Single antenna interface supporting ISO 15693 and ISO 18000-3M1 standard protocols.
High sensitivity read and write performance and fast collision avoidance processing algorithm.
Read tags at speeds up to 70 fps.
Widely used in library, archive management, production process automation, laundry automation management, drug tracking.
Operating frequency: 13.56 MHz
Supported standards: ISO/IEC 15693 and ISO/IEC 18000-3M1
RF power: 0.25~1.5W (configurable)
Antenna interface: SMA×1
Communication interface: RS232 / RS485 / USB / Ethernet (Ethernet)
Operating mode: Host control/scan mode (configurable via configuration tool)
Power supply: 12V DC
Maximum power consumption: 10W
Size: 123×105×25mm
HF (High-Frequency) reader, also known as an HF RFID reader or HF NFC reader, is a device designed to communicate with and read information from RFID tags or NFC devices operating in the HF frequency range, typically around 13.56 MHz. These readers are used in various applications, including access control, asset tracking, inventory management, contactless payment systems, and more. Here are key features and considerations for an HF reader:
1. Frequency Compatibility: HF readers operate in the HF frequency range, which is around 13.56 MHz. They are compatible with HF RFID tags and NFC devices that use this frequency.
2. Read Range: The read range of an HF reader can vary depending on factors such as the reader's power output and antenna design. Typical read ranges range from a few centimeters to several centimeters or more.
3. Antenna Type: HF readers may have built-in antennas or support external antennas. The type of antenna can impact the read range and coverage area.
4. Data Writing Capability: Some HF readers are equipped with the capability to write data to RFID tags or NFC devices. This is essential for applications that require data updates or encoding tags for specific purposes.
5. User Interface: HF readers often have user-friendly interfaces that may include touchscreen displays, physical buttons, or a combination of both. An intuitive interface is important for ease of use.
6. Connectivity: HF readers can connect to other devices or networks using various communication interfaces, including USB, Ethernet, Wi-Fi, Bluetooth, and serial connections. Choose the appropriate interface for your integration needs.
7. Battery or Power Supply: Consider the power source for the HF reader. Handheld HF readers may have rechargeable batteries, while fixed readers may require a dedicated power supply.
8. Durability: Depending on the application, the reader may be exposed to different environmental conditions, so ensure that it is built to withstand factors like moisture, dust, and physical impacts.
9. Software and Integration: Verify that the reader is compatible with the software and systems you plan to use for data collection, management, and integration into your workflow.
10. Security: Some HF readers offer advanced security features, such as encryption and authentication, which are crucial for secure access control and payment applications.
11. Regulatory Compliance: Ensure that the HF reader complies with relevant industry standards and regulations, especially in applications that involve sensitive data or regulated industries.
HF readers are versatile tools for various applications requiring contactless communication and data retrieval. When selecting an HF reader for your specific needs, consider factors like read range, user interface, durability, and compatibility to ensure it meets your requirements.