ER8G 2.4GHz ELRS PWM Receiver
Thank you for purchasing the Radiomaster ER8G ExpressLRS receiver.
The ER8G receiver is based on the revolutionary ExpressLRS system.
It offers high performance, high reliability, flexible
configuration, fast response speed, and ultra-long range. The ER8G
Receiver has the same functionality as the ER8GV only without a
built-in Vario for competitions that prohibit the use of Vario or
simply for users who do not need a vario on their receiver.
Important: 1. The recommended ELRS LUA settings on the
remote-control end are: – Standard servos: Packet Rate 100Hz Full
Telem Ratio Std (1:32) default if unsure Switch Mode 8ch –
Performance servos: Packet Rate 333Hz Full Telem Ratio Std (1:128)
Switch Mode 8ch 4. Please ensure that the power supply current of
the ESC BEC matches the power consumption requirements of the servo
used. If using high-voltage and high-torque servos, it is
recommended to use a 2S 7.4V battery for direct power supply or a
suitable high-current UBEC. 5. Calibration of the telemetry voltage
will be required on your radio. Navigate to the telemetry page on
your radio and locate the RxBt sensor. Edit the sensor settings and
adjust the offset until the displayed reading matches the actual
voltage of the battery in the model. If there is a large
difference, adjustment of the ratio may also be required. 6.
ExpressLRS Arming requirements and the use of Channel 5: CH5 is
required by ExpressLRS to set the Arm state of the RF module in
your radio. It is recommended to assign CH5 to a switch such as
your throttle cut switch as this will provide benefits such as
dynamic power. Using the ExpressLRS LUA or the Wifi WebUI, you can
assign different channels to the CH5 output of your receiver.
Please visit
[https://www.expresslrs.org/](https://www.expresslrs.org/) to learn
more about the importance of setting up arming. Product Features: –
Power supply: DC 3.5 – 8.4V – Antenna type: 20cm high sensitivity
antenna – Wireless protocol: ExpressLRS 3.2 pre-installed – Output
channel: 8CH PWM – Return power: maximum 100mw (LUA can be set) –
Battery voltage detection range: DC 4.0 – 35V – Weight: 12 grams –
Dimensions: 60*13.5*13mm – Firmware: Radiomaster 2.4Ghz – Device:
Radiomaster ER8G Now let’s move on to the product usage
instructions: 1. ELRS LUA Settings: – For standard servos, set the
Packet Rate to 100Hz Full Telem Ratio Std (1:32) and the Switch
Mode to 8ch. – For performance servos, set the Packet Rate to 333Hz
Full Telem Ratio Std (1:128) and the Switch Mode to 8ch. 2. Power
Supply and Servo Compatibility: – Make sure that the power supply
current of the ESC BEC matches the power consumption requirements
of the servo used. – If using high-voltage and high-torque servos,
it is recommended to use a 2S 7.4V battery for direct power supply
or a suitable high-current UBEC. 3. Telemetry Voltage Calibration:
– Navigate to the telemetry page on your radio and locate the RxBt
sensor. – Edit the sensor settings and adjust the offset until the
displayed reading matches the actual voltage of the battery in the
model. – If there is a large difference, adjustment of the ratio
may also be required. 4. ExpressLRS Arming and Channel 5: – Channel
5 (CH5) is required by ExpressLRS to set the Arm state of the RF
module in your radio. – It is recommended to assign CH5 to a
switch, such as your throttle cut switch, for benefits like dynamic
power. – Using the ExpressLRS LUA or the Wifi WebUI, you can assign
different channels to the CH5 output of your receiver. Please
follow these instructions carefully to ensure optimal usage of the
Radiomaster ER8G ExpressLRS receiver.
ER8G
Radiomaster ER8G ExpressLRS ER8G ExpressLRS ER8GER8GVVarioVariovario
2.EXT-V 35V 35V
1.ELRS LUA –
100Hz Full
Std (1:32)
8ch
– 333Hz Full
Std (1:128)
8ch
3.ER8GEXT-VPCBEXT-V EXT-VER8G
4.BEC2S 7.4V UBEC
5.RxBt Offset Ratio
6.ExpressLRS CH5 / CH5 ExpressLRS LUA Wifi WebUI CH5
https://www.expresslrs.org/
Radiomaster ER8G 8 ER8G 100mw ER8G varioER8G 1S Lipo
DC 3.5 – 8.4V 20cm ExpressLRS 3.2 8CH PWM 100mw (LUA ) DC 4.0 – 35V CRSF 12 60*13.5*13mm
Radiomaster 2.4Ghz Radiomaster ER8G
CH1
CH2
CH3
Battery
CH8
CH7
CH6
CH4
3.5-8.4V
CH5
BOOT EXT-V
RX TX
1.LED 10 2.ExpressLRS LUA[BIND] 3.
Binding phrase
1. ExpressLRS LUAWIFIWIFI ExpressLRSWIFITX WIFI WebUIExpressLRShttp://10.0.0.1/
2. 60LEDWIFI WIFITX WIFIWebUIExpressLRS http://10.0.0.1/
3 LED 3 10
WIFI WIFIExprersLRS TX WIFIexpresslrs URLhttp://10.0.0.1/
WIFI WIFIExprersLRS RX WIFIexpresslrs URLhttp://10.0.0.1/
ER8G
Thank you for purchasing the Radiomaster ER8G ExpressLRS receiver. The ER8G receiver is based on the revolutionary ExpressLRS system. It offers high performance, high reliability, flexible configuration, fast response speed and ultra-long range. The ER8G Receiver has the same functionality as the ER8GV only without a built in Vario for competitions that prohibit the use of Vario or simply for users who do not need a vario on their receiver.
Important:
1.The recommended ELRS LUA settings on the remote-control end are: – Standard servos:
Packet Rate 100Hz Full Telem Ratio Std (1:32)default if unsure Switch Mode 8ch
– Performance servos: Packet Rate 333Hz Full Telem Ratio Std (1:128) Switch Mode 8ch
2: The maximum input voltage for the EXT-V (external voltage input) telemetry reading is 35V. Do not exceed 35V or the receiver will be damaged. 3: The EXT-V (external voltage input) of the ER8G is accessed via the EXT-V solder pad on the PCB. A single wire must be soldered to this pad and connected to the positive wire of the battery or ESC. If no EXT-V power source is found, the ER8G will default to reading the voltage on the receiver pins, only one voltage input can be used at the any given time.
4: Please ensure that the power supply current of the ESC BEC matches the power consumption requirements of the servo used. If using high-voltage and high-torque servos, it is recommended to use a 2S 7.4V battery for direct power supply or a suitable high-current UBEC.
5: Calibration of the telemetry voltage will be required on your radio. Navigate to the telemetry page on your radio and locate the RxBt sensor. Edit the sensor settings and adjust the offset until the displayed reading matches the actual voltage of the battery in the model. If there is a large difference, adjustment of the ratio may also be required.
6: ExpressLRS Arming requirements and the use of Channel 5: CH5 is required by ExpressLRS to set the Arm state of the RF module in your radio. It is recommended to assign CH5 to a switch such as your throttle cut switch as this will provide benefits such as dynamic power. Using the ExpressLRS LUA or the Wifi WebUI, you can assign different channels to the CH5 output of your receiver. See example to the right:
Please visit https://www.expresslrs.org/ to learn more on the importance of setting up arming.
The Radiomaster ER8G receiver has been specially designed for glider pilots who require a compact and slim receiver. It can drive up to 8 servos and has built-in receiver voltage telemetry and flight battery telemetry with the ability to automatically detect which voltage input to use (only one voltage input can be used at the any given time). The ER8G features a dual-antenna with telemetry power up to 100mw. The ER8G receiver does not have a built-in altimeter for competitions that prohibit the use of vario. The ER8G can be used with a 1S Lipo receiver battery.
Product Features:
Power supply: DC 3.5 – 8.4V
CH1
Antenna type: 20cm high sensitivity antenna
Wireless protocol: ExpressLRS 3.2 pre-installed
Output channel: 8CH PWM
CH2
Return power: maximum 100mw (LUA can be
set)
Battery voltage detection range: DC 4.0 – 35V
Weight: 12 grams
CH3
Dimensions: 60*13.5*13mm
Firmware:
CH4
Device Category: Radiomaster 2.4Ghz
Device: Radiomaster ER8G
CH5
Battery
3.5-8.4V
CH8
CH7
CH6
BOOT EXT-V
RX TX
Binding method (Traditional):
1. The first time you power on your receiver, the LED will double blink. This indicates that the receiver is in bind mode. If this is not the case, hold down the boot button for 10 seconds to reset the receiver. 2. Open the ExpressLRS LUA on your remote controller and select [BIND], then confirm. 3. A successful bind is indicated by the light being a steady on, indicating that frequency binding was successful.
Binding method (Passphrase).
1. Open the ExpressLRS LUA and navigate to the Wifi Connectivity page. Select the Enable Wifi option and connect to your radios wifi with a mobile phone, tablet or PC (See TX Wifi notes below). Open the WebUI (Express LRS web page on http://10.0.0.1/) and choose a unique bind phrase. Note Bind phrases are not secret and can be read. Save and Reboot.
2. Power up the receiver and wait 60 seconds for the LED to blink rapidly to indicate Wifi mode. Connect your phone, tablet or PC to the receivers Wifi (See TX Wifi notes below). Open the WebUI (Express LRS web page on http://10.0.0.1/) and enter the matching bind phrase previously entered on your radio. Note Bind phrases are not secret and can be read. Save and Reboot. Once a radio and a receiver have the same bind phrase set they will automatically bind.
Note: To bind the receiver a second time or to another radio, power cycle the receiver 3 times. On the third power cycle, the LED will double blink indicating bind mode. If you cannot successfully enter bind mode with the 3 power cycle method, you can hold down the boot button for 10 seconds to reset the receiver to bind mode or use the passphrase method below. WARNING: All previous settings in the receiver will be erased and need to be set again when using the reset button.
TX Wifi notes
RX Wifi notes:
WiFi default network name: ExpressLRS TX WiFi default network name: ExpressLRS RX
WiFi default password: expresslrs
WiFi default password: expresslrs
Default URL: http://10.0.0.1/ (Open in browser) Default URL: http://10.0.0.1/ (Open in browser)
High-performance Open Source Radio Control Link - ExpressLRS
