High-performance Reader which integrated antenna and reader.
Combining reliable reading with ease of programing and communication.
Support RFID tag Performance Tester Simulation & Output Measurement Charts.
Support Reading UHF TemperatureTag with chip as VBL/CAB0/CAB1.
FU0046 on sales,until the stock finished.
Register can support up to prewritten 256 RFID labels and 256 counts
Self-intellectual property;
Design based on gen2 chipset with excellent anti-collision performance
Support ISO18000-6C (EPC C1G2) protocol tag;
860~960MHz frequency band (frequency customization optional);
FHSS or Fix Frequency transmission;
RF output power up to 30dbm(adjustable);
6dBi antenna gain with effect distance up to 0~25m*;
Support auto-running, interactive work mode;
Low power consumption
Power supply DC9V-36V
Interface: 8pin aviation plug
Communication Protocol: RS485 Modbus
Temperature measurement: -40℃ - 160℃
Temperature accuracy: ±1℃
Door open/close sensor range: 0-20mm
Dimension: 128*128*50mm (excl. installation kit)
Weight: 1.1kg (excl. installation kit)
Installation: screw mount (DIN35 installation option)
DO output:DC9-36V/100mA
Note: Please switch off power supply and switch on again to reconnect RFID reader for function read if a Modbus RFID Reader with firmware version lower than V3.87 doesn't measure temperature normally.
High-performance UHF RFID fixed reader is a specialized device designed for reading and managing data from passive UHF RFID tags in various applications. These fixed readers are typically installed in fixed locations, such as gates, loading docks, or entry points, to provide continuous and high-speed RFID tag reading. Here are some key features and functions of high-performance UHF RFID fixed readers:
1. UHF RFID Compatibility: These fixed readers are designed to work with UHF RFID tags, which operate in the ultra-high-frequency range (typically 860-960 MHz). UHF RFID offers a longer read range and faster data communication compared to lower-frequency RFID systems.
2. High Read Speed: High-performance fixed readers are capable of rapidly reading multiple RFID tags simultaneously, often in motion or at high speeds. This is crucial for applications with a high volume of tagged items passing through a read zone, such as inventory management or logistics.
3. Multiple Antennas: Many high-performance fixed readers support multiple antennas to cover larger read zones and ensure a higher tag read rate.
4. Data Filtering and Processing: These readers often have advanced data filtering and processing capabilities to extract relevant information from the RFID tag data and reduce unwanted reads.
5. Connectivity Options: They typically offer various connectivity options, including Ethernet, Wi-Fi, and serial ports, to connect to local networks and transmit data to back-end systems.
6. Application Integration: High-performance fixed readers are commonly integrated into existing systems, such as warehouse management systems (WMS) or inventory control systems, through standard communication protocols and APIs.
7. Rugged Design: To ensure reliability in industrial and outdoor environments, many of these readers are built with rugged casings, providing protection against environmental factors like dust, moisture, and temperature extremes.
8. Power over Ethernet (PoE): Some fixed readers support Power over Ethernet, which simplifies installation by allowing both power and data to be supplied through a single Ethernet cable.
9. Customizable and Upgradeable: These readers often provide customization options for specific application requirements and support firmware upgrades to add new features and improvements.
10. Remote Management: Some models offer remote management and monitoring capabilities, allowing system administrators to configure, update, and troubleshoot the readers remotely.
High-performance UHF RFID fixed readers are used in a wide range of industries and applications, including inventory and asset management, supply chain and logistics, access control, and retail. The selection of a specific model should be based on your application's requirements, such as read range, read speed, and environmental conditions.