Normal sized-30x30mm mounting
Regular Price: $44.99
Special Price $38.99
Flip32 OMNIBUS F4 Pro Corner has all the feature one would expect from the Omnibus line but add in a Build In power distribution board. All of the Pads needed are on the TOP side, no needed to flip the board over for installs. ESC32 Telemetry pads are also on the corners to support ESC telemetry! The Omnibus F4 Pro Corner flight controller uses the ICM20608 over SPI for the best possible flight performance. With onboard damping box, the ICM20608 runs perfect under 32k Gyro loop. If you haven't already seen it, you should check out Josh's awesome video on different IMUs. Also onboard are a barometer and AB7456 OSD chip for the BetaFlight integrated OSD.
Omnibus F4 Pro Corner supports 3-6s LIPO direct input, build in Current Sensor and Power Filter too.
All units flashed with stable BetaFlight 2.3.0. Take advantage of all the new features out of the box, Automatic Notch filter, turtle mode, Camera control, Increased motor output resolution, OSD improvements, and much , more
The on Board PDB is tweaked by using 12-Layer PCB design. There is only 0.2-0.5 mohm internal resistance from input to each output pads
- STM32 F405 MCU (Spi connected to Gyro)
- ICM20608 (the 6 axis SPI Gyrometer + Accelerometer)
- "Drag and Drop" OSD (configured over Betaflight UI)
- D-shot Support
- Build 12- layer level PDB
- Able tune your pids via transmitter/Video via SmartAudio
- SBUS/PPM + DSMX Ports
- 5v1.5a Clean Sbec /w On-Board Video Filter
- Built-in Current Sensor voltage + rssi + buzzer as pins
- Barometer (SPI Baro)
- OSD Configation has been incl. in Betaflight GUI.
- LIPO direct input (2-6S).
- 30x30mm mounting holes w/ M3 holes
Flip32 OMNIBUS F4 Pro Corner is a powerful F4 with a Switching power supply small 30x30 hole size with 3M sized holes can take direct 3S-4S power-in With Build in PDB. making the most compact stack possible . You can also attach A TBS Unify Pro HV or TBS Unify Pro HV Race Edition, or others to make changes to your VTX with SmartAudio through the OSD. (Band, Channel, power, PIT Mode)
Beware of the black clone. the PCB is not the same quality, and by cause restarts or other issues, and the gyro line is very noisy. we gave them a lead by getting comparing the worst case real one from the 10 clones we order to check the quality. They do not use the same amount of copper and the internal resistance is higher, and this matters.
- STM32 F405 MCU (Spi connected to Gyro)
*All unites now flashed with BetaFlight 3.1.7 and have support for D-shot ready to select from the Dropdown! D-shot Ready!
NOW SHIPPING V2! S-Bus and PPM on individual pins to make use of more Uarts , Improved BEC circuity,added copper, easier Inav support, and more....
Tons of features in one board with a wounder full layout. Flip F4 ; Flip32 F4 With the low noise Gyro, optimal gyro placement recommended , and not an overly super inventive gyro that will require chasing down the PID tune, Hard mounting in most cases will not hurt performance. A small portions of sales go back to the beta flight program to keep on pushing more features forward.
- -Uses the cc3d revolution Target vanilla default. -updated instantaneously with new releases.
- Stable SPI MPU-6000 Gyro
- D- Shot support and Flashed with D-ready firmware
- All through hole pin header Design -no Sh connectors
- direct Lipo input :1.5A Built-in onboard regulator - NO BEC needed. connect direct to a Lipo to power the board and Rx.
- RaceFlight or Betaflight support on an STM32 F3 with a SPI based MPU6000 gyro - low noise gyro will not force one to soft-mount the fc
- Boot - DFU button . ready to be Pressed
- Blackbox support - Max 16mb for data logging
- SBUS/PPM input (Pinheaders) . 6PWM output (Pinheaders)
- Spektrum satellite port for direct connection - setup radio via USB power, woot woot!
- STM32 F405 MCU
- LED strip Port
- Buzzer Port (v2 buzzer port. working great in BF)
- Flashed tested and Ready to Fly after setup
- Only 36x36mm, mount holes 30.5x30.5mm
- UART1 has three input: 1. DSM2 socket, it is no inverter, 2.pinheaders called UART TX RX, it is no inverter 3. Pinheaders called SBUS, it has inverter
Works Perfect with RACEFLIGHT - PRE LOADED WITH RACEFIGHT.
Download firmware here : http://raceflight.net/beta/REVO_BB330_FULL.bin
Newest Latest RaceFlight Configurator ( do not use one from chome web store, it is out of date : http://raceflight.net/rfc/cfgrf.crx
*here Boards are shipped BetaFlight with buzzer fixed, Buzzer is working out of the box from default port*
*RaceFlight please connect Buzzer to labeled "RSSI" port. These port are swapped in the firmware, but are working . Buzzer should be connected to Rssi Port, no code changed need, the printing on the board from the RF and BF are not the same.
RaceFlight has the standard modes, Arm, Angle, Horizon, Beeper, and Failsafe. There are other modes though that really help drive performance. Some modes have sweet names like Skitzo and BrainDrain (yes these modes are named after the pilots). There are also modes that are named for what they are. Below is a full list of modes minus the standards modes already mentioned.
Pro Smooth modes, BrainDrain, Skitzo, Landing, Delete Flash, LED On, LED Change Program, LED Change Color, BlackBox
some of the modes are self explanatory, like Delete Flash, BlackBox, Landing, etc. We’re going to focus on the 3 modes that help drive performance; Pro Smooth mode, BrainDrain mode, and Skitzo mode.
Skitzo Mode – Skitzo mode is unique. It essentially increases the resolution of your stick inputs into the flight controller. With Skitzo mode enabled, this resolution increase is supposed to be unlimited. This translates to smoother flight in air and allows you to make finer in flight adjustments. Leave it on all the time, it feels amazing!
BrainDrain Mode – BrainDrain mode gives you a sharper stick feel. This isn’t the same as resolutions though. This translates more towards your rates responsiveness. It’s really good for racing when you need that super sharp stick feel on the sharp 180s for example. Having this enabled is great, but it may require some additional tuning. This is because with the sharpness increase, prop-wash can be more noticeable.
Pro Smooth Mode – Pro smooth mode smooths your transitions. It’s most useful when you’re trying to get that absolutely stunning video of your freestyle flight. When you make stick transitions, pro smooth literally smooths them out so they’re not as jerky. You can really notice it when watching the HD video as it just makes things look smooth. You can use this in case you’re not as smooth on the sticks as Skitzo.
RaceFlight also has some cool built in witchcraftfeatures that you can take advantage of and tweak! One such feature is called “witchcraft.” Witchcraft smooths Kd over time. Kd is Derivative in your PID controller. This helps take care of bad data and smooths the data over the course of tiny milliseconds. It comes set to a default of 16 right now, but 32 is a good number to get you started It’s something you can play and tweak to your liking.
Raceflight is a latest flight controller firmware. By taking advantage of the processing power of F4 flight controllers, it’s able to run at 8kHz and brings the looptime down to 125 (uS). MultiShot ESC protocol which is 10 times faster than Oneshot125, 80 times faster than standard PWM signal
Works Perfect with RACEFLIGHT - PRE LOADED WITH RACEFIGHT Or BetaFlight 3.0!
Uses the same target and feature of the CC3D OpenPilot revolution but with more feature.
~ The OpenPilot Revolution board, also called 'Revo', is a new breed of Autopilot using the STM32F4 series, 210MIPS ARM Micro-controller. It contains a hardware floating point unit (FPU)which is a huge advancement for hobby-class autopilots. OpenPilot has been 32bit since day one, and the FPU is another step up the performance ladder. The FPU allows precise, low-latency processing of real-life measurements using advanced attitude estimation algorithms.
The Revolution is a flight control computer with autopilot, intended for multirotors, helicopters and fixed wings. It is a 6DOF with gyroscope/accelerometer only, no magnetometer and no pressure sensors and no radio link.
-Flexi-IO Port: JST-SH 10-pin. The receiver port can act as an input or output port depending on the configuration which is set in the Hardware Settings. Configuring the receiver port as an output port allows the user to assign more output channels then the 6 standard servo outputs.Learn More
-MainPort: JST-SH 4-pin. This is a serial USART whose baud rate can be adjusted through the GCS. Optionally, Futaba S.Bus receiver, Spektrum/JR satellite receiver or GPS can be mapped to the MainPort. Default configuration is Telemetry for connecting an RF modem.
-FlexiPort: JST-SH 4-pin. The function of this port also depends on the configuration and can be configured for I2C or Serial. The default configuration doesn't use this port, but it can be used for Telemetry, GPS, Spektrum satellite receivers (all working), and other I2C peripherals (under development).
-RF Socket: Antenna connection socket for on-board OPLink modem.
-Pwr Sen/Sonar Port: JST-SH 4-pin. This port can be configured to accommodate an Autopilot current sensor and a low cost Sonar sensor such as the HC-SR04. It can also be used as a general purpose input/output port or as a one or two channel analog input port.