Support Reading Wire Seal Tags for Differents States
Support RFID tag Performance Tester Simulation & Output Measurement Charts
Support Reading UHF Temperature Sensor Tags with chip as VBL/CAB0/CAB1
Support Multiple Reading & Flashing of Passive LED tag and Active Led Buzzer tag
840-960MHz frequency band (Frequency customization optional)
Fully support EPC C1G2 (ISO18000-6C) protocol
Working frequency: 902~928MHz or 865~868MHz (can be adjusted according to the requirements of different countries or regions)
Support fixed frequency or frequency hopping transmission working mode
Reading distance from 10~300CM (can be adjusted according to the needs of different occasions)
Multi-label recognition performance > 50 pieces labels
Label recognition speed > 50 pieces/second
Tag cache capacity: 370 pieces @ up to 128 bits EPC or 120 pieces @ up to 496 bits EPC
Low-power design, support USB interface power supply or external single +9V power supply
RSSI is supported
2 GPIO universal output interfaces
Supports USB (Virtual Serial), RS232 Serial Communication, Wiegand (optional) and USB HID emulation keyboard (optional) interfaces
High stability, long-term continuous full load work at room temperature without heating
It can work 24 hours × 365 days a year
Firmware online upgrade is supported
Here are a few considerations and features you might want to look for when choosing a high-performance UHF RFID desktop reader:
1. Frequency Range:
- Ensure that the reader operates in the UHF frequency range (typically around 860-960 MHz), which is common for RFID applications.
2. Read Range:
- Look for a reader with a sufficient read range for your specific application. The read range can vary depending on factors such as the antenna, tag type, and environmental conditions.
3. Antenna Design:
- Consider the type and design of the antenna. Some readers come with fixed antennas, while others may allow for the connection of external antennas, providing more flexibility in deployment.
4. Connectivity:
- Check the available connectivity options. USB and Ethernet are common interfaces for desktop readers. Ensure that the reader can easily integrate with your existing systems.
5. Software Compatibility:
- Verify that the reader is compatible with the software or systems you plan to use for RFID data management. Some readers may come with proprietary software, while others are designed to work with various RFID software solutions.
6. Multi-Tag Reading:
- Look for a reader that can handle multiple tags simultaneously. This is crucial for applications where you need to read multiple tags in a single scan.
7. Durability and Build Quality:
- Consider the build quality and durability of the desktop reader, especially if it will be used in industrial or rugged environments.
8. Power Options:
- Check the power options available. Some readers may be powered via USB, while others may require an external power source.
9. Compliance and Certification:
- Ensure that the reader complies with relevant industry standards and certifications, especially if it is used in regulated environments.
10. User-Friendly Interface:
- A user-friendly interface can simplify the setup and operation of the RFID reader. Look for devices with intuitive software interfaces.
Before making a purchase, it's advisable to read compare specifications, and, if possible, test the reader in your specific environment to ensure it meets your requirements.