Packaging Piece by Piece of Flexible Printed Circuit Board
Backside high temperature resistant with strong adhesive on wood
Raw meterial PI Resistant up to 260 degree high temperature
Widely used for industrial automatic production system with high temperature resistant needed products
Identifying items for automatic production, tracking the production process and for inventory management
Tag Dimension: 45*25*1mm (Copper Antenna Size: 40*22 mm)
Chip: NTAG213 ( Protocol: NFC ISO14443A)
Memory: TID/UID 7byte+ EPC/Block 180byte+ User 144byte+ Reserve
Operating Frequency: 13.0-14.5Mhz
FaceStock/Housing: Polyimide(PI)
Reading Range: 2 cm On Air-free/Plastic (depends on reader)
Installation: Adhesive
Characteristic: General/High Temperature Resist
Feature Option: Free consulting and free samples with solution proposal & evaluation, Fast sampling within 2-3days is provided to support ODM/OEM/SKD in order to meet the customized printing including mono/color barcode and text Embossing, laser-engraving, personalization and encoding service
High-temperature resistant HF (High-Frequency) tag is an RFID (Radio Frequency Identification) tag specifically designed to withstand exposure to elevated temperatures without degradation or loss of functionality. These tags are suitable for applications where extreme heat is present, such as industrial processes, automotive manufacturing, and high-temperature environments.Here are some key features and considerations related to high-temperature resistant HF tags:
1. Temperature Range: High-temperature resistant HF tags are designed to operate reliably in extreme heat conditions. The exact temperature range can vary depending on the specific tag model and construction, but they are typically able to withstand temperatures up to 200°C (392°F) or higher.
2. Tag Construction: High-temperature resistant HF tags are built using materials and components that can withstand prolonged exposure to heat without deterioration. They often incorporate high-temperature-resistant substrates, adhesives, and encapsulation materials to ensure durability.
3. HF RFID Technology: High-temperature resistant HF tags operate at the standard HF RFID frequency of 13.56 MHz. They communicate wirelessly with HF RFID readers or devices, enabling identification and data transfer.
4. Data Capacity: High-temperature resistant HF tags can store and transmit data like any other HF RFID tag. The available memory capacity may vary depending on the specific tag model and chip used.
5. Mounting Options: These tags are designed for various mounting options, such as adhesive backings, screw holes, or metal fasteners, depending on the specific application and the surface they are attached to.
6. Read Range: The read range of high-temperature resistant HF tags is generally similar to that of standard HF RFID tags. It can vary based on factors such as the tag's antenna size, the surrounding environment, and the specific RFID reader being used.
7. Application Areas: High-temperature resistant HF tags are suitable for a range of applications in high-temperature environments. These may include industrial processes, automotive manufacturing, metal heat treatment, manufacturing lines, and other settings where tags may be exposed to extreme heat.
8. Considerations for Extreme Conditions: While high-temperature resistant HF tags are designed to withstand heat, it is important to consider other environmental factors. For example, in addition to heat, exposure to chemicals, moisture, or physical stress may also impact the tag's performance and longevity. Consultation with tag manufacturers or suppliers with expertise in high-temperature applications can provide guidance on selecting the most suitable tag for specific extreme conditions.
High-temperature resistant HF tags offer a robust solution for RFID applications in extreme heat environments. They enable reliable identification and data transfer even under prolonged exposure to high temperatures, contributing to improved efficiency and performance in demanding industrial and manufacturing processes.