Display: STNTransflective Display, LCD 128x64 Lattice, VA 73x39mm, LCD with white backlight
Certificate: CE0678, FCC ID: N4ZFLYSKYI6XiR-A8S Specifications:
Item Name: iR-A8S Receiver
Channels: PPM 8CH, i-BUS 18CH
Model type: Multi-rotor
Frequency range: 2.408-2.475GHz
Band width: 500KHz
Band number: 135
RX Sensitivity: -92 dBm
2.4GHz system: AFHDS 2A
Modulation type: GFSK
DSC port: PPM/i-BUS/S.BUS
Transfer method: FHSS
Data output: 1.5mm*3 Pin PPM/i-BUS/S.BUS
Antenna length: 26mm (Not including brass contacts)
Input power supply: 4.0-8.4V
Display method: LED
No ground interference ( Transmitting and receiving 1 m from the ground): >300m
Working current: 40mA
Each channel data: depend on the transmitter
Channel delay: <15mS
Certificate: CE0678, FCCID: N45ZA8S00
The AFHDS 2A (Automatic Frequency Hopping Digital System Second Generation) developed and petented is specialy developed for all radio control models. Offering superior protection against interference while maintaining lower power consumption and high reliable receiver senstivity, AFHDS technology is considered to be one of the leaders in the RC market today.
Capable of sending and receiving data, each transmitter is capable of receiving data from temperature, altitude and many other types of sensors, servo calibration and i-BUS Support.
Multi-channel Hopping Frequency
This system bandwidth ranges from 2.408GHz to 2.475GHz. This is divided in 135 channels. Each transmitter hops between 16 channels (32 for Japanese and Korean version) in order to reduce interference from other transmitters.
Omni-directional Gain Antenna
The high efficiency Omni-directional high gain antenna cuts down on interference, while using less power and maintaining a strong reliable connection.
Unique ID Recgnition System
Each transmitter and receiver has it's own unique ID. Once the transmitter and receiver have been paired, they will only communicate with each other, preventing other systems accidentally connecting to or interfering with the systems operation.
Low Power Consumption
The system is built using highly sensitive low power consumption components, maintaining high receiver sensitivity, while consuming as little as one tenth the power of a standard FM system, dramatically extending battery life.