Have you ever felt lost trying to pick the perfect receiver for your drone? The world of RC control is exciting, but finding the right ELRS receiver can feel like a maze. You want a strong, reliable connection for your flights, right? But with so many models and features out there, it’s easy to get confused. Which one fits your radio? Which one is light enough for your tiny build? These little decisions can make a big difference when you’re soaring through the air.
Don’t let receiver selection slow down your building or flying fun! This post cuts through the noise. We will break down what you need to know about ELRS receivers. You will learn how to match the right receiver to your needs, understand the key specs without getting overwhelmed, and finally feel confident in your purchase. Get ready to simplify your setup and get back to flying smoothly!
Top Elrs Receiver Recommendations
- RP1 2.4GHz ELRS Nano receiver is an open source receiver based on ExpressLRS with ESP8285 MCU and SX1280 RF chip.
- The RP1 has a UFL antenna socket for a full range of antennas, is ultra light weight and small in size, making it ideal for racing.
- The RP1 has built-in WIFI, so you can upgrade the firmware via WIFI and configure the receiver with your PC or cell phone via the built-in WebUI.
- With its low latency and high refresh rate RF modules, the RP1 is ideal for FPV racing or long range.
- RadioMaster RP3 V2 ELRS Nano Receiver. Suitable for FPV races or long-distance races. Applicable to Whoops and drone models
- The RP3 ELRS 2.4GHz FPV Receiver features a Skyworks SE2431L providing an LNA for improved receiver performance.
- PA providing up to 250mw of telemetry performance and antenna switching for antenna diversity.
- Antenna Diversity for improved signal stability and range.
- Dual Installation: Solderable/plug-in options enable flexible installation and detachment
- High Refresh Rate: with a high refresh rate, this receiver ensures minimal latency and enhanced responsiveness, providing a smoother and more reliable control experience
- Durable construction: Designed with durability in mind, it can withstand the rigors of various environments, ensuring long-lasting performance for users in different applications
- Compact Design: Space-efficient form factor for constrained installations without performance compromise
- 【PWM Output】BETAFPV ELRS Micro receiver is the first ELRS receiver with PWM output on BETAFPV. Supports 5 channels PWM outputs. It also supports flash CRSF output firmware, in this case CH2 corresponds to TX and CH3 corresponds to RX
- 【Application】ELRS micro receiver adapts for multiple types of models like fixed-wing, helicopters, RC cars, boats and etc.
- 【Failsafe Function】When the connection or signal is lost between the radio transmitter and receiver, the failsafe function will adjust all the channels to the failsafe values set by the users, maximum keep safety and prevent from flying away. It's necessary to set up failsafe values properly if you are not using a flight controller, such as RC fixed-wing
- 【Weight&Size】Weighing about 4.5g with an antenna and with the sizes of 19mm*32mm*9mm (without antenna). It means that an FPV drone can not afford to carry.
- Revolutionary ExpressLRS System: The ER4 2.4GHz ELRS PWM Receiver is based on the revolutionary ExpressLRS system, offering high performance, high reliability, flexible configuration, fast response speed, and ultra-long range.
- Compact and Lightweight: With its small volume and lightweight design, it is perfect for small aircraft models, ship models, car models, and other models that require a compact receiver without compromising on range.
- Supports 4 PWM Channels: The ER4 PWM receiver can drive 4 servos simultaneously, providing flexibility and control for a variety of applications.
- Advanced Features: The receiver supports automatic voltage telemetry of external battery voltage or built-in receiver voltage. It also supports Wi-Fi updates and WEBUI configuration, ensuring your receiver is always up-to-date and easily configurable.
- High-performance ELRS receiver designed for ExpressLRS systems, operating on 2.4GHz ISM band with 100mW return power, ensuring stable connectivity with ELRS transmitters for FPV drones and RC models.
- PCB immersion gold process enhances conductivity, reduces resistance, and boosts oxidation resistance, extending service life while ensuring reliable electrical connections and easy soldering.
- Ultra-compact Nano size (18.9×11.2×1mm) and lightweight design (0.8g PCB only) allows easy installation on micro drones, fixed-wings, and racing quadcopters without compromising performance.
- Equipped with premium components: Epson crystal oscillator, Murata inductor, and SPX3819M5 power IC, minimizing frequency drift and electromagnetic interference for stable, precise signal output.
- 1)The BACKY ELRS 2.4G-Nano receivers is an open-source program Based on ExpressLRS, we have 4types RX modules are Released. All of the receivers use the ESP8285MCU.Your Firmware can be upgraded via WIFI, which is more easier.
- 2) Lowe Latency and High refresh rate,they are very suitable for FPV racing and long range FPV cruising while being ultra-light and ultra-small which made the installation more easier.
- 3) Usually when you just supplied the power or do not turn on the remote control ,the ExpressLRS can be found hot after 60s by default, then the receiver will get in the WIFI automatically, the LED flashing
- 4) The BACKY ELRS 2.4G-Nano Receivers is an open-source program based on ExpressLRS,, so any ELRS 2.4Ghz receivers can work with any ELRS 2.4Ghz TX modules , from any manufacture and even DIY ones, this is as long as they have the same binding phase and configuration options( Regulatory Domin, Performance options and Extra Data)
- Gemini mode compatible
- Reliable DCDC Power supply circuit
- Class leading SNR and RSSI performance
- Optimized PCB design for better heat dissipation
Your Complete Guide to Buying the Best ELRS Receiver
ELRS, or ExpressLRS, is the new hot thing in RC flying. It gives you amazing range and super-fast response times for your drones and planes. Choosing the right ELRS receiver (Rx) can be tricky. This guide helps you pick the perfect one for your setup.
1. Key Features to Look For
When you shop for an ELRS receiver, certain features make a big difference in how well it works.
Binding Method
You must connect your receiver to your transmitter (the controller). Look for receivers that support easy binding. Some use a simple button press. Others use a binding phrase you type into your radio. A simple binding process saves you time later.
Telemetry Support
Telemetry lets your receiver send information back to your radio, like battery voltage or signal strength. This is very important for safety. Make sure the receiver supports the correct telemetry protocol for your radio system (like CRSF).
Powering Options and Size
Receivers come in tiny sizes for small drones (whoops) or slightly larger ones for bigger FPV rigs. Check the voltage requirements. Most run on 5V. Ensure the size fits inside your specific drone frame.
Antenna Type
ELRS receivers use antennas to send and receive signals. You will often see two main types: ceramic chip antennas or flexible wire antennas. Wire antennas are usually more durable if your drone crashes often.
2. Important Materials and Build Quality
The materials inside and outside the receiver affect its lifespan and performance.
PCB Quality
The Printed Circuit Board (PCB) holds all the electronics. Good quality boards use thicker copper traces. This helps manage heat better, especially when the receiver is working hard over long distances. Poor quality boards can fail sooner.
Connector Durability
The connector where you solder the wires (usually a JST or direct solder pads) must be strong. If you take your drone apart often, a robust connector prevents accidental breaks.
3. Factors That Improve or Reduce Quality
The quality of an ELRS receiver depends on its internal components and how you use it.
Higher Refresh Rate (Packet Rate)
This is how often the receiver updates the flight controller with stick movements. Rates like 250Hz, 500Hz, or 1000Hz mean faster response. Higher rates improve your control feeling, especially in racing or freestyle flying. Lower rates might be fine for slow planes.
Filtering and Noise Resistance
Good receivers handle electrical noise well. Drones create a lot of electrical interference from motors and ESCs. A well-designed receiver filters out this noise, keeping your connection clean and stable. Poorly designed ones might lose signal unexpectedly in high-noise environments.
Firmware Updates
ELRS is constantly improving. The ability to easily update the receiver’s firmware keeps your gear modern and bug-free. Check if the manufacturer supports easy over-the-air (OTA) or simple flashing methods.
4. User Experience and Use Cases
How you plan to fly directly impacts which receiver you should buy.
Micro Drones (Whoops)
For tiny indoor drones, you need the smallest, lightest receiver possible, often called an “SPI” or “Nano” receiver. These prioritize weight savings over maximum range. A 2.4GHz ELRS Nano receiver is perfect here.
Long Range Cruising and Fixed Wing
If you fly far away or use planes, range is king. Look for receivers with higher power output options (like 1W or more, though this requires careful antenna placement) and durable antennas. A receiver capable of running at 100Hz or 250Hz is usually sufficient for these slower applications.
Freestyle and Racing
Racers and freestylers demand the fastest response. You must choose a receiver that supports 500Hz or 1000Hz packet rates. Weight is still important, but responsiveness matters most.
10 Frequently Asked Questions (FAQ) About ELRS Receivers
Q: What is the main difference between ELRS and older radio systems?
A: ELRS offers much lower latency (faster response) and much better range than older systems like FrSky D8/D16.
Q: Do I need a special transmitter to use an ELRS receiver?
A: Yes, you need a transmitter module that supports the ELRS protocol, like an external JR module or an internal radio running ELRS firmware.
Q: Can I use a cheap ELRS receiver?
A: You can find budget options, but very cheap ones might use lower-quality components, which can lead to signal issues in noisy environments.
Q: What does “Binding Phrase” mean?
A: The binding phrase is a secret password you set on both your transmitter and receiver. It makes sure only your radio can connect to your receiver, which is safer.
Q: Do I have to solder wires to the receiver?
A: Some receivers come with small connectors already attached. Others, especially the smallest ones, require you to solder thin wires directly to the pads on the board.
Q: What is the best power output setting for general flying?
A: For general backyard flying, 100mW (milliwatts) is often plenty. Use 250mW or higher only when you expect to fly very far away.
Q: Can I use an ELRS receiver with my standard flight controller?
A: Yes, most modern flight controllers (like those running Betaflight or ArduPilot) fully support ELRS using the CRSF protocol.
Q: What is the downside of using a very high refresh rate (like 1000Hz)?
A: Higher refresh rates use more power from your battery and sometimes require more processing power from your radio and flight controller.
Q: How do I protect the receiver antenna?
A: Always use small antenna tubes or 3D-printed mounts to keep the antenna away from spinning propellers. Prop strikes destroy antennas instantly.
Q: Is ELRS available in different frequency bands?
A: Yes, the most common is 2.4GHz, but ELRS is also available in 900MHz (for extreme long range) and 868MHz bands, depending on your local laws.
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