Airtronics 92104 10-Channel 2.4GHz FHSS-3 Aircraft Receiver
The 92104 10-Channel 2.4GHz FHSS-3 Receiver is one of the smallest 10-channel receivers ever offered in the hobby industry. This receiver is comparable in size to the Airtronics 92824 8-Channel 2.4GHz FHSS-1 receiver. Use the 92104 10-Channel receiver with your Airtronics FHSS-3 compatible transmitter to take advantage of the Safety Link feature, adjustable Receiver Battery Voltage Fail Safe and the extremely high frame rate this receiver offers. When used with your Airtronics FHSS-3 compatible transmitter, you will feel more connected than ever to your model!
In standard Airtronics fashion, this receiver features a push-button binding procedure, dual antennas for easy installation and flexibility, and it's all packed in a small, lightweight setup. This receiver is ideally suited for all types of aircraft and helicopters.
*All Airtronics 2.4GHz FHSS-3 aircraft receivers now have a Nominal Input Voltage rating of 4.8v ~ 7.4v.
Features and Specifications:
- One-Touch Binding
- Dual Receiver Antennas
- High Frame Rate, Low Latency FHSS-3 Technology
- Nominal Input Voltage Up to 7.4v Allows Use of 7.4 Volt Servos
- Frequency/Modulation Type: 2.4GHz/FHSS-3
- Nominal Input Voltage: 4.8v ~ 7.4v
- Weight: .53oz (15.0gr) with Case
- Dimensions: 1.95 x 1.05 x 0.60in (49.5 x 26.7 x 15mm)
- Fail Safe Support: Yes (All Channels Programmable)
- Receiver Battery Voltage Fail Safe: Yes (3.8v ~ 4.6v Adjustable)
*This receiver has a Nominal Input Voltage rating of 4.8v ~ 7.4v, therefore, it can be powered using a 4 Cell to 6 Cell Ni-Cd or Ni-MH battery pack, or a 2S Li-Po or 2S A123/Li-Fe battery pack. DO NOT USE A 3S Li-Po BATTERY PACK!
*When using a 2S Li-Po battery pack you should NOT use servos rated for 4.8 or 6.0 volts, otherwise damage to your servos could occur. In this case, use high voltage 7.4 volt servos.
*Due to the extremely high frame rate that this receiver operates at, Digital servos should be used. In some cases Analog servos may not work with this receiver.