Top rated RC receivers
Here’s a ranking of the top rated RC receivers. To give you a quick overview, we’ve added the most important information about each product. This page always stays fresh and updates automatically.
1. Spektrum AR620 sports receiver
Compact, affordable DSMX telemetry receiver with full range. The robust, antenna-less design makes installation easier. Integrated flight log and receiver voltage monitoring via telemetry. Rounded, lightweight housing. A large bind button eliminates the need for a bind plug. A lightweight suitable for park flyers with full-range performance. Ideal for most 6-channel models, including indoor sport models.
The Spektrum AR620 flight receiver is a 6-channel full-range sport receiver with DSMX compatibility and fits almost all models due to its slim design.
The integrated antenna of the AR620 simplifies the installation of the receiver in the model while also increasing reliability. The Spektrum AR620 is not just a rounded electronic component that connects to your servos, but it also offers a new installation experience combined with full range for use in your electric or gas models.
Additionally, the AR620 has integrated telemetry that continuously transmits flight log data and receiver battery voltage. Simply activate the auto-configuration in your telemetry menu on your Spektrum transmitter. There’s nothing more you need to do to enjoy your flight with peace of mind—knowing about your flight data and power supply.
No more bind plugs! Instead, use the large bind button to initiate the binding process.
In summary, you get a basic Spektrum receiver that guarantees you the highest level of safety and fun.
2. Futaba R304SB Telemetry T-FHSS
4-channel T-FHSS receiver, with 4 connections for normal servos and controllers. With additional S.BUS2 output for connecting S.BUS2 devices such as servos and telemetry sensors.
The receiver's internal telemetry transmitter transmits the data to the transmitter, where it is shown on the display.
High protection against interference and electrosmog thanks to 2.4 GHz FHSS technology.
Only suitable for T-FHSS systems (e.g. T4PLS/ T4PX/T4PXR)
For RC-Cars & Boats
Technical data:
channel: 4
transmission: T-FHSS bidirectional
Current consumption: 40mA or less
Input voltage: 4.8 V - 7.4V
Weight: 6.6g
Dimensions:35.1x23.2x8.5mm
Antenna: 170mm
NOTE: When using 7.4 V LiPo batteries as receiver batteries, the connected servos must also be designed for this voltage. The receiver has no internal voltage converter for the servo voltage.
3. Futaba R304SB-E Telemetry receiver T-FHSS
4-channel T-FHSS receiver with 4 connections for standard servos and controllers. It features an additional S.BUS2 output for connecting S.BUS2 devices such as servos and telemetry sensors. The internal telemetry transmitter sends data to the transmitter, where it is displayed. High protection against interference and electromagnetic smog is ensured by 2.4 GHz FHSS technology. Suitable only for T-FHSS systems.
Technical specifications:
Channel: 4
Transmission: T-FHSS bidirectional
Current consumption: 40 mA or less
Input voltage: 4.8 V – 7.4 V
Weight: 6.6 g
Dimensions: 35.1 x 23.2 x 8.5 mm
Antenna: integrated in the housing
Note: When using 7.4 V LiPo batteries as the receiver battery, the connected servos must also be rated for this voltage. The receiver does not have an internal voltage converter for the servo voltage.
4. Futaba R2008SB Receiver S-FHSS
Compact 8-channel S-FHSS receiver, compatible with all FHSS and S-FHSS systems from the Futaba range. To achieve even shorter response times, the pulse output for digital servos can be shortened to 6.3 ms (instead of 16 ms for analog servos). Besides the 8 PWM servo outputs, the receiver also has an S.BUS connection for up to 8 S.BUS servos or devices.
NOTE: When using 7.4 V LiPo batteries as receiver batteries, the connected servos must also be designed for this voltage. The receiver has no internal voltage converter for the servo voltage!
5. Futaba R3008sb
The Futaba R3008SB is a compact and lightweight T-FHSS 2.4 GHz receiver with an integrated telemetry function. Its ultra-slim design makes it ideal for models with narrow fuselages.
Up to 10 programmable S.BUS servos or peripheral devices such as gyros, flybarless systems, or speed controllers can be connected to the S.BUS output. Thanks to digital addressing, each servo only responds to information that includes the correct servo address. No more cable clutter: one line to the wing, and for larger models, one cable per wing and one cable to the tail. It couldn't be simpler. This cable-saving and therefore weight-saving method can also be used with existing analog or digital standard servos, requiring only a PWM adapter to convert the signal from S.BUS to PWM.
The R3008SB features antenna diversity and constantly checks the signal quality of both antenna inputs. It quickly and seamlessly switches to the better input signal.
Through the S.BUS2 connection, S.BUS2 sensors can be connected, allowing the transmission of up to 32 telemetry data sets. The integrated telemetry transmitter in the receiver sends the telemetry data from the S.BUS2 connection to the transmitter, which displays, announces, or outputs it acoustically.
When connecting the receiver, the receiver battery voltage and antenna signal strength are automatically transmitted. An additional adapter cable can be used to measure and transmit another external voltage (e.g., the drive battery up to 70 V).
When using 7.4 V LiPo batteries as the receiver battery, the connected servos must also be rated for this voltage. The receiver does not have an internal voltage converter for the servo voltage.
6. Jeti Receiver REX 7 A40 duplex
Duplex 2.4EX Receiver REX 7 A40 with 400 mm long antennas!
Features:
- The new generation of receivers
- Integrated expander for up to 3 sensors
- Supported protocols: PPM, EXBUS, EX, UDI
- Programmable functions of the slots
- Support for direct inputs
- Compact dimensions
- 32-bit processor
- Full range
- Programmable via the JETIBOX and wirelessly via the Duplex DC/DS transmitters
- Internal memory for data logging and control signals (evaluation in preparation)
- Ideal for use in combination with external "servo switches" when connected via Jeti Ex Bus and additional sensors
Additional technical data:
- Telemetry: Yes
- Temperature range [°C]: -10 ... 85
- Compatible protocols: DUPLEX 2.4GHz EX, EX Bus, UDI
- Antenna length [mm]: 2 x 400
- Voltage range [V]: 3.2 - 8.4
- Current consumption [mA]: 30
- Satellite receiver connection: Yes
- Output power [dBm]: 15
- Reception sensitivity [dBm]: -106.
7. Jeti Receiver REX 7 duplex
7-channel full-range receiver, compatible with JETI EX and EX Bus protocols. Supports telemetry functions.
Additional features:
- PPM input
- PPM output
- Integrated expander for EX and EX Bus devices
- UDI digital output
JETI Duplex receivers are designed for use with DC/DS transmitters or JETI transmitter modules in the 2.4 GHz frequency band.
The receivers support online updates, allowing anyone to install the latest software versions. From the beginning, bidirectional transmission has been a hallmark of the Duplex system; it not only processes telemetry data but also helps ensure secure primary transmission between the transmitter and receiver.
The Duplex EX telemetry system uses an open protocol. This offers the advantage of compatibility with a variety of telemetry sensors from both JETI Model and third-party manufacturers. For displaying telemetry data, specially designed devices such as the JETIBOX profi and DC/DS transmitters can be used, or the data can be displayed on PCs.
The REX receivers are fully compatible with the previous generation of Duplex equipment.
8. Jeti Receiver Rex 7 Assist duplex
Integrated telemetry: Rotation angle on three axes, G-force, temperature. Integrated ASSIST stabilization system with stabilization, course hold, and trainer mode. Suitable for aircraft models and multicopters. Can output a stabilized EX-Bus signal for CentralBoxes. Supported protocols: PPM, EXBUS, EX. Programmable functions for the slots and support for direct inputs. Compact dimensions with a 32-bit processor and full functionality. Programmable via the device overview of the Duplex DC/DS transmitters and JETI Studio from a PC. The device files needed for configuration can be found in the Downloads tab of the transmitter. Please unzip these files and copy them to the device folder of the transmitter's memory.
9. Multiplex Receiver RX-7-DR 2.4 GHz M-LINK
Fully telemetry-capable, supports up to 16 sensors simultaneously, no additional satellite required. A high-quality 7 or 9-channel receiver built with the latest SMD technology in MULTIPLEX 2.4 GHz M-LINK technology for all model types. Due to its compact dimensions with inline connector arrangement, it also fits into models with tight installation conditions. As a dual receiver, this receiver features two complete receiver circuits that operate in parallel (receiver diversity). This, combined with a special signal preamplifier, ensures maximum sensitivity and thus excellent reception quality as well as maximum system range. Hold/Failsafe function, telemetry/return channel capability, integrated sensor interface for connecting external sensor modules, prepared for operation with two receivers, integrated error counter/data logger (voltage and signal errors), MULTImate compatible, integrated PC interface.
10. Futaba R334SBS T-FHSS SR Car Receiver
The Futaba R334SBS is a compact and lightweight T-FHSS SR 2.4 GHz receiver with integrated telemetry function and diversity antenna. The transmission mode T-FHSS SR is currently the fastest transmission technology on the market...!
The new T-FHSS SR (Super Response) system is faster than all previous transmission types on the market. At 2.45 ms, the response speed in the model has become noticeably faster (T-FHSS = 4.15 ms).
S.BUS2 sensors can be connected via the S.BUS2 connector and up to 32 telemetry data sets can be transmitted. The telemetry transmitter integrated in the receiver transmits the telemetry data present at the S.BUS2 connection to the transmitter, which indicates, announces or acoustically outputs the data on the display.
The receiver is particularly suitable for use in RC cars and boats.
NOTE: When using 7.4 V LiPo batteries as receiver batteries, the connected servos must also be designed for this voltage. The receiver has no internal voltage converter for the servo voltage!
To take advantage of the speed of the Futaba SR system, many FUTABA SV servos can be switched to SR mode via T7PX transmitter. Currently the following servos are SR compatible:
BLS371SV, BLS471SV, BLS571SV, BLS671SV, BLS671SVi, S9372SV & S9373SV.
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