Sanwa RX461 - Compact 4-Channel FHSS Receiver for Surface Models  [SW-RX461]

Sanwa RX461 2.4G Receiver
Price:
AUD$92.99
Brand:
Sanwa
Model:
SW-RX461
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Sanwa RX461 for Responsive Surface Control

The Sanwa RX461 4-Channel 2.4GHz FHSS-4T Surface Receiver is tailored for modelers seeking tight, reliable control. It works with the Airtronics MT-4 transmitter and offers rapid response plus telemetry feedback to help you monitor performance.

Low Latency Super Response

Equipped with Sanwa Super Response (SSR), the RX461 reduces lag and supports a high frame rate so steering and throttle inputs feel immediate. Telemetry data lets you check key parameters without pulling the model apart between runs.

Power Range and Battery Guidance

Operating between 4.8V and 7.4V, the RX461 accepts 4 to 6 cell Ni-Cd/Ni-MH packs and 2S Li-Po or 2S A123/Li-Fe batteries. A 3S Li-Po is outside the supported voltage and should not be used.

Specifications

  • Frequency: 2.4GHz FHSS4
  • Channels: 4
  • Nominal Input Voltage: 4.8~7.4V
  • Binding: One-Touch Binding
  • Antenna: Single Receiver Antenna
  • Fail Safe: Programmable on All Channels
  • Connector Type: Universal 'Z'
  • Dimensions: 1.43 x 1.04 x 0.64in (36.2 x 26.5 x 16.3mm)
  • Weight: 9.6g (0.34oz)

For surface racing or precision setups, the Sanwa RX461 gives a compact footprint with the responsiveness and telemetry needed for advanced tuning.

Can I run the RX461 on 6 cell Ni-MH packs?

Yes. The RX461 supports 4 to 6 cell Ni-Cd or Ni-MH packs within its 4.8V to 7.4V nominal input range, so a 6 cell Ni-MH is acceptable.

Does the RX461 support programmable fail-safe on every channel?

Yes. Fail-safe values can be programmed on all channels so you can set neutral or custom positions to suit your model and reduce risk if signal is lost.

Is there a recommended way to mount the antenna in a buggy or truggy?

Mount the antenna so it sticks up and away from metal parts and the ESC. Use foam padding to secure the receiver and ensure the antenna is not lying next to heavy wiring to minimise interference.

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