RF/NRF

3DR Radio Telemetry Kit 433MHz 500mW

Product ID: FAERI-03546

3DR Radio Telemetry Kit 433MHz 500mW The 3DR Radio Telemetry Kit has a 433Mhz frequency band and Receiver sensitivity to -124 dBm. This 3dr telemetry kit allows you to link to a flight controller to a USB or UART-equipped device such as a computer, laptop or tablet supporting a USB connection…

₹2,721.40

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3DR Radio Telemetry Kit 433MHz 500mW

The 3DR Radio Telemetry Kit has a 433Mhz frequency band and Receiver sensitivity to -124 dBm. This 3dr telemetry kit allows you to link to a flight controller to a USB or UART-equipped device such as a computer, laptop or tablet supporting a USB connection (OTG).

The Radio set lets you see live data, such as live GPS position overlaid on a map, system voltage, heading, waypoint navigation and much more. The system utilizes the 433MHz band and provides a full-duplex link using HopeRF’s HM-TRP modules running custom, open-source, firmware.

Using open-source MAVlink based ground station software, you can even fly your aircraft with a joystick via your computer and update settings live! Or just use it for your DIY projects that need a wireless Serial interface. This kit offers a great low price, longer range, and superior performance. The system utilizes the 433MHz band and provides a full-duplex link using HopeRF’s HM-TRP modules running custom, open-source, firmware.

Features :

• MAVLink protocol framing status documents

• Frequency modulation and Spread Spectrum (FHSS)

• Self-adaption to time-division multiplexing

• Support LBT and AFA

• Configurable duty cycle

• Built-in error-correcting code(up to 25% data bit error)

• AT command configure data transmission

• RT command remote control data transmission

• Interchangeable air and ground 433MHz modules

• Micro-USB port

• 6-position Molex connector

• 500 mW maximum output power (adjustable)

• SMA connector

• 2-way full-duplex communication through adaptive TDM

• UART interface

• Transparent serial link

• Open-source SIK firmware

• Configurable through *Mission Planner and *APM Planner

• Based on the HM-TRP wireless module, with Si1000 8051 microcontroller and Si4432 wireless module

Setup Guide: 3DR Radio Telemetry Kit with Pixhawk / ArduPilot


Step 1 – Identify Modules: Separate the kit into the Air module (mounted on the drone) and the Ground module (connected to your PC).


Step 2 – Connect to Pixhawk: Plug the Air module into the Pixhawk’s TELEM1 or TELEM2 port. Connect TX to RX, RX to TX, 5V to 5V, and GND to GND.


Step 3 – Connect Ground Module: Plug the Ground module into your PC using the provided USB cable. It will appear as a COM port once detected.


Step 4 – Install Drivers: Install USB-to-serial drivers if your PC doesn’t recognize the device automatically.


Step 5 – Open Mission Planner or QGroundControl: Launch your preferred ground control software and select the correct COM port and baud rate (usually 57600).


Step 6 – Verify Radio Link: Power both modules. The green LED on both units should light up when they are successfully connected.


Step 7 – Match Settings: Make sure both radios have matching Net ID, air speed, and frequency band for proper communication.


Step 8 – Configure Pixhawk: In your flight controller parameters, set the serial port protocol to MAVLink and confirm baud rate matches the radio’s configuration.


Step 9 – Test Telemetry: With both modules powered, confirm that live data such as GPS, altitude, and battery voltage appears on the ground control station.


Step 10 – Mount Securely: Fix the Air module and antenna away from power lines or motors to avoid interference and ensure a stable link during flight.

Applications

• Used for wireless telemetry communication between drone and ground control station.

• Ideal for real-time flight data monitoring and mission planning.

• Supports long-range communication for UAVs, rovers, and boats.

• Enables parameter tuning and firmware updates without a wired connection.

• Useful in autonomous drone operations and waypoint navigation missions.

• Can be integrated into DIY robotics and research projects requiring remote control.

• Enhances safety by allowing pilots to track vehicle status and GPS location live.

• Suitable for aerial mapping, surveying, and agriculture drone applications.

Troubleshooting: Fixing Connection Drops


Check Antenna Connection: Ensure both antennas are firmly attached and oriented vertically for optimal signal strength.


Verify Power Supply: Make sure both modules receive stable 5V power; low voltage can cause intermittent disconnections.


Inspect Cable Connections: Double-check TX/RX and GND wiring between the Air module and Pixhawk for loose or reversed connections.


Reduce Interference: Keep the telemetry modules away from high-current wires, ESCs, or Wi-Fi routers that may cause signal noise.


Match Firmware Versions: Both radio modules should run the same firmware version to prevent data mismatch or signal dropouts.


Recheck Frequency & Net ID: Ensure both radios are set to the same frequency, network ID, and air data rate in the configuration tool.


Monitor Signal Quality: In Mission Planner or QGroundControl, check RSSI values; if low, reposition antennas or reduce distance.


Update Configuration: Reset both radios to default settings and re-pair if the link continues to drop intermittently.


Use Shorter Cables: Avoid long or unshielded cables that can introduce noise or voltage drops affecting communication.


Test with Another Port: Try using TELEM2 or a different USB port on your PC to isolate hardware-related connection issues.

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