Futaba FUNR3001SB Low-Profile S.BUS2 T-FHSS Receiver for Micro FPV  [FUNR3001SB]

FUTABA R3001SB 2.4GHZ 1/18-CHANNEL S.BUS2 T-FHSS FULL-RANGE RECEIVER FPV DRONE
Price:
AUD$48.57
Brand:
Futaba
Model:
FUNR3001SB
Condition:
Brand New
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Setup and tuning notes

The Futaba FUNR3001SB provides full-range 2.4GHz reception tailored for small-scale RC craft and multicopters used in first-person-view setups. The unit uses T-FHSS protocol and outputs S.BUS2 to supply multiple channels over a single line to compatible flight controllers.

Mount the receiver to limit vibration transfer and route antennas to avoid obstruction by carbon or metal surfaces. During tuning, use the receiver as the primary radio interface and adjust endpoints, channel mapping, and failsafe via the transmitter or controller software to match your flight configuration.

For minimal latency and predictable control response, ensure the flight controller is configured to accept SBUS2 input and map channels correctly. Keep antenna orientation in mind when experimenting with PID and control loop adjustments.

Specifications

  • Item: Full-range receiver
  • Model Number: FUNR3001SB
  • Frequency: 2.4GHz
  • Protocol: T-FHSS, S.BUS2
  • Channels: 1/18-channel
  • Usage: FPV drone and micro RC aircraft

The FUNR3001SB's SBUS2 output and T-FHSS link make it suitable for micro FPV rigs where a compact receiver and reliable multi-channel digital feed are required; follow recommended placement and setup steps to optimise flight performance.

Can SBUS2 routing affect control latency during tuning?

SBUS2 provides a digital multi-channel stream with minimal overhead; ensure the flight controller is set to SBUS mode and that channel mapping is correct to avoid unexpected delays in control inputs while tuning.

How do I check channel mapping after connecting the FUNR3001SB?

Use the flight controller's configuration tool or the transmitter's output monitor to verify each channel corresponds to the expected control surface or function, and adjust mapping if any channels appear swapped.

What failsafe approach works well with SBUS2 receivers?

Set failsafe positions via your transmitter or controller: for SBUS2 feeds, define safe channel values and test the behaviour on the bench to ensure motors and servos react safely if the link is lost.

Are there special checks before a first test flight?

Confirm binding is successful, verify SBUS2 connection and channel ordering, check antenna placement, and perform a full range and failsafe test prior to the maiden flight.

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