As ExpressLRS continues to evolve, there are actually an amazing variety of receivers to select from. That’s why I created this information: to interrupt down the fundamentals of ExpressLRS receivers, clarify the distinction in frequency, antenna modes and options, and make clear compatibility with transmitters so you may resolve which receiver is greatest on your wants.
When you’re new to ExpressLRS, try my in-depth tutorial on getting began and establishing your radio hyperlink: https://oscarliang.com/setup-expresslrs-2-4ghz/
Frequency: 2.4GHz vs 900MHz
Most ExpressLRS receivers help one frequency band (both 2.4GHz or 900MHz), whereas some receivers help dual-band (each 2.4GHz and 900MHz), although they will also be switched to a single frequency when you desire.
2.4GHz
- The most typical frequency in FPV radio hyperlinks
- Offers glorious vary (tens of kilometers in superb circumstances), sufficient for many pilots
- Helps extra pilots flying on the identical time due to the broader bandwidth
- Compact antennas — superb for FPV drones the place weight and house matter
900MHz
- Covers 868MHz (EU) and 915MHz (US/remainder of the world) — it’s essential to select the right frequency on your area to keep away from interference
- Because of the decrease frequency, it’s higher in penetration and vary in comparison with 2.4GHz, most popular for long-range flights
- Drawbacks: bigger antennas and added weight, which could be a problem for smaller builds
For many pilots, 2.4GHz is ample. 900MHz is highly effective, however typically overkill except you’re particularly flying lengthy vary or in difficult environments.
Easy methods to Establish 2.4GHz and 900MHz Receivers
You may often inform what frequency a receiver helps by simply wanting on the antenna:
- 2.4GHz receivers → Very small antennas; solely work with 2.4GHz transmitters
- 900MHz receivers → Giant antennas; solely work with 900MHz transmitters
- Twin-band receivers → Antennas typically characteristic each 2.4GHz and 900MHz components, permitting them to work with each transmitter varieties
One other indicator is the RF chip used:
- Single frequency chips:
- SX128X (SX1281) → 2.4GHz
- SX127X (SX1276) → 900MHz
- Twin-band chip:
- LR1121 → Helps each 2.4GHz and 900MHz
Antenna Modes
I like to think about antenna modes in two classes: Fundamental Mode and Gemini Mode.
Fundamental Mode
Fundamental Mode
Fundamental mode is how radio hyperlinks conventionally works in FPV drones. The transmitter sends one packet at a time to the receiver.
Range
If the receiver has two antennas, it may possibly make the most of range to enhance sign reliability.
The primary good thing about range is you can mount antennas in numerous orientations or areas on the drone. This helps:
- Optimize antenna alignment because the drone consistently adjustments angle in flight
- Get rid of sign blind spots
However there are two varieties of range, relying on the receiver {hardware}.
Antenna Range:
- 1 RF chip + 2 antennas
- The receiver routinely chooses whichever antenna has the stronger sign at that second
- Helps scale back sign dropouts brought on by antenna orientation or multipath interference
True Range:
- 2 RF chips, every with its personal antenna (primarily two receivers on one board)
- Each antennas are consistently listening and evaluating alerts, the cleaner sign is chosen in actual time
- Gives higher vary and reliability than antenna range, however comes at the price of greater worth and energy consumption
Easy methods to Inform the Distinction
Each antenna range and true range receivers have two antennas. The distinction is within the {hardware}:
- Antenna Range → 1 RF chain
- True Range → 2 RF chains
When you examine the board carefully, true range receivers may have two impartial RF receiver chains, whereas antenna range receivers solely have one.
Gemini Mode
In case your ExpressLRS transmitter has two antennas, it’s indication that it helps Gemini Mode. Transmitters with just one antenna are restricted to Fundamental Mode (and variety).
Gemini Mode makes use of two transmitters, every with its personal antenna, to ship the identical information packet on barely completely different frequencies (e.g. ~40 MHz aside on 2.4GHz, or ~13 MHz aside on 900MHz). A real range receiver can decide up these two alerts independently, successfully creating two separate radio hyperlinks. If one hyperlink experiences interference or sign loss, the opposite can take over — considerably bettering hyperlink high quality and reliability.
I’ve written a full breakdown how ExpressLRS Gemini Mode works: https://oscarliang.com/expresslrs-gemini/
Observe: Gemini Mode solely works with true range receivers. When you’re utilizing a single-antenna receiver, or one which solely helps antenna range, it’ll default again to Fundamental Mode.
Gemini Xrossband (Gem-X)
Gemini Xrossband, or Gem-X, takes Gemini Mode one step additional. As a substitute of transmitting two equivalent packets on the identical band, it sends them concurrently on each 2.4GHz and 900MHz.
This requires:
- A dual-band transmitter that helps Gem-X
- A dual-band receiver with Gem-X help
Due to this, Gem-X setups are often the most costly ExpressLRS possibility. However they provide most:
- Vary
- Redundancy
- Resistance to interference
- General hyperlink high quality and reliability
Examples of suitable {hardware} embody the Radiomaster GX12 radio and the BetaFPV SuperX Nano Receiver.
Antenna Varieties
Most ExpressLRS receivers use an IPEX MHF1 connector (also referred to as U.FL) for attaching exterior antennas. Nevertheless, you’ll additionally discover receivers with onboard antennas, equivalent to ceramic tower antennas and flat antennas.
- Onboard antennas – Glorious for compact builds and short-range flying. They save weight and house however sacrifice efficiency.
- Exterior antennas – Advisable for higher vary and reliability.
Receiver Anatomy
RF Chip
The RF chip is likely one of the most essential elements of a receiver. It determines what frequencies, packet charges, and modulation modes the receiver helps.
Frequent chips are:
- SX127X (e.g., SX1276) → Helps 900MHz
- SX128X (e.g., SX1281) → Helps 2.4GHz
- LR1121 → Helps each 900MHz and a couple of.4GHz
Amongst these, the LR1121 is essentially the most highly effective, supporting dual-band operation together with extra modulation modes and packet charges.
Right here’s a diagram displaying what frequencies, packet charges and modulations every chipset help.
PA and LNA
PA (Energy Amplifier) and LNA (Low-Noise Amplifier) are elements that enhance the efficiency of the receiver which can be essential for vary.
- PA can enhance telemetry sign hyperlink as telemetry requires the receiver to transmit sign again to the radio.
- The LNA will increase the sensitivity of the receiver and offers you higher vary and hyperlink stability.
Observe that some compact or finances receivers don’t have PA and LNA to save lots of house and value.
TCXO
TCXO (Temperature Compensated Crystal Oscillator) is a sort of oscillator that gives a much more steady frequency with a a lot wider temperature vary. That is essential as a result of when elements warmth up or quiet down, it may possibly trigger frequency shift within the oscillator, and if that frequency shift is outdoors of a sure margin, your receiver will lose reference to the transmitter. So, having a receiver with a TCXO will guarantee optimum efficiency and reliability.
Processor
For the typical consumer, you don’t really want to know the processor (or MCU) however is price mentioning. Frequent processors in ExpressLRS receivers embody:
PWM Receivers
Some ExpressLRS receivers include PWM outputs (servo header pins). These are particularly helpful for wings or conventional RC fashions with out flight controllers, the place you should plug in servos and ESC on to the receiver.
For multirotors, nevertheless, PWM receivers aren’t generally used — it’s a lot simpler and extra environment friendly to attach a receiver to the flight controller through a serial port (UART).
Some PWM receiver choices:
Compatibility
| 2.4Ghz Single Antenna TX | 2.4Ghz Gemini TX | 900Mhz Single Antenna TX | 900Mhz Gemini TX | Twin Band Single Antenna TX | Twin Band Gem-X TX | |
|---|---|---|---|---|---|---|
| 2.4Ghz Single Antenna + Antenna Range RX | Fundamental | Fundamental | X | X | Fundamental | Fundamental |
| 2.4Ghz True Range RX | Fundamental, Range | Fundamental, Range, Gemini | X | X | Fundamental, Range | Fundamental, Range, Gemini |
| 900Mhz Single Antenna + Antenna Range RX | X | X | Fundamental | Fundamental | Fundamental | Fundamental |
| 900Mhz True Range RX | X | X | Fundamental, Range | Fundamental, Range, Gemini | Fundamental, Range | Fundamental, Range, Gemini |
| Twin Band Single Antenna RX | Fundamental | Fundamental | Fundamental | Fundamental | Fundamental | Fundamental |
| Twin Band True Range RX | Fundamental, Range | Fundamental, Range, Gemini | Fundamental, Range | Fundamental, Range, Gemini | Fundamental, Range | Fundamental, Range, Gemini, Gem-X |
RX
2.4Ghz Single Antenna RX
2.4Ghz Antenna Range RX
2.4Ghz True Range RX
900Mhz Single Antenna RX
900Mhz Antenna Range RX
900Mhz True Range RX
Twin Band Single Antenna RX
Twin Band Antenna Range RX
Twin Band True Range RX
TX
2.4Ghz Single Antenna TX
2.4Ghz Gemini TX
900Mhz Single Antenna TX
900Mhz Gemini TX
Twin-band Single Antenna TX
Twin-band Gem-X TX
Easy methods to Change Between Antenna Modes
When you’re utilizing a Gemini-capable module (one with two antennas), such because the Nomad module or Radiomaster GX12 radio, you may change antenna modes utilizing the ExpressLRS LUA script. In case your transmitter solely has one antenna, you don’t want to fret about antenna modes, it’ll function in Fundamental Mode by default, with no switching required.
- Fundamental Mode: Beneath Antenna Mode, choose Ant1, Ant2 or Change (routinely alternates between antennas).
- Gemini Mode: Beneath Antenna Mode, swap to Gemini.
- Gem-X Mode: choose Gemini below Antenna Mode, and select a packet charge prefixed with “X” (e.g. X150).
In case your transmitter is twin band, you too can select which frequency to transmit on within the packet charge choices: Low band = 868/915Mhz, 2.4G = 2.4GHz.
Essential: In case your transmitter helps Gemini however you’re utilizing it with a single-antenna receiver, you need to choose one of many antenna in Antenna Mode (e.g. ANT1). Don’t allow Gemini, for the reason that receiver can solely sync to at least one transmitter antenna — the second antenna would merely act as interference.
For extra particulars, try my full information on antenna modes: https://oscarliang.com/expresslrs-gemini/#How-to-Allow-Gemini-Mode
Conclusion: Easy methods to Select ExpressLRS Receivers
For five-inch quads and smaller, a 2.4GHz single-antenna receiver in Fundamental Mode is greater than sufficient for many freestyle and indoor pilots. If you’d like further reliability for longer vary flights, think about upgrading to a range receiver and mount the antennas in numerous areas on the drone to scale back blind spots.
For 7-inch or bigger long-range rigs, many pilots desire 900MHz, however as I discussed earlier, 2.4GHz is usually greater than ample. When you already personal a 2.4GHz transmitter, I like to recommend making an attempt that first. For my part, 2.4GHz is just extra versatile. When you actually need to discover 900MHz, then a dual-band transmitter is perhaps the smarter selection for flexibility.
For ultra-long vary, flying in interference-heavy areas, or going behind obstacles, think about Gemini Mode and even Gemini Xrossband (Gem-X). The selection is dependent upon your wants and finances. Take into account: Gemini doesn’t magically enhance most vary — physics nonetheless limits how far a frequency can journey. What Gemini does present is best resistance to interference and redundancy for a extra sturdy hyperlink.
When you’re shopping for a brand new transmitter module, think about a dual-band possibility that helps Gem-X. This manner, you’ll be suitable with nearly all ExpressLRS receivers in the marketplace and be extra future-proof. In relation to receivers, although, your best option relies upon totally in your flying model and necessities.
