Antenna connector: IPEX MHF 1
5x PWM outputs
RF Frequency: 2.4GHz (2400~2480MHz)
Telemetry power: 12dbm
Receiver protocol: PWM or CRSF
Input voltage: 4~10V DC @ “5” pad as VCC
Power dissipation: 45mA(binding), 85mA(wifi mode)
PCB size: 25mm x 13mm
Weight: 2g w/ antenna
ExpressLRS MATEK_2400_RX_PWM, or DIY_2400_RX_PWMP, PWM receiver via 1~5 PWM outputs, 4x full resolution channels(CH1-4),1x switch channels(CH5 as AUX1)
ExpressLRS JHEMCU EP24S 2400 RX, CRSF Serial receiver via TX (CH2)and RX(CH3)
Firmware update via UART or WIFI
Make sure Receiver and TX module both are running ExpressLRS 2.0
Receivers have ExpressLRS fw V2.0 preloaded without BINDING_PHRASE
1.Power on and off your receiver three times(After brushing the firmware, the first power on will automatically enter binding mode)
2.Make sure the LED is doing a quick double blink, which indicates the receiver is in bind mode
3.Use the [BIND] button on the Transmitter Lua script, which sends out a binding pulse
4.Receiver will switch to slow blink once it has received binding pulse.
5.Power off and power on receiver again. If the receiver LED switch to solid on from slow blink, it’s bound with your transmitter.
Flashing with ELRS configurator
MATEK_2400_RX_PWM or DIY_2400_RX_PWMP
If use it as normal Serial receiver, flash it with Target JHEMCU EP24S 2400 RX
Flashing with ESP_NodeMCU-PyFlasher
1.Connect receiver to USB-TTL module(RX-TX, TX-RX, 5V-5V, G-GND)
2.Connect USB to PC while pressing and holding the boot button in.
4.select Serial port of USB-TTL module, load bin firmware , select “Dual Output(DOUT)” and “Yes.wipes all data“
5.click “Flash NodeMCU“
6.after flashing, Power off and power on your receiver, receiver will enter binding mode(quick double blink).
1x ELRS-2G4-P PWM Mini RC Receiver
1x IPEX MHF1 Antennas
1x X5P 2.54row needle