MXL RX62E-S Futaba SFHSS Receiver Instruction Manual

1. Producte acabatview

The MXL-RX62E-X V3.1 series receivers are advanced units based on the MXL-RX62H-X V3.0, featuring an integrated 5A/1S brushless Electronic Speed Controller (ESC). Despite this integration, the board remains compact, making it suitable for micro model airplanes. These receivers offer brushless flight capabilities and some versions include a TELEM (telemetry) function for real-time monitoring. Receivers marked with 'G' include the SR3X 3-axis stabilization function.

Contingut del paquet:

One RX62E-S or RX62E-S-G Futaba SFHSS compatible receiver.
One soldered 2.0mm 3P connector.
One unsolderd 2.0mm 3P plug.
Related heat shrink tubes.

MXL RX62E-S receiver held in hand, showing its compact size. — The MXL RX62E-S receiver, demonstrating its small form factor.

MXL RX62E-S receiver on a digital scale, displaying a weight of 4.2 grams. — The receiver weighs approximately 4.2 grams including the power cable.

2. Especificacions

Característica	Especificació
Dimensions	24.3 x 32.2 x 7.8 mm (sense incloure l'antena)
Pes	4.28g (including power cable)
Voltage	3.0V ~ 5.0V
Boosting Power	DCDC-5V/1A
ESC integrat	5A / 1S ESC sense escombretes
Estabilització	SR3X 3-axis (Off, Low Sensitivity, High Sensitivity modes) - for 'G' versions
Telemetry (TELEM)	Supported on Version D and F2
Enquadernació	Auto binding function
Firmware	Online firmware updating supported
Configuració	GUI setup supported
Material	Material compost
Certificació	CE

3. Configuració

3.1 Connexions

The receiver features a 1.25mm 2P power connector and a 2.0mm 3P motor connector. Ensure all connections are secure before operation.

Diagram showing the 1.25mm 2P power connector and 2.0mm 3P motor connector (male and female) on the MXL-RX62E-S Futaba S-FHSS receiver. — Connector types and locations on the MXL-RX62E-S receiver.

Wiring diagram for the MXL-RX62E-S receiver, illustrating connections for a 1S Lipo Battery, BLDC motor, and control ports (THR/ESC, AIL/AUX1, RUD, ELE, M.BUS). — Detailed wiring diagram for the receiver, showing battery, motor, and servo connections.

Wiring diagram showing connections for Aileron, Rudder, Brushless motor, Elevator, and a 1S 3.7V battery on the receiver board. — Alternative wiring diagram highlighting control surfaces and power input.

3.2 Auto Binding Operation

To simplify the binding process, especially when the receiver is installed within a fuselage, an auto-binding function is included. If the receiver is powered on for 15 seconds without detecting a signal, it will automatically enter auto-binding mode (indicated by a slow flashing LED turning into a fast blink). Follow your transmitter's instructions to complete the binding process.

3.3 GUI Setup and Firmware Updating

The receiver supports configuration and firmware updates via a Graphical User Interface (GUI) software. You will need a USB programmer (e.g., USB MX-PG02) to connect the receiver to your PC.

Download the GUI software from: update.crossover-rx.com/mxo.zip
Connect the USB programmer to the M-BUS port on the receiver. Ensure the switch on the programmer is set to the 'l' position for MXL-RX62E-X-G.
Connect the USB programmer to your PC.
Open the GUI software and select the correct COM port.
Click "Connect". The software will upload the receiver's functional modules and display current settings.

Parameter Setup (using CrossOver-RX Tool software):

Airplane Type Setup:
- Normal: Standard layout for airplanes.
- Single Power Wing-Normal: For single power wings using same-phase servos (e.g., linear servos).
- Single Power Wing-Reverse: For single power wings using reverse-phase servos (e.g., rotation servos).
- V-Tail-Normal: For single power V-tail planes using same-phase servos.
- V-Tail-Reverse: For single power V-tail planes using reverse-phase servos.
Servos Cycle: Adjust the output signal cycle of the servo (range 10-22ms). If servos overheat or shake, increase the range or use digital servos.
M-BUS.TX: Configure the output signal of the M-BUS.TX port.
- SBUS: M-BUS.TX outputs SBUS signal.
- SERVO: M-BUS.TX outputs PWM servo signal.
Output Channel Setup: For M-BUS.TX and other ports, you can set output channels to 'Normal' (normal output) or 'Reverse' (reversed output).

Screenshot of the GUI software interface for M-BUS.TX setup, showing options for SBUS and SERVO output. — GUI software interface for M-BUS.TX configuration.

Screenshot of the GUI software interface for PORTX setup, showing options for Normal and Reverse output channels. — GUI software interface for PORTX output channel configuration.

4. Instruccions de funcionament

4.1 SR3X 3-Axis Stabilization (for 'G' versions)

The SR3X 3-axis function provides flight stabilization with three working modes: Off, Low Sensitivity, and High Sensitivity. This feature helps in maintaining stable flight, especially for micro models.

Close-up of the receiver board with an arrow pointing to the 3-Axis gyro chip. — Location of the 3-Axis gyro chip on the receiver board.

Comparison image showing two receiver boards, one labeled 'Without SR3X 3-axis' and the other 'With SR3X 3-axis', highlighting the presence or absence of the gyro chip. — Visual comparison of receivers with and without SR3X 3-axis stabilization.

Video demonstrating the SR3X 3-axis function and motor operation with the receiver.

4.2 TELEM Function (for Version D and F2)

The TELEM (telemetry) function allows real-time monitoring of critical parameters such as battery voltage, receiver working voltage, signal strength, and working temperature. This helps users keep track of the receiver's status and battery discharge, reducing the risk of flying out of control range or over-discharging the battery.

Note: The effective control range of the TELEM function depends on the transmitter. It is normal for the receiver's working range to exceed the TELEM function's effective range.

4.3 M-BUS Port Functionality

The M-BUS port is a versatile interface on the receiver, serving multiple purposes:

Firmware updating and function setup (as described in Section 3.3).
CH5 signal output.
SBUS signal output.
Connection point for future external sensors (under development).

5. Manteniment

5.1 actualitzacions de microprogramari

Keep your receiver's firmware up-to-date to ensure optimal performance and access to new features. Firmware updates can be performed online using the GUI software and a USB programmer as detailed in Section 3.3.

5.2 Atenció general

Mantingueu el receptor net i lliure de pols i deixalles.
Avoid exposing the receiver to moisture or extreme temperatures.
Manipuleu amb cura per evitar danys als components electrònics delicats.

6. Solució De Problemes

6.1 Problemes d'enquadernació

If the receiver fails to bind, ensure your transmitter is in the correct binding mode and that the receiver has entered auto-binding mode (fast blinking LED) after 15 seconds of power-on without a signal. Refer to your transmitter's manual for specific binding procedures.

6.2 Servo Overheating or Shaking

If your servos are overheating or exhibiting erratic movements, adjust the 'Servos Cycle' parameter in the GUI software. Increasing the signal cycle range or switching to digital servos may resolve the issue.

6.3 Telemetry Range Limitations

Be aware that the effective range of the TELEM function might be shorter than the receiver's control range. This is normal and does not indicate a fault with the receiver. Always maintain visual contact with your model.

7. Consells d'usuari

Always perform a range check before flying, especially after any changes to your setup.
Ensure all wiring is neatly routed and secured to prevent interference or accidental disconnections during flight.
For optimal performance of the SR3X 3-axis stabilization, ensure the receiver is mounted securely and oriented correctly within your model.
Regularly check for firmware updates to benefit from improvements and new features.

8. Suport

For further assistance, technical support, or inquiries regarding your MXL RX62E-S receiver, please refer to the official product page or contact the manufacturer/seller directly. The GUI software download link is provided in Section 3.3 for configuration and firmware updates.

MXL RX62E-S