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1.9.0 Release notes

Michel Pastor edited this page Feb 28, 2018 · 39 revisions

Please read the release notes carefully and upgrade INAV Configurator application.

INAV is and will remain open-source and free, but you are more than welcome to support the development.

This release was supported by our awesome sponsors CarbonBird.com, Airbot, ADPM Drones and a number of supporters on Patreon.

WARNINGS

  • If you are using HMC5883/HMC5983 compass it is advised to recalibrate. Please don't restore the old settings from the dump/diff script.

Known bugs

  • todo

Renamed PASSTHROUGH flight mode (fixed wing)

The PASSTHROUGH flight mode has been renamed to MANUAL. New settings also have been added to allow the use of different servo rates (or control weight) for the servos when flying without stabilization without using a programmable remote control. The exposition settings for roll/pitch and yaw controls are now also also independent from the exposition settings used for stabilized flight modes. See the manual_* settings in the CLI settings table below. The default settings make the MANUAL flight mode behave exactly as the old PASSTHROUGH flight mode.

Increased VBAT resolution

The battery voltage resolution has been increased from 100mV to 10mV. In consequence the vbat_scale, vbat_max_cell_voltage, vbat_warning_cell_voltage and vbat_min_cell_voltage settings resolution has also been increased 10 fold allowing more precise battery voltage calibration and battery voltage thresholds. To restore old configuration settings users need to multiply their old setting values by 10.

New defaults for these settings:

  • vbat_scale: 1100 (was 110)
  • vbat_max_cell_voltage: 424 (was 43) or 4.24V/cell
  • vbat_warning_cell_voltage: 350 (was 35) or 3.5V/cell
  • vbat_min_cell_voltage: 330 (was 33) or 3.3V/cell

Users who were using the old defaults should not use the settings from their dump but use the new defaults instead.

Users now have the option to display 1 or 2 decimals for battery voltages in the OSD display (see osd_main_voltage_decimals in the CLI settings table below).

Battery capacity monitoring

It is now possible to display the remaining battery capacity in the OSD and also use the battery capacity thresholds (battery_capacity_warning and battery_capacity_critical) for battery alarms.

For the capacity monitoring to work you need a current sensor (CURRENT_METER feature). For monitoring energy in milliWatt hour you also need voltage measurement (VBAT feature). For best results the current and voltage readings have to be calibrated.

For the remaining battery capacity to be displayed users need to set the battery_capacity setting (>0) and the battery to be full when plugged in. If the battery_capacity setting is set to 0 the remaining battery capacity item in the OSD will display NA and the battery gauge will use an estimation based on the battery voltage (like it used to be) otherwise it will display the remaining battery capacity down to the battery_capacity_critical setting (battery considered empty) and the battery gauge will be based on the remaining capacity. For the capacity thresholds to be used for alarms the battery_capacity_warning and battery_capacity_critical settings also needs to be set (>0) and the plugged in battery to be full when plugged in.

For the battery to be considered full the mean cell voltage of the battery needs to be above vbat_max_cell_voltage - 140mV (by default 4.1V). So a 3S battery will be considered full above 12.3V and a 4S battery above 16.24V. If the battery plugged in is not considered full the remaining battery capacity OSD item will show NF (Not Full).

For the remaining battery capacity and battery gauge to be the most precise (linear relative to throttle from full to empty) when using battery capacity monitoring users should use the milliWatt hour unit for the battery capacity settings. The battery capacity settings unit can be set using the battery_capacity_unit setting (see the CLI parameters table below).

CLI parameter renaming / new parameters

New parameters have been introduced. Some CLI parameters were renamed to support new features or to better reflect their meaning:

Name Description
rangefinder_median_filter Default is OFF
baro_median_filter Default is ON
failsafe_lights Enable or disable the lights when the FAILSAFE flight mode is enabled. The target needs to be compiled with USE_LIGHTS [ON/OFF]. Default is ON
failsafe_lights_flash_period Time in milliseconds between two flashes when failsafe_lights is ON and FAILSAFE flight mode is enabled [40-65535]. Default is 1000ms.
failsafe_lights_flash_on_time Flash lights ON time in milliseconds when failsafe_lights is ON and FAILSAFE flight mode is enabled. [20-65535]. Default is 100ms.
battery_capacity Set the battery capacity in mAh or mWh (see battery_capacity_unit). Used to calculate the remaining battery capacity. Default is 0
battery_capacity_warning If the remaining battery capacity goes below this threshold the beeper will emit short beeps and the relevant OSD items will blink. Default is 0
battery_capacity_critical If the remaining battery capacity goes below this threshold the battery is considered empty and the beeper will emit long beeps. Default is 0
battery_capacity_unit Unit used for battery_capacity, battery_capacity_warning and battery_capacity_critical [MAH/MWH] (milliAmpere hour / milliWatt hour). Default is MAH
manual_rc_expo Exposition value used for the PITCH/ROLL axes by the MANUAL flight mode [0-100]. Default is 70
manual_rc_yaw_expo Exposition value used for the YAW axis by the MANUAL flight mode. Default is 20
manual_pitch_rate Servo travel multiplier for the PITCH axis in MANUAL flight mode [0-100]%. Default is 100%
manual_roll_rate Servo travel multiplier for the ROLL axis in MANUAL flight mode [0-100]%. Default is 100%
manual_yaw_rate Servo travel multiplier for the YAW axis in MANUAL flight mode [0-100]%. Default is 100%
gps_ublox_use_galileo Enable use of Galileo satellites. This is at the expense of other regional constellations, so benefit may also be regional. Requires M8N and Ublox firmware 3.x (or later) [OFF/ON]. Default is OFF
smartport_fuel_unit Unit of the value sent with the FUEL ID through the S.Port telemetry. Replaces the smartport_fuel_percent setting [PERCENT/MAH/MWH]. Default is PERCENT
osd_stats_energy_unit Unit used for the drawn energy in the OSD stats [MAH/WH] (milliAmpere hour/ Watt hour). Default is MAH
osd_main_voltage_decimals Number of decimals for the battery voltages displayed in the OSD [1-2]. Default is 1
osd_wh_drawn_pos
osd_bat_remaining_capacity_pos
osd_bat_remaining_percent_pos
osd_efficiency_mah_pos
osd_efficiency_wh_pos
display_force_sw_blink
mag_to_use Allow to chose between built-in and external compass sensor if they are connected to separate buses. Currently only for REVO target
nav_fw_launch_min_time Allow launch mode to execute at least this time (ms) and ignore stick movements [0-60000]. Default is 0
nav_fw_launch_max_altitude Altitude (centimeters) at which LAUNCH mode will be turned off and regular flight mode will take over [0-60000]. Default is 0

New boards

  • Betaflight F3
  • Betaflight F4
  • FuriousFPV F35 Lightning (former FuriousFPV WingF4)
  • Matek F722
  • Matek F405-CTR
  • Holybro KAKUTE F4
  • Holybro KAKUTE F4 V2
  • Fortini F4

New features

  • [COMPASS] Allow to chose between internal and external compass on REVO target (@digitalentity, #2522)
  • [COMPASS] Support for QMC5883 compass chips that incorrectly mimic the HMC58883 (@digitalentity, #2809)
  • [SYSTEM] Migrate to busDevice abstraction layer for better device access abstraction (@digitalentity, #2290)
  • [SYSTEM] Create dedicated F427 startup file (@digitalentity, #2559)
  • [MOTOLAB] Allow MOTOLAB target to be used for airplanes (@shellixyz, #2502)
  • [GPS] Enables use of Galileo satellites for NEO-M8N GPS units (@stronnag, #2583)
  • [CALIBRATION] Add API for Calibration tab in Configurator
  • [OSD] Allow OSD mode to disable OSD (@shellixyz, #2676)
  • [OSD] Increase odometer accuracy (@digitalentity, #2757)
  • [OSD] Add more battery-related indicators (including efficiency)
  • [LIGHTS] Add LIGHTS flight mode to enable/disable GPIO-driven equipment (@shellixyz, #2675)
  • [LAUNCH] Allow LAUNCH mode to ignore sticks for certain amount of time (@shellixyz, #2677)
  • [LAUNCH] Allow LAUNCH mode to be permanently enabled as FW_LAUNCH feature (@giacomo892, #2731)
  • [MSP] API to support smix/mmix configuration via Configurator (@DzikuVx, #2693)
  • [MSP] Add no-reply flag to allow MSP messages that don't need a response (@digitalentity, #2762)
  • [COMPASS] Enable QMC5883, MAG3110 and IST8310 on most of the targets (@digitalentity, #2699)
  • [AIRPLANE] Replace PASSTHROUGH with MANUAL flight mode (@shellixyz, #2661)
  • [BATTERY] Improve battery monitoring and resolution (@shellixyz, #2705)
  • [SYSTEM] Remove SoftSPI implementation since it's not used (@DzikuVx, #2726)
  • [SYSTEM] Allow in-flight adjustments of board alignment, cruise throttle and pitch2thr (@shellixyz, #2768)
  • [SYSTEM] Trace messages output for easier debugging (@digitalentity, #2691)

Bugfixes

WIKI TOPICS

Wiki Home Page

INAV Version Release Notes

7.1.0 Release Notes
7.0.0 Release Notes
6.0.0 Release Notes
5.1 Release notes
5.0.0 Release Notes
4.1.0 Release Notes
4.0.0 Release Notes
3.0.0 Release Notes
2.6.0 Release Notes
2.5.1 Release notes
2.5.0 Release Notes
2.4.0 Release Notes
2.3.0 Release Notes
2.2.1 Release Notes
2.2.0 Release Notes
2.1.0 Release Notes
2.0.0 Release Notes
1.9.1 Release notes
1.9.0 Release notes
1.8.0 Release notes
1.7.3 Release notes
Older Release Notes

QUICK START GUIDES

Getting started with iNav
Fixed Wing Guide
Howto: CC3D flight controller, minimOSD , telemetry and GPS for fixed wing
Howto: CC3D flight controller, minimOSD, GPS and LTM telemetry for fixed wing
INAV for BetaFlight users
launch mode
Multirotor guide
YouTube video guides
DevDocs Getting Started.md
DevDocs INAV_Fixed_Wing_Setup_Guide.pdf
DevDocs Safety.md

Connecting to INAV

Bluetooth setup to configure your flight controller
DevDocs Wireless Connections (BLE, TCP and UDP).md\

Flashing and Upgrading

Boards, Targets and PWM allocations
Upgrading from an older version of INAV to the current version
DevDocs Installation.md
DevDocs USB Flashing.md

Setup Tab
Live 3D Graphic & Pre-Arming Checks

Calibration Tab
Accelerometer, Compass, & Optic Flow Calibration

Alignment Tool Tab
Adjust mount angle of FC & Compass

Ports Tab
Map Devices to UART Serial Ports

Receiver Tab
Set protocol and channel mapping

Mixer

Mixer Tab
Custom mixes for exotic setups
DevDocs Mixer.md

Outputs

DevDocs ESC and servo outputs.md
DevDocs Servo.md

Modes

Modes
Navigation modes
Navigation Mode: Return to Home
DevDocs Controls.md
DevDocs INAV_Modes.pdf
DevDocs Navigation.md

Configuration

Sensor auto detect and hardware failure detection

Failsafe

Failsafe
DevDocs Failsafe.md

PID Tuning

PID Attenuation and scaling
Fixed Wing Tuning for INAV 3.0
Tune INAV PIFF controller for fixedwing
DevDocs Autotune - fixedwing.md
DevDocs INAV PID Controller.md
DevDocs INAV_Wing_Tuning_Masterclass.pdf
DevDocs PID tuning.md
DevDocs Profiles.md

GPS

GPS and Compass setup
GPS Failsafe and Glitch Protection

OSD and VTx

DevDocs Betaflight 4.3 compatible OSD.md
OSD custom messages
OSD Hud and ESP32 radars
DevDocs OSD.md
DevDocs VTx.md

LED Strip

DevDocs LedStrip.md

ADVANCED

Advanced Tuning

Fixed Wing Autolaunch
DevDocs INAV_Autolaunch.pdf

Programming

DevDocs Programming Framework.md

Adjustments

DevDocs Inflight Adjustments.md

Mission Control

iNavFlight Missions
DevDocs Safehomes.md

Tethered Logging

Log when FC is connected via USB

Blackbox

DevDocs Blackbox.md
INAV blackbox variables
DevDocs USB_Mass_Storage_(MSC)_mode.md

CLI

iNav CLI variables
DevDocs Cli.md
DevDocs Settings.md

VTOL

DevDocs MixerProfile.md
DevDocs VTOL.md

TROUBLESHOOTING

"Something" is disabled Reasons
Blinkenlights
Pixel OSD FAQs
TROUBLESHOOTING
Why do I have limited servo throw in my airplane

ADTL TOPICS, FEATURES, DEV INFO

AAT Automatic Antenna Tracker
Building custom firmware
Default values for different type of aircrafts
Features safe to add and remove to fit your needs.
Developer info
INAV MSP frames changelog
INAV Remote Management, Control and Telemetry
Lightweight Telemetry (LTM)
Making a new Virtualbox to make your own INAV
MSP Navigation Messages
MSP V2
OrangeRX LRS RX and OMNIBUS F4
Rate Dynamics
Target and Sensor support
UAV Interconnect Bus
Ublox 3.01 firmware and Galileo
DevDocs 1wire.md
DevDocs ADSB.md
DevDocs Battery.md
DevDocs Buzzer.md
DevDocs Channel forwarding.md
DevDocs Display.md
DevDocs Fixed Wing Landing.md
DevDocs GPS_fix_estimation.md
DevDocs LED pin PWM.md
DevDocs Lights.md
DevDocs OSD Joystick.md
DevDocs Servo Gimbal.md
DevDocs Temperature sensors.md

OLD LEGACY INFO

Supported boards
DevDocs Boards.md
Legacy Mixers
Legacy target ChebuzzF3
Legacy target Colibri RACE
Legacy target Motolab
Legacy target Omnibus F3
Legacy target Paris Air Hero 32
Legacy target Paris Air Hero 32 F3
Legacy target Sparky
Legacy target SPRacingF3
Legacy target SPRacingF3EVO
Legacy target SPRacingF3EVO_1SS
DevDocs Configuration.md
Request form new PRESET
DevDocs Introduction.md
Welcome to INAV, useful links and products
iNav Telemetry
DevDocs Rangefinder.md
DevDocs Rssi.md
DevDocs Runcam device.md
DevDocs Serial.md
DevDocs Telemetry.md
DevDocs Rx.md
DevDocs Spektrum bind.md

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