UHF Multi-Antenna Long Range Reader
Product Code: ATX4
Key Features
- RA scalable reader that can be connected to 4 remote antennas
- RHighly adaptable and secure identification
- RLong-range identification with an adjustable read range of up to 10m
- ROpen Supervised Device Protocol (OSDP)
- RRF Power Up to +30,5 dBm
About the product
The ATX4 UHF Multi-Antenna Long Range Reader is a high performance ATEX & IECEx certified multi-antenna reader designed to streamline your vehicle or driver identification applications in explosive environments. It is especially suited for your contactless identification in (petro)chemical, gas filling stations, refineries, onshore/offshore plants and nuclear industries. The readers fit the two essential industry requirements security and reliability.
The high-performance identification – up to 10 m / 33 ft* – ensures comfort and reliability
for fluid vehicle access, without compromising safety.
The ATX4 reader offers the highest security levels by encrypting and signing your identifiers
to protect access credentials against copying and damage using methods recognized
by independent organizations specialized in information security (ANSSI).
With its four remote and independent antennas, the ATX4 reader can be adapted to all your long-distance identification requirements, such as the control of fleets of diverse vehicles (cars, trucks, motorcycles, etc.) or the identification of wide or multiple lanes (up to 4 adjacent lanes.
Installation
The ATX4 UHF Multi-Antenna Long Range Reader can be seamlessly connected to our range of top-of-the-line controllers, including the SDC-650 Multiple Door Controller (via OSDP), the SDC-620 Wiegand Door Controller (via Wiegand/OSDP), and the SDC-320 Wiegand Two Door Controller (via Wiegand). In addition, it can be connected to the SEB-722 remote IO expansion board (via Wiegand).
Operation
When a user presents their smartphone/vehicle tag at the reader, the reader transmits the corresponding user identifier number to the door controller for analysis. The controller then determines the access permission, based on predetermined access rules, which is subsequently conveyed to the reader. The reader, in turn, provides the appropriate feedback to the user through the use of its LED display and buzzer signals, reflecting the determined access permission status.
