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RDR-30581AKU pcProx Plus® BLE Black USB -Dual-frequency card reader with Blueto

$ 109.77

Availability: 10 in stock
  • Refund will be given as: Money Back
  • Condition: New
  • All returns accepted: Returns Accepted
  • MPN: RDR-30581AKU
  • Item must be returned within: 14 Days
  • Return shipping will be paid by: Buyer
  • Brand: RFIDEAS RFID

    Description

    RDR-30581AKU
    Overview
    pcProx® Plus BLE
    is new to the RF Ideas pcProx Plus cutting-edge card and badge reader range that combines the advantages of proximity and contactless technologies.
    RF IDeas pcProx Plus BLE
    is a dual-frequency programmable card reader with integrated Bluetooth® low energy technology (BLE). This reader allows users to leverage either their proximity or contactless employee ID badges, or any 125 kHz or 13.56 MHz tags or labels, for secure authentication and identification throughout the workplace. The pcProx Plus BLE interacts with sensors and mobile devices that are enabled with Bluetooth low energy. Depending on the end user’s application software, pcProx Plus BLE can be configured to utilize Bluetooth low energy beaconing to serve a wide variety of applications such as in-building location, secure authentication, and item tracking.
    As one of the most robust readers available today, the pcProx Plus is provided standard with four user-definable card configurations enabling an IT or security department to seamlessly integrate additional card types. Supporting nearly all card types worldwide, RF IDeas readers provide flexibility to any customer, integrator or end users working with different card technologies. Additionally, the user-adjustable beeper volume lets users set the volume low or turn it off for quiet zones, or adjust the beeper volume to high in noisy work environments. In addition, in certain industries such as manufacturing where machinery or other factors can cause electromagnetic interference, the 13.56 MHz auto-tuning antenna ensures the best power transfer between the card and reader to optimize read range despite interference.