Futaba R6014HS 2.4GHz 14-Channel Receiver for Model Aircraft  [R6014HS]

Futaba R6014HS 14-Channel 2.4GHz FASST Receiver
Price:
AUD$309.05
Brand:
Futaba
Model:
R6014HS
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All-Round Receiver for Model Pilots

The Futaba R6014HS 2.4GHz FASST 14-Channel Receiver handles everything from nimble sport planes to heavier scale models. It offers selectable operation to match the timing needs of both analog and digital servos so you get predictable control feel.

Main Benefits at a Glance

  • Simple Binding: The one-touch bind routine makes pairing quick and straightforward.
  • Diverse Compatibility: Suitable for many airframe sizes so you can keep one receiver for multiple models.
  • Dual Modes: Normal 14ms frame rate for standard servos and a 7ms High-Speed mode for digital servos such as Futaba BLS.
  • Dual Antenna Diversity: Two antennas reduce signal loss and improve link reliability during manoeuvres.
  • Durable Design: Rubber grommets help prevent antenna wear where they exit the case.

Specifications

  • Power Requirement: 4.8 - 6V
  • Dimensions: 1.48 x 2.05 x 0.63 inches (37.6 x 52 x 15.9mm)
  • Weight: 0.76oz (21.5g)

A versatile, compact receiver suited to flyers who value straightforward setup and trustworthy signal performance.

Does the R6014HS need a special lead for telemetry?

Telemetry cabling and compatibility depend on your transmitter and sensor setup. The R6014HS fits within Futaba FASST systems; consult your transmitter documentation for specific telemetry wiring.

What is the best way to protect the antennas during transport?

Secure the antennas along the fuselage with tape or a sleeve, avoid sharp bends, and use the rubber grommets to prevent chafing where the wires exit the case.

Can I use this receiver across different transmitters?

The R6014HS is designed for Futaba FASST systems. It will not bind to non-Futaba transmitters unless they explicitly support FASST protocol.

Are there tips for installing in a carbon-fibre fuselage?

Keep antennas away from carbon surfaces where possible, route them at different angles, and consider using thin insulating mounts to reduce signal absorption.

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