YRRC Micro 12V Remote Controlled Switch Relay 3A BEC UBEC 4S-6S
£4.90 Inc. VAT
This micro 12V BEC is both a voltage regulator and remote controlled relay, compatible with the BetaFlight PINIO function.
In stock|Next shipping: 16/03/2026
This micro BEC is both a voltage regulator and remote controlled relay. It is useful for powering FPV video transmitters or 12V LED strips, allowing you to remotely turn these device on and off.
As a voltage regulator it accepts an input voltage of 14-26V (4-6S LiPo) and outputs 12V at 3amps.
To output the voltage, this BEC has to be controlled. Connect the pad marked COM to any TX/RX/LED output port on your flight controller. Activating this output when connected to the module will switch the output to ON. Essentially the COM port works by receiving a 5V power input, this provides the ON signal to turn the BEC on.
NOTE: This Bec is ON/OFF switchable and has to be wired using PINIO function on BetaFlight flight controllers (5V) to be switched on.
CLI command example:
resource SERIAL_TX 2 none
resource PINIO 1 C12
set pinio_box =40,255,255,255
set pinio_config =1,129,129,129
save
Given that you’re connecting to the TX2 pad and its resource is C12
Then assign RC channel to USER1 mode in Modes Tab
- Input voltage: 4-6S (14-26V)
- Output voltage: 12V
- Max. current: 3A
- Size: 12x15mm
Included:
- 1x Mini 12V 3A Remote Switch Relay Module
Questions and answers of the customers
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I've just bought a coupler off these remote controlled BECs. I get putting 5v on the COM port to enable the 12v output, but two questions. 1. Do you need to connect the COM output to anything, or is that simply there in case you need to use that same signal for something other than switching power on the BEC? 2. Does the large rectangular pad above the YRRC logo do anything or need connecting to anything? Thanks.
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Q I've just bought a coupler off these remote controlled BECs. I get putting 5v on the COM port to ...... Read more answer nowA
No — COM is only the control input.
- The module turns the 12V output ON when it sees about 5 V on COM (relative to GND).
- You normally connect COM → FC output pin (PINIO, LED, TX, etc.) and GND → FC GND.
- The module does not output anything on COM — it’s not a signal pass-through or secondary output.
So:
✔ COM connected to a controllable 5 V signal = ON
✖ COM disconnected or LOW = OFFYou only use it again elsewhere if you purposely want to split that same signal yourself — the board doesn’t require it.
Large rectangular pad above the YRRC logo:
That pad is just a PCB test / solder pad used during manufacturing. It is not an electrical connection you need to use. These pads are often used for factory testing or programming during production.
Can this UBEC be used with any flight controller, other than BetaFlight?
-
A
Hi, it would be used with lots of control boards, it doesn't have to be BetaFlight. The BEC turns on when 5V power is supplied to the COM pad, so you can even wire it without a control board. Lots of controllers for example Arduino provide a "High" signal output using 5V.
Learn about voltage regulation: Supplying your electrical components with the correct voltage is crucial for their operation. LiPo battery cells are rated at 3.7 volts per cell, therefore a range of voltages are available, leading from 3.7v (1S) to 44.4v (12S). A 3 cell 11.1v pack is widely employed as it provides a handy voltage for many electronics without the need to regulate. However, more powerful multirotors require LiPos with greater voltages; 6S (22.2v) is common for octocopters, thus voltage regulation is necessary to supply power to auxiliary components, such as the: receiver, flight controller, camera, transmitter and lights etc.
There are two types of regulators, linear and switching. A linear regulator works by taking the difference between the input and output voltages, and just burning it up as waste heat. The larger the difference between the input and output voltage, the more heat produced. This is the reason why linear regulators are usually only compatible with up to 3S LiPos. Linear regulators typically operate with efficiencies of 40%, reaching as low as 14%. On the other hand, switching regulators are far more efficient. They work by storing pulses of energy taken from the battery in a capacitor and then releasing it. This is accomplished with the help of an electrical switch and a controller, which regulates the rate at which energy is transferred to the output (hence the term “switching regulator”). The energy losses involved in moving chunks of energy around in this way are relatively small, and the result is that a switching regulator can typically have 85% efficiency. Since their efficiency is less dependent on input voltage, they are compatible with higher voltage LiPos. While they are preferable to linear regulators you should consider their placement within the UAV carefully, as in some cases the switching noise can cause interference with the receiver.
Within a multirotor context, the term “BEC” (Battery Eliminator Circuit) is exchangeable with voltage regulator. The use of a BEC negates the traditional need for a separate battery to power you flight auxiliaries, for example a receiver. Most speed controllers (Not OPTO ESCs) incorporate an internal 5v linear BEC, so that simply plugging the ESC into the receiver is all you need to supply power to it. However, as mentioned above they only work well under low loads and at low voltages. For higher voltage/current applications it is recommended to use a stand-alone SBEC – that way you reduce the risk of a brownout (a term used to describe the temporary loss of function of the radio receiver due to the supply voltage dropping too low). Confusion often surrounds the difference between a UBEC and an SBEC, however they are both the same thing – a switching voltage regulator. “UBEC” was once a specific brand name for one of the original switching BECs, so the more correct generic term is actually SBEC.
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