the function assignment of ALL PWM outputs. Bear in mind, that it's not resource mapping! This function allows assigning all outputs as motors or all outputs as servos. It's driven by CLI output_mode
setting
AUTO
assigns outputs according to the default mappingSERVOS
assigns all outputs to servosMOTORS
assigns all outputs to motorsUpdates landing detection for multirotor and add detection for fixed-wing. Detects when flying and activates landing detection from that point. Multirotor detection was added for non-autonomous landing as well as RTH. Fixed-wing detection is based on velocity, axis rates, and finally absolute movement in roll and pitch (so it probably wouldn't work if stuck in a tree being blown around by the wind). For details see https://github.com/iNavFlight/inav/pull/7270
LED hue can be updated with an RC channel. For example, CLI led 7 8,10::H:6
will adjust hue of LED number 7 based on RC channel 6. For details see https://github.com/iNavFlight/inav/pull/7618
This feature allows to arm of INAV aircraft on a boat or any other moving vehicle, as it allows to use of stored gyro calibration value instead of calibrating on every boot.
init_gyro_cal
If defined to OFF, it will ignore the gyroscope calibration done at each startup. Instead, the gyroscope's last calibration from when you calibrated will be used. It also means you don't have to keep the UAV stationary during a startup.gyro_zero_x
gyro X calibration storedgyro_zero_y
gyro Y calibration storedgyro_zero_z
gyro Z calibration storedProvides an option to force mission waypoint altitude to be achieved before moving on to the next waypoint. If the set altitude hasn't been achieved when the craft arrives at the waypoint it will hold and adjust the altitude as required with a target margin of 100cm. Planes use a spiral loiter whilst changing altitude. The option is set for the whole mission and applicable to basic and timed hold waypoints. For details see https://github.com/iNavFlight/inav/pull/7644
INAV will now use the SQRT
controller for Altitude Control on Multirotors. No extra pilot action required. For details see https://github.com/iNavFlight/inav/pull/7845
Adds the vtx_smartaudio_stopbits
setting that when set to 1
fixes the TBS Sixty9 SmartAudio 2.1 issues.
Adds following value as Logic Conditions Operands:
AGL_STATUS
boolean 1
when AGL can be trusted, 0
when AGL estimate can not be trustedAGL
integer Above The Groud Altitude in cm
RANGEFINDER_RAW
integer raw distance provided by the rangefinder in cm
To use the Matek 1G3SE with IRC Tramp. You will need to enter the CLI command set vtx_frequency_group = FREQUENCYGROUP_1G3
. You must also make sure that the initial VTx settings in the configuration tab are in a valid range. They are:
vtx_band
1 or 2vtx_channel
between 1 and 9The default VTx band has been changed from 4 to 1. If you are updating, please check that the band is still correct for your setup.
For details see https://github.com/iNavFlight/inav/pull/7949
motor_pwm_rate
setting is right now used only in case on BRUSHED
motor output. STANDARD
, ONESHOT125
, MULTISHOT
and all DSHOT
protocols use predefined update rate that can not be changed
KAKUTEH7
, MAMBAF722_2022A
and MAMBAH743
have now 4 motor and 4 servo outputs by default. To enable X8
mode, CLI set output_mode=MOTORS
command has to be used.
SPEEDYBEEF4
has now the following pin assignment in the fixed wing mode:
Name | Values |
---|---|
debug_modes | New: LANDING
|
servo_protocol | Removed: SERVO_DRIVER
|
Name | Description |
---|---|
ground_test_mode | For developer ground test use. Disables motors, sets heading status = Trusted on FW. Default: FALSE |
gyro_zero_x | Calculated gyro zero calibration of axis X Values: -32768 - 32767 Default: 0 |
gyro_zero_y | Calculated gyro zero calibration of axis Y Values: -32768 - 32767 Default: 0 |
gyro_zero_z | Calculated gyro zero calibration of axis Z Values: -32768 - 32767 Default: 0 |
init_gyro_cal | If defined to 'OFF', it will ignore the gyroscope calibration done at each startup. Instead, the gyroscope last calibration from when you calibrated will be used. It also means you don't have to keep the UAV stationary during a startup. Default: TRUE |
ins_gravity_cmss | Calculated 1G of Acc axis Z to use in INS Values: 0 - 2000 Default: 0.0 |
nav_fw_auto_disarm_delay | Delay before plane disarms when nav_disarm_on_landing is set (ms) Values: 100 - 10000 Default: 2000 |
nav_wp_enforce_altitude | Forces craft to achieve the set WP altitude as well as position before moving to next WP. Position is held and altitude adjusted as required before moving on. Default: FALSE |
osd_mah_used_precision | Number of digits used to display mAh used. Values: 4 - 6 Default: 4 |
osd_switch_indicator_one_channnel | RC Channel to use for OSD switch indicator 1. Default: 5 |
osd_switch_indicator_one_name | Character to use for OSD switch incicator 1. Values: 0 - 5 Default: GEAR |
osd_switch_indicator_three_channnel | RC Channel to use for OSD switch indicator 3. Default: 5 |
osd_switch_indicator_three_name | Character to use for OSD switch incicator 3. Values: 0 - 5 Default: LIGT |
osd_switch_indicator_two_channnel | RC Channel to use for OSD switch indicator 2. Default: 5 |
osd_switch_indicator_two_name | Character to use for OSD switch incicator 2. Values: 0 - 5 Default: CAM |
osd_switch_indicator_zero_channnel | RC Channel to use for OSD switch indicator 0. Default: 5 |
osd_switch_indicator_zero_name | Character to use for OSD switch incicator 0. Values: 0 - 5 Default: FLAP |
osd_switch_indicators_align_left | Align text to left of switch indicators Default: TRUE |
osd_system_msg_display_time | System message display cycle time for multiple messages (milliseconds). Values: 500 - 5000 Default: 1000 |
output_mode | Output function assignment mode. AUTO assigns outputs according to the default mapping, SERVOS assigns all outputs to servos, MOTORS assigns all outputs to motors Default: AUTO |
vtx_frequency_group | VTx Frequency group to use. Frequency groups: FREQUENCYGROUP_5G8: 5.8GHz, FREQUENCYGROUP_2G4: 2.4GHz, FREQUENCYGROUP_1G3: 1.3GHz. Values: 0 - 2 Default: FREQUENCYGROUP_5G8 |
vtx_smartaudio_stopbits | Set stopbit count for serial (TBS Sixty9 SmartAudio 2.1 require value of 1 bit) Values: 1 - 2 Default: 2 |
vtx_softserial_shortstop | Enable the 3x shorter stopbit on softserial. Need for some IRC Tramp VTXes. Default: FALSE |
Name | Description |
---|---|
align_acc | Use align_board_yaw
|
align_gyro | Use align_board_yaw
|
ninja
as build manager by @stronnag in https://github.com/iNavFlight/inav/pull/7942
The full list of changes is available here
The full list of INAV Configurator changes is available here
Published by DzikuVx over 2 years ago
Please carefully read all of this document for the best possible experience and safety.
Get in touch with other pilots, share experiences, suggestions and ask for help on:
Please continue to support developers, for free, by checking out the following stores after having clicked on the following links:
Your contribution from the past month has been very welcome! Thanks!
Tested and suggested hardware can be found here
The I2C PCA9685 servo driver is no longer supported as obsolete and not widely adopted. All PCA9685 setups are advised to upgrade to SBUS output and SBUS to PWM
decoders
The align_acc
and align_gyro
settings are removed. Gyro/Acc orientation should always be set with align_board_yaw
The NAV_GPS_GLITCH_DETECTION
was removed as not suitable for modern aircraft. There is no user action required
INAV 5 removed the support for the following MSP frames:
MSP_IDENT
MSP_PID
MSP_PID_CONTROLLER
MSP_BF_CONFIG
MSP_BF_BUILD_INFO
MSP_SET_PID_CONTROLLER
MSP_SET_PID
MSP_SET_BF_CONFIG
MSP_CF_SERIAL_CONFIG
MSP_SET_CF_SERIAL_CONFIG
No user action is required in the case of the INAV Configurator or mwptools (mwp etc.). In the case of 3rd party INAV configuration apps, this change might break the compatibility if the app was using any of those frames. SpeedyBee
developers have been notified, other apps have to adjust accordingly.
In order to help mitigate the "randomly changed settings" bug, strict MSP payload length checking has been implemented. Fixed size MSP frames that do not specify the correct payload size will be rejected. The INAV Configurator and mwptools (mwp etc.) are compliant. In the case of 3rd party INAV configuration / mission planning / monitoring apps, this change might break interoperability if the app was not correctly setting the payload size. SpeedyBee
developers have been notified, other apps may have to adjust accordingly.
Please follow the instructions on this page.
INAV allows changing the function assignment of ALL PWM outputs. Bear in mind, that it's not resource mapping! This function allows assigning all outputs as motors or all outputs as servos. It's driven by CLI output_mode
setting
AUTO
assigns outputs according to the default mappingSERVOS
assigns all outputs to servosMOTORS
assigns all outputs to motorsUpdates landing detection for multirotor and add detection for fixed-wing. Detects when flying and activates landing detection from that point. Multirotor detection was added for non-autonomous landing as well as RTH. Fixed-wing detection is based on velocity, axis rates, and finally absolute movement in roll and pitch (so it probably wouldn't work if stuck in a tree being blown around by the wind). For details see https://github.com/iNavFlight/inav/pull/7270
LED hue can be updated with an RC channel. For example, CLI led 7 8,10::H:6
will adjust hue of LED number 7 based on RC channel 6. For details see https://github.com/iNavFlight/inav/pull/7618
This feature allows to arm of INAV aircraft on a boat or any other moving vehicle, as it allows to use of stored gyro calibration value instead of calibrating on every boot.
init_gyro_cal
If defined to OFF, it will ignore the gyroscope calibration done at each startup. Instead, the gyroscope's last calibration from when you calibrated will be used. It also means you don't have to keep the UAV stationary during a startup.gyro_zero_x
gyro X calibration storedgyro_zero_y
gyro Y calibration storedgyro_zero_z
gyro Z calibration storedProvides an option to force mission waypoint altitude to be achieved before moving on to the next waypoint. If the set altitude hasn't been achieved when the craft arrives at the waypoint it will hold and adjust the altitude as required with a target margin of 100cm. Planes use a spiral loiter whilst changing altitude. The option is set for the whole mission and applicable to basic and timed hold waypoints. For details see https://github.com/iNavFlight/inav/pull/7644
INAV will now use the SQRT
controller for Altitude Control on Multirotors. No extra pilot action required. For details see https://github.com/iNavFlight/inav/pull/7845
Adds the vtx_smartaudio_stopbits
setting that when set to 1
fixes the TBS Sixty9 SmartAudio 2.1 issues.
Adds following value as Logic Conditions Operands:
AGL_STATUS
boolean 1
when AGL can be trusted, 0
when AGL estimate can not be trustedAGL
integer Above The Groud Altitude in cm
RANGEFINDER_RAW
integer raw distance provided by the rangefinder in cm
To use the Matek 1G3SE with IRC Tramp. You will need to enter the CLI command set vtx_frequency_group = FREQUENCYGROUP_1G3
. You must also make sure that the initial VTx settings in the configuration tab are in a valid range. They are:
vtx_band
1 or 2vtx_channel
between 1 and 9The default VTx band has been changed from 4 to 1. If you are updating, please check that the band is still correct for your setup.
For details see https://github.com/iNavFlight/inav/pull/7949
KAKUTEH7
, MAMBAF722_2022A
and MAMBAH743
have now 4 motor and 4 servo outputs by default. To enable X8
mode, CLI set output_mode=MOTORS
command has to be used.
Name | Values |
---|---|
debug_modes | New: LANDING
|
servo_protocol | Removed: SERVO_DRIVER
|
Name | Description |
---|---|
ground_test_mode | For developer ground test use. Disables motors, sets heading status = Trusted on FW. Default: FALSE |
gyro_zero_x | Calculated gyro zero calibration of axis X Values: -32768 - 32767 Default: 0 |
gyro_zero_y | Calculated gyro zero calibration of axis Y Values: -32768 - 32767 Default: 0 |
gyro_zero_z | Calculated gyro zero calibration of axis Z Values: -32768 - 32767 Default: 0 |
init_gyro_cal | If defined to 'OFF', it will ignore the gyroscope calibration done at each startup. Instead, the gyroscope last calibration from when you calibrated will be used. It also means you don't have to keep the UAV stationary during a startup. Default: TRUE |
ins_gravity_cmss | Calculated 1G of Acc axis Z to use in INS Values: 0 - 2000 Default: 0.0 |
nav_fw_auto_disarm_delay | Delay before plane disarms when nav_disarm_on_landing is set (ms) Values: 100 - 10000 Default: 2000 |
nav_wp_enforce_altitude | Forces craft to achieve the set WP altitude as well as position before moving to next WP. Position is held and altitude adjusted as required before moving on. Default: FALSE |
osd_mah_used_precision | Number of digits used to display mAh used. Values: 4 - 6 Default: 4 |
osd_switch_indicator_one_channnel | RC Channel to use for OSD switch indicator 1. Default: 5 |
osd_switch_indicator_one_name | Character to use for OSD switch incicator 1. Values: 0 - 5 Default: GEAR |
osd_switch_indicator_three_channnel | RC Channel to use for OSD switch indicator 3. Default: 5 |
osd_switch_indicator_three_name | Character to use for OSD switch incicator 3. Values: 0 - 5 Default: LIGT |
osd_switch_indicator_two_channnel | RC Channel to use for OSD switch indicator 2. Default: 5 |
osd_switch_indicator_two_name | Character to use for OSD switch incicator 2. Values: 0 - 5 Default: CAM |
osd_switch_indicator_zero_channnel | RC Channel to use for OSD switch indicator 0. Default: 5 |
osd_switch_indicator_zero_name | Character to use for OSD switch incicator 0. Values: 0 - 5 Default: FLAP |
osd_switch_indicators_align_left | Align text to left of switch indicators Default: TRUE |
osd_system_msg_display_time | System message display cycle time for multiple messages (milliseconds). Values: 500 - 5000 Default: 1000 |
output_mode | Output function assignment mode. AUTO assigns outputs according to the default mapping, SERVOS assigns all outputs to servos, MOTORS assigns all outputs to motors Default: AUTO |
vtx_frequency_group | VTx Frequency group to use. Frequency groups: FREQUENCYGROUP_5G8: 5.8GHz, FREQUENCYGROUP_2G4: 2.4GHz, FREQUENCYGROUP_1G3: 1.3GHz. Values: 0 - 2 Default: FREQUENCYGROUP_5G8 |
vtx_smartaudio_stopbits | Set stopbit count for serial (TBS Sixty9 SmartAudio 2.1 require value of 1 bit) Values: 1 - 2 Default: 2 |
vtx_softserial_shortstop | Enable the 3x shorter stopbit on softserial. Need for some IRC Tramp VTXes. Default: FALSE |
Name | Description |
---|---|
align_acc | Use align_board_yaw
|
align_gyro | Use align_board_yaw
|
ninja
as build manager by @stronnag in https://github.com/iNavFlight/inav/pull/7942
The full list of changes is available here
The full list of INAV Configurator changes is available here