U9ABS UHF RFID LONG RANGE 9dBi CIRCULAR POLARIZATION ANTENNA WATERPROOF

U9ABS UHF RFID LONG RANGE 9dBi CIRCULAR POLARIZATION ANTENNA WATERPROOF

RM823.00 RM633.10

The U9ABS is the latest addition to the high-performance RFID antenna lineup and is the only UHF RFID antenna available to the market that offers no-compromise performance in a small package. The antenna offers a gain specification of 9 dBi. In effect the antenna is providing the performance one would expect of a much larger antenna. The antenna is not only mechanically robust but is less likely to be exposed to excessive damage by virtue of its reduced size.

Available on backorder

The U9ABS is the latest addition to the high-performance RFID antenna lineup and is the only UHF RFID antenna available to the market that offers no-compromise performance in a small package. The antenna offers a gain specification of 9 dBi. In effect the antenna is providing the performance one would expect of a much larger antenna. The antenna is not only mechanically robust but is less likely to be exposed to excessive damage by virtue of its reduced size.

Technical Specification: -

  1. Operating Frequency: 902MHz - 928MHz
  2. Gain: 9dBi
  3. Circular Polarization
  4. Standing Wave Ratio: 1.4
  5. Operating Temperature: -40C - 55C
  6. Connector Type: N-type female (connects to N-type male)
  7. Enclosure Material: ABS
  8. Dimension: 259mm x 259mm x 41mm
  9. Weight: 0.95kg
Weight 2 kg
Dimensions 30 × 30 × 10 cm
What's in the box?

An Antenna, N-Type Female to N-Type Male Converter

Warranty

Local Manufacturer Warranty. Warranty Period: 1 Year. Warranty Policy: Upon manufacturer's defects.

The U9ABS is the latest addition to the high-performance RFID antenna lineup and is the only UHF RFID antenna available to the market that offers no-compromise performance in a small package. The antenna offers a gain specification of 9 dBi. In effect the antenna is providing the performance one would expect of a much larger antenna. The antenna is not only mechanically robust but is less likely to be exposed to excessive damage by virtue of its reduced size.