FlySky FTr12B 12-Channel Receiver Instruction Manual

1. Entwodiksyon

The FlySky FTr12B is a high-performance 12-channel receiver designed for remote control applications, including drones and fixed-wing aircraft. It utilizes the advanced AFHDS 3 (3rd Generation) protocol, offering reliable 2-way communication and enhanced signal stability through its dual antenna system. This receiver provides versatile output options including PWM, PPM, i.Bus, and S.Bus, ensuring compatibility with a wide range of flight controllers and servos.

This manual provides essential information for the proper setup, operation, and maintenance of your FTr12B receiver.

2. Espesifikasyon

3. Enstalasyon

3.1 Reseptè souview

Familiarize yourself with the receiver's components and ports.

Figi 1: Top-desann view of the FTr12B receiver, showing the main unit and its two external antennas. The antennas are connected via thin wires and are designed for optimal signal reception.

Figi 2: Close-up of the FTr12B receiver's multiple port pins, used for connecting servos, flight controllers, and power. These ports support various output protocols including PWM, PPM, i.Bus, and S.Bus.

3.2 Pwosedi obligatwa

To establish communication between your FTr12B receiver and a compatible FlySky transmitter (AFHDS 3 protocol), follow these steps:

1. Ensure your transmitter is powered off.
2. Connect the binding plug (not included, typically a jumper wire) to the BIND port on the FTr12B receiver.
3. Apply power to the receiver (3.5-9V). The receiver's LED indicator should flash rapidly, indicating it is in binding mode.
4. Power on your FlySky AFHDS 3 compatible transmitter and navigate to the binding menu.
5. Initiate the binding process on the transmitter.
6. Once binding is successful, the receiver's LED will turn solid.
7. Disconnect power from the receiver, remove the binding plug, and then reconnect power. The receiver should now be bound to your transmitter.

Nòt: Refer to your specific FlySky transmitter's manual for detailed binding instructions, as procedures may vary slightly.

3.3 Plasman Antèn

Proper antenna placement is crucial for optimal signal reception and range. The FTr12B features dual antennas. Follow these guidelines:

• Mount the antennas at a 90-degree angle to each other to ensure diverse signal reception regardless of aircraft orientation.
• Keep antennas away from carbon fiber, metal parts, motors, ESCs, and other electronic components that can shield or interfere with the signal.
• Ensure the active part of the antenna (the last 31mm of the coaxial cable, without the outer insulation) is exposed and not bent sharply.
• Secure the antennas firmly to prevent movement during flight, using antenna tubes or appropriate mounting solutions.

Figi 3: The FTr12B receiver with its dual antennas. Proper orientation and separation of these antennas are vital for maintaining a strong and reliable radio link.

3.4 Output Configuration (PWM/PPM/i.Bus/S.Bus)

The FTr12B supports multiple output protocols. The specific configuration method depends on your flight controller and transmitter settings. Generally, the output mode is selected via the transmitter's system menu or automatically detected by the flight controller.

• PWM (Pulse Width Modulation): Each channel has a dedicated pin. Connect servos or ESCs directly to the corresponding PWM pins.
• PPM (Pulse Position Modulation): All channels are multiplexed onto a single pin. Connect the PPM output pin to your flight controller's PPM input.
• i.Bus / S.Bus: These are serial bus protocols that transmit all channel data over a single wire, often with telemetry. Connect the i.Bus or S.Bus output pin to your flight controller's serial input.

Consult your flight controller's manual for specific wiring and configuration details for each protocol.

4. Operasyon Enstriksyon

4.1 Powering On and Initial Check

1. Asire w tout koneksyon yo byen fèm epi kòrèk.
2. Power on your transmitter first.
3. Apply power to the FTr12B receiver. The receiver's LED should illuminate solid, indicating a successful link with the transmitter.
4. Verify that all control surfaces and functions respond correctly to transmitter inputs.

4.2 RSSI (Received Signal Strength Indication)

The FTr12B supports RSSI output, which provides real-time information about the signal strength between the transmitter and receiver. This data can be displayed on your transmitter or OSD (On-Screen Display) if your flight controller supports it. Monitoring RSSI is crucial for understanding your radio link quality and preventing flights beyond safe range.

4.3 Anviwònman Sekirite

Failsafe is a critical safety feature that defines the receiver's behavior in case of signal loss. It is highly recommended to configure failsafe settings on your transmitter. Common failsafe options include:

• Kenbe: The receiver holds the last received command. (Not recommended for most aircraft).
• Pa gen batman kè: The receiver stops sending pulses to all channels.
• Custom: Pre-set specific positions for each channel (e.g., throttle to zero, control surfaces neutral or slightly up for glide). This is the most recommended option for safety.

Always test your failsafe settings on the ground before flight to ensure they function as intended.

5. Antretyen

5.1 Netwayaj ak Depo

• Keep the receiver clean and free from dust, dirt, and moisture. Use a soft, dry cloth for cleaning.
• Avoid exposing the receiver to extreme temperatures or direct sunlight for prolonged periods.
• Sere reseptè a nan yon anviwònman sèk epi fre lè w pa ap itilize li.

5.2 Mizajou Firmware

The FTr12B receiver supports online firmware updates. Regularly check the official FlySky website for the latest firmware versions. Firmware updates can improve performance, add new features, or fix bugs. Follow the instructions provided with the firmware update utility carefully to avoid damaging the receiver.

Ensure a stable power supply during the update process. Interrupting the update can render the receiver inoperable.

NAN. Depanaj

6.1 No Signal / Receiver LED Not Solid

• Tcheke Reliure: Ensure the receiver is correctly bound to your transmitter. Repeat the binding procedure if necessary.
• Transmetè sou: Verify that your transmitter is powered on and operating on the correct model memory.
• Pwovizyon pou pouvwa: Confirm the receiver is receiving adequate power (3.5-9V). Check wiring and battery connections.
• Koneksyon antèn: Ensure antennas are securely connected to the receiver and not damaged.
• Ranje: Move the transmitter closer to the receiver to rule out range issues.

6.2 Intermittent Signal / Glitches

• Plasman antèn: Re-evaluate antenna placement. Ensure they are clear of obstructions and mounted at 90 degrees to each other.
• Entèferans: Check for potential sources of electrical interference near the receiver (e.g., motors, ESCs, video transmitters, high-current wires). Try to separate these components.
• Damaged Antennas: Inspect antennas for any cuts, kinks, or damage to the active element. Replace if damaged.
• Fluktiyasyon pouvwa: Ensure the power supply to the receiver is stable and free from voltage gout.

6.3 Incorrect Channel Response

• Anviwònman transmetè: Verify channel assignments and mixing settings on your transmitter.
• Konfigirasyon Kontwolè Vòl: If using a flight controller, check its input mapping and calibration settings.
• Fil elektrik: Double-check that servos/ESCs are connected to the correct output pins on the receiver or flight controller.

7. Sipò

For further assistance, technical support, or to download the latest firmware and manuals, please visit the official FlySky websit oswa kontakte depatman sèvis kliyan yo.

Always refer to the most current documentation available from the manufacturer for the most accurate and up-to-date information.