Utilising a next-generation CPU, the SP Racing F3 Flight Controller Integrate OSD Deluxe Version is engineered to deliver unmatched I/O capabilities in a compact and incredibly light form factor, together with fantastic flight performance based on tried-and-true sensors. customisable LED, broad RC receiver, sonar, I2C port, integrated OSD, buzzer, battery monitoring, etc.
With a next-generation CPU, the Deluxe F3 Flight Controller with OSD was created to deliver unmatched I/O capabilities in a compact and incredibly light form factor, all while giving exceptional flight performance based on tried-and-true sensors.
The difference between Acro and the Deluxe version is:
Acro: The typical model used in aerobatics and racing.
Deluxe: Extra direction and altitude sensors.
The integrated on-screen display is compatible with flight controllers running Cleanflight, Beta Flight, and Baseflight and operates on MWODS firmware. An external USB-TTL adapter (included) is used for the Flight controller and OSD configuration in the space-saving design.
With all the capabilities you need for a drone’s core functionality, the Deluxe F3 is ideal for aerial photography, FPV racing, and acrobatic flying.
characteristics:
Large-Capacity Flash
Two 8-pin JST-SH sockets (GPIO, ADC, PPM, PWM, Serial RX, 3V, 5V, GND)
One 4-pin JST-SH socket for troubleshooting SWD
One Five-Pin JST-SH socket (connect the CP2104 UART to the USB tool) for flash firmware and configuration.
Eight three-pin through-holes for pin headers connecting ESC and servo
four two-pin thru-holes for the I2C and 1x serial port pin headers
OSD feature, compatible with KVteam MWOSD firmware Features of OSD include RSSI, basic voltage, amps, and timer.
Complete support for OneShot ESCs for simple PID adjustment and more responsiveness
Specific I2C port for attaching an OLED display
voltage and current monitoring ports for batteries
Sonar assistance for accurate low-altitude holding
Buzzer port for notifications and cautions that sound audibly
symmetrical layout for incredibly neat wiring
Dedicated programmable LED output—ideal for racing, orientation, and night flying
Unbreakable bootloader, developer-friendly debugging port (SWD), and boot mode selection
Solder pads, JST-SH sockets, or pin headers can be used for wiring. Use straight or right-angled pinheaders.
For simple wind isolation, the barometer is positioned on the board’s bottom.
Up to two times faster loop times than earlier STM32F1-based boards
The flight controller can be configured using a cross-platform GUI on Windows, OS X, and Linux.
Supports eight 1 pin through-holes for pin headers for battery voltage/buzzer/video in/video out compromise I/O. Accommodates a wide range of drones, including aeroplanes, tricopters, quadcopters, hexacopters, octocopters, and more. All of the functions are always available for usage.
Supports receivers for SBus, SumH, SumD, XBus, PPM, and Spektrum 1024/2048. Inverters integrated in; no need for external ones
High-capacity on-board black box flight log recorder: maximise adjustment and view setup outcomes without guesswork
With a hardware floating point unit for effective flight computations and a faster ARM-Cortex M4 core, the STM32 F3 processor of the future generation
Stackable construction makes it ideal for power distribution board integration. 16 PWM I/O lines for older receivers, ESCs, and servos. Eight are accessible on typical pin headers. 8 via connectors on the side.
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