Datalogic is pleased to introduce the DLR-PR001 Radio Frequency Identification (RFID) portal reader. This product complements and extends the capability of our current RFID product family. It supports up to 16 antennas allowing unparalleled flexibility and performance in a compact, rugged form factor.The DLR-PR001 portal reader does not require an external PC. It is based on an embedded hardware architecture and a Linux operating system, making development of custom
Datalogic is pleased to introduce the DLR-PR001 Radio Frequency Identification (RFID) portal reader.
This product complements and extends the capability of our current RFID product family. It supports up to 16 antennas allowing unparalleled flexibility and performance in a compact, rugged form factor.
The DLR-PR001 portal reader does not require an external PC. It is based on an embedded hardware architecture and a Linux operating system, making development of custom software and solutions easy. A variety of connection options including Ethernet, USB 2.0 host ports and optional GPRS communication allow easy integration into your infrastructure and a lower total cost of ownership.
With flexible mounting options, easy communication and a broad variety of antenna configurations, the DLR-PR001 is a valuable tool in any organization’s AutoID toolkit.
The DLR-PR001 portal reader is best suited for complex AutoID scenarios where data can be collected and fed directly to the reader from multiple sources such as smart card readers, bar code readers, GPS and other in-field sensors.
Overview: The DLR-PR001 RAIN RFID long range portal reader is the result of extensive customer input and in-field experience. It is a UHF long range reader with GPRS and outstanding RFID reading performance, computing power and communication capabilities.
The reader is optimized for portal installations and features full power for up to 16 antennas, Gen 2 Dense Reader Mode management and high speed read rates.
Based on an embedded hardware architecture (x86) and a standard Linux Operating System, the DLR-PR001 reader eases the development of custom software and solutions. The on-board computing power and connectivity eliminate the need for an external PC and related cabling.
Features: •I EPC Class 1 Gen 2 and ISO 18000-6C compliant • Multi-Regional Support • Embedded Intelligence • Ethernet Port • USB 2.0 High Speed Host Port • Internal MicroSD slot • Integrated GPRS modem (optional) • Easily deployable and scalable • Multi-Regional Support • Linux Operating System • 4-port Antenna Ports • USB 2.0 High Speed Host Port or Ethernet Port
UHF LONG RANGE PORTAL READER The DLR-PR001 portal reader has been carefully designed according to customer requests and in-field experience from RFID installations. The result is a UHF long range reader with GPRS and outstanding RFID reading performance, computing power and communication capabilities. The reader is optimized for portal installations and features full power up to 16 antennas, Gen 2 Dense Reader Mode management and high speed read rates.
NO EXTERNAL PC OR CABLING REQUIRED Based on an embedded hardware architecture (x86) and a standard Linux Operating System, the DLR-PR001 portal reader eases the development of custom software and solutions. The on-board computing power and connectivity eliminate the need for an external PC and related cabling. This results in deployment and operations cost savings, thus reducing the total cost of ownership of installed devices.The DLR-PR001 portal reader is best suited for complex AutoID scenarios, where data can be collected and fed directly to the reader from multiple sources such as smart card readers, barcode readers, GPS and other in-field sensors.
USE IN ANY GLOBAL INSTALLATION The inclusion of an optional integrated GPRS modem, together with its’ compact and versatile form factor, allow the DLR-PR001 portal reader to be used in any global installation requiring RFID usage in remote areas. As a result, the DLR-PR001 portal reader allows solution providers to customize the reader to individual applications, thus creating their own specialized devices accordindly.