The Flip32 Omnibus flight controller uses the MPU6000 over SPI for the best possible flight performance. Along with the MPU6000 are a and an AB7456 OSD chip (an upgraded MAX7456) for the BetaFlight integrated OSD. You won't need a PDB with this build because there is a high performance 5v, 1.5a STMicrocontroller L78 voltage regulator, so you can plug the flight battery right into the flight controller.The Flip32 Omnibus flight controller the first F4 Flight controller with a MAX7456 OSD chip directly connected to the flight controller, so it can be configured from the BetaFlight configurator. A new generation AIO Flight control for FPV. Based on the F403 MCU and uses F4 MCU controls for OSD over SPI bus in DMA mode.
The Flip 32 OmnibusF4 flight controller is an integrated flight controller and OSD specifically designed for ease of use and outstanding flight performance. The MPU6000 inertial motion sensor was chosen for it's high reliability, accuracy and update speed. This board has no problem running fast loop times and ESC protocols. There is an onboard for altitude sensing along with an On Screen Display (OSD) chip directly connected to the main processor (MCU). This tight integration between the MCU and the OSD enables fast updates to the display and easy configuration of the OSD, which is managed straight from the BetaFlight configuration tool. You no longer need to worry about the extra hassle of configuring your OSD with a USB/UART adapter and 3rd party configuration tool, it's all built into the flight control software.
The Flip 32 OmnibusF4 was designed to work specifically with BorisB's amazing BetaFlight firmware. Boris is a control system expert and has implemented his own "ISA-PID compensator" based PID controller, called the BetaFlight PIDc, that gives an almost-predictive control for that super locked-in stick feeling. Download the BetaFlight configurator to flash and configure your quadcopter here: https://chrome.google.com/webstore/detail/betaflight-configurator/kdaghagfopacdngbohiknlhcocjccjao
Finally, for maximum ease of use, the Flip 32 OmnibusF4 has an onboard voltage regulator that can easily handle up to a 5s battery. No need to mess with a PDB, just plug your battery straight into the flight controller and you're ready to go! Along with the robustly engineered power management system on the OmnibusF4, special precautions have been taken to ensure that the sensitive OSD chip is well protected, so you don't have to worry about any problems with your OSD. even on 5s!
- STM32 F403 MCU, Runs Betaflight 3.1 firmware
- SBUS/PPM input (Pinheaders)
- 8PWM output (1-4Pinheaders and Sh1.0 Plug, 5-6 as Pinheaders)
- Only 36x36mm, mount holes 30.5x30.5mm
- SD card Black box
- IR Pins for race timing transponder
- SPI Sensor MPU6000
- 128Mb Flash memory
2-4S Lipo Direct power
To power the board you have two options. Either connect battery directly to BAT/GND or supply 5V on one of the ESCs connections. However you obviously want to have voltage display in your OSD so just connect BAT/GND to your LiPo (up to 4S).
To power your VTX and camera you have even more options. Out of the box RAM is not connected to anything. That leaves you with following alternatives.
1.Short RAM and VBAT to get LiPo voltage. This would be unfiltered and could cause video noise.
2. Short RAM and 5V to get filtered 5V from the board. This would provide clean video but 5V is probably enough for most VTX on the market.
This board works best with BetaFlight software, which has a focus on flight performance but is still relatively similar to cleanflight. The GUI is a chrome app which can be downloaded here
This guide will not cover the fundamentals of using betaflight as that can be found in the official Betaflight Wiki
To update the firmware within betaflight you simply need to select the target to be
OMNIBUS, more details on using DFU mode for flashing the firmware is detailed later in this guide
The Omnibus F4 has a 3 position jumper (next to UART1 pins) that is used to select the power source for the board. You can either power it like most other flight controllers, via a 5V supply. Alternatively you can power it directly via your battery supply (up to 4S Lipo only, usualy 12V or 14V).
see picture( Powering via Lipo Powering via 5V on ESC rail
Flashing firmware and Zadig Drivers
In order to select the Omnibus target within betaflight you might need to select the option to show unstable releases if the omnibus is not shown on the target list for now. And you will also need to flash in DFU mode which is discussed below.
If using windows 10, you will need to flash the board in DFU mode, and to do this you will need to use a program called Zadig which is used to install generic USB drivers so you can talk to the board. You can download Zadig here
Once installed, open Zadig and select the STM32 Bootloader, and WinUSB as the driver to install the correct driver for the board as shown below
Configuring the OSD
One of the best things about the Betaflight GUI, is the ability to configure your OSD board directly within the software. Now you dont need to care about messing around with MW OSD GUI. Also what is even better is that the latest OSD firmware is included with each betaflight update so you dont need to use arduino IDE anymore to flash new OSD firmware.USB DRIVER
This board will be officially supported in Betaflight 3.1.0. Currently it comes with a custom Betaflight version, provided by RTFQ. Use the following releases.
To flash the firmware you have to enter the so called DFU mode. On Windows 10 I had to use a tool called Zadig (download and start it) to be able to switch drivers for DFU mode to work. In order to switch drivers you have to take the following steps.
ZADIG I ZADIG II
Push BOOT button on the flight controller.
Plug-in the USB cable (the red LED should not be as bright as normally).
Fire up Zadig and hit “Options” and then “List All Devices”.
From the list choose “STM32 BOOTLOADER”.
Under “Driver” choose “WinUSB” on the right and hit “Reinstall Driver”.
Close Zadig, disconnect the flight controller, close all Google Chrome instances.
Betaflight now has its own UI so don’t use the Cleanflight configurator anymore.
In order to flash Betaflight you have to press the BOOT button and connect the flight controller via USB. You should be able to see “DFU” instead of COM ports in the pull down menu now. The steps to flash a hex file are now straightforward.
Hit “Load Firmware”.
Choose the hex file.
Hit “Flash Firmware”.
Watch the Betaflight UI flashing your swifty flight controller.
One of the most convenient features of this board is setting up OSD via Betaflight. Just forget about MW OSD or MW OSD GUI. Newest OSD releases will be included in the Betaflight firmware so you don’t have to worry about getting newest ScarabOSD from GitHub and compiling and uploading it with the Arduino development environment to the board.
The Omnibus flight controller uses the MPU6000 over SPI for the best possible flight performance. If you haven't already seen it, you should checkout Josh's awesome video on different IMUs. Along with the MPU6000 are a and an AB7456 OSD chip (an upgraded MAX7456) for the BetaFlight integrated OSD.
The Omnibus has an SD card reader! Flash memory for blackbox logging and uses the much faster VCP USB link, so it takes minutes instead of hours to copy your blackbox logs off the flight controller.