RF435K HAKRC 20x20mm F411 35A AIO 3-6S Flight Controller ESC Compatible with DJI Air Unit or Vista or FPV RC Drone
RF435K HAKRC 20x20mm F411 35A AIO 3-6S Flight Controller ESC Compatible with DJI Air Unit or Vista or FPV RC Drone
RF435K HAKRC 20x20mm F411 35A AIO 3-6S Flight Controller ESC Compatible with DJI Air Unit or Vista or FPV RC Drone
RF435K HAKRC 20x20mm F411 35A AIO 3-6S Flight Controller ESC Compatible with DJI Air Unit or Vista or FPV RC Drone
RF435K HAKRC 20x20mm F411 35A AIO 3-6S Flight Controller ESC Compatible with DJI Air Unit or Vista or FPV RC Drone
RF435K HAKRC 20x20mm F411 35A AIO 3-6S Flight Controller ESC Compatible with DJI Air Unit or Vista or FPV RC Drone

RF435K HAKRC 20x20mm F411 35A AIO 3-6S Flight Controller ESC Compatible with DJI Air Unit or Vista or FPV RC Drone

Regular price $66.99 Sale price $79.99 Unit price per
RF435K HAKRC 20x20mm F411 35A AIO 3-6S Flight Controller ESC Compatible with DJI Air Unit or Vista or FPV RC Drone

Feature:
-The PCB adopts 2oz thick 6-layer high-end copper layer, which has stronger over-current capacity and good heat dissipation.
-High current resistance of 30V, long service life and high load capacity.
-Using industrial grade LDO, high temperature resistance.
-Using high-quality Japanese Murata capacitors, strong filtering performance
-Size: 39.5x31.5mm (20x20mm mounting hole)
-Net Weight: 10g

Flight control parameters:
CPU: STM32F411CEU6
IMU: MPU6000
OSD: AT7456E
Barometer: BMP280
Blackbox: 16M
LED: supports WS2812 and other programmable
Sensor: built-in current sensor
Firmware version: betaflight_MATEKF411
Receiver: Frsky / Futaba / Flysky / TBS Crossfire / DSMX: DSM2 Receiver

ESC parameters:
Firmware support: BLHELI_ S
Protocol support: PWM, Oneshot125, Oneshot42, Multishot, Dshot150, Dshot300, Dshot600
Input voltage: 3-6S Lipo
Continuous current: 35A
Peak current: 40A(5 seconds)
Firmware version: BLHELI _S (C- H-30)

- There are many integrated functions of flight control, and the components are very dense. During installation, please do not use tools (such as needle-nose pliers or sockets) to tighten the nuts, which may easily scratch the fly tower hardware and cause unnecessary losses. The correct method is to press the nut with your finger, and the screwdriver can quickly tighten the screw from the bottom. (Remember not to be too tight, so as not to damage the PCB)

- Do not install the propeller when installing and debugging the flight control, try not to test flight indoors, so as not to cause a safety accident. Before installing the propeller for the flight test, please check the motor steering and propeller direction again. Safety Tips: Please do not fly near the crowd. Our company will not be responsible for any loss caused by the crash of the aircraft.
Do not use non-original aluminum columns or nylon columns to avoid damaging the flight control hardware. The official standard is a custom-sized nylon column to fit the flying tower.

- Before the aircraft is powered on, please check whether the installation between the fly towers is correct (pins or cables must be aligned and installed), and then check whether the positive and negative electrodes of the welding are correct and whether the motor screws are against the motor stator to avoid short circuit.

- Check whether there is any solder that is thrown out on the electronic original of the flying tower, which may cause a short circuit. If the short circuit occurs during the installation of welding, the buyer is responsible for it.

Fill in the following FORM or send email to support@hbfpv.com directly

 

 


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