BioAffix
CardReader Desktop

Dual Antenna Touchless Card Reader

Meet BioAffix CardReader Desktop, a universal card reader that can be connected to BioAffix products via USB interface and is designed for use in desktop areas.

Can Read
All Smart Card Types

Thanks to the double antenna on it, BioAffix CardReader Desktop can read all touchless smart card types. It can read commonly used card types such as MIFARE Classic, MIFARE DESfire and HID iCLASS. In this way, you do not need to change your existing infrastructure to use the BioAffix CardReader Desktop device.

Update with
Touchless Card

You can update BioAffix CardReader Desktop touchless, thanks to the configuration files uploaded to the touchless smart cards.

Wide Frequency Range

BioAffix CardReader Desktop can read all low and high frequency cards in the market thanks to Turnstile’s 125kHz, 134.2kHz and 13.56MHz antenna support.

Biometric Feature on the Card

The biometric data obtained from the users in your organization is encrypted on the smart card of the person. In this way, card and biometric verification processes can be performed without the need for biometric data to be hosted on the server.

Efficiency Features

Take a closer look at the features of BioAffix CardReader Desktop developed to facilitate access control and authentication processes.

Voice Feedback

BioAffix CardReader Desktop can provide audible feedback to users during access control processes, according to the operation performed.

Led Lighted Feedback

Thanks to the LED light on it, it can give feedback to the user during the verification and transition processes.

 

Long Reading Distance

Thanks to its high and low frequency antennas, BioAffix CardReader Desktop can successfully read contactless smart cards at a distance of up to 10 cm.

Discover the Technical Specifications of BioAffix CardReader Desktop

Take a closer look at BioAffix CardReader Desktop’s  technical specifications

Related Products

Check out the products you can use with BioAffix CardReader Desktop

Software