| Customization: | Available |
|---|---|
| Certification: | RoHS, ISO, CE |
| Shape: | Irregular Shape |
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RFID, or Radio Frequency Identification, is a technology that uses electromagnetic fields to automatically identify and track tags attached to objects. These tags contain electronically stored information that can be read from a distance, making RFID incredibly efficient for various applications.
RFID systems consist of three main components: an RFID tag (or transponder), an RFID reader, and an antenna. The RFID reader sends out electromagnetic waves, which are picked up by the tag's antenna. This activates the tag, allowing it to transmit the data back to the reader.
| Operating Frequency | LF 125KHz, HF 13.56MHz UHF 860-960MHz |
| Chip IC | LF: TK 4100, EM 4200, EM 4305, T5577, HITAG 1, HITAG 2, HITAG S, etc. |
| HF: FM11RF08, MF S50, FM11RF32N, MF S70(4KB),MF UTL EV1, MF UTL-C, MF D21, MF D41, MF D81, MF PLUS S, MF PLUS X, MF PLUS X, TAG-IT, TOPAZ512, etc. | |
| UHF: U-CODE EPC G2, U-CODE G2XL, U-CODE G2XM, Alien H3, Alien H4, Monza 3, Monza 4, Monza 5, etc. | |
| Standard | ISO1443, ISO15693, ISO18000 |
| Material | PVC, PET |
| Dimension | 310mm*468mm, Max size 520mm*420mm, A4 210mm*297mm |
| Layout | 2*5, 4*5, 5*5, 4*6, 4*7, 4*8, 4*10, 3*6, 3*7, 3*8, 6*7, 6*8, 6*14 or any customization of CR80 card or any unit antenna |
| Thickness | HF normal 0.45mm, 0.5mm, min 0.3mm |
| LF normal 0.6mm, min 0.5mm | |
| UHF 0.6mm,0.5mm | |
| Antenna | HF: air antenna, ultrasonic embedding or air etching |
| LF: air antenna or ultrasonic embedding | |
| UHF:AL etching | |
| Bonding | LF: wire bonding |
| HF: FUDAN, ULTRALIGHT | |
| UHF: ALIEN, H3 | |
| Read range | depends on the reader and the chip |
| Working temperature | -25ºC~55ºC |
| Storage temperature | -25ºC~65ºC |
Smart RFID cards are cards embedded with an RFID chip and antenna. These cards can store data, communicate with RFID readers, and perform various functions, such as access control, payment processing, and identity verification.
Smart RFID cards come in various forms, including contactless smart cards, hybrid cards (combining RFID and other technologies), and dual-interface cards (featuring both contact and contactless interfaces).
Smart RFID cards offer numerous benefits, such as increased security, convenience, and efficiency. They are also highly customizable, allowing businesses to tailor them to specific needs.
The inlay is a crucial component of smart RFID cards. It consists of an RFID chip and antenna embedded in a flexible substrate. The inlay enables the card to communicate with RFID readers and perform its intended functions.
Antennas in RFID cards are essential for transmitting and receiving data. They come in various designs and materials, depending on the card's application and required read range.
Smart cards are typically made from PVC, PET, or polycarbonate. These materials are chosen for their durability, flexibility, and compatibility with various printing and embedding processes.
An NFC antenna tag is a type of RFID tag designed specifically for NFC applications. It includes an NFC chip and antenna that enable short-range communication with NFC-enabled devices.
NFC antenna tags work by establishing a short-range wireless connection with an NFC reader, typically a smartphone or tablet. The tag's antenna picks up the reader's signal, activating the chip to transmit data back to the reader.
NFC antenna tags are used in contactless payment systems, smart posters, interactive marketing campaigns, and product authentication. They provide a convenient and secure way to transfer information and engage with users.
A printed blank inlay refers to an inlay with a pre-printed design that does not contain any personalized information. It serves as a base for further customization, such as adding logos, text, or graphics.
These cards are versatile, cost-effective, and easy to customize. They offer a blank canvas for businesses to add their branding and other essential information.
The manufacturing process involves embedding the RFID chip and antenna into the card's substrate, printing the blank inlay, and then laminating the card for durability. Quality control measures ensure that each card meets the required standards.
One of the main advantages of printed blank inlay white smart RFID cards is their versatility. Businesses can customize these cards to fit their specific needs, including adding logos, text, and graphics.
These cards are cost-effective, especially for businesses that need to produce large quantities. The blank inlay allows for easy and affordable customization, reducing production costs.
Smart RFID cards offer enhanced security features, such as encryption and authentication, protecting sensitive information and preventing unauthorized access.
In retail and supply chain management, smart RFID cards streamline inventory tracking, reduce theft, and enhance the customer experience through seamless checkouts.
In healthcare and pharmaceuticals, RFID cards ensure the accurate tracking of medical supplies and patient information, improving safety and efficiency.
In transportation and logistics, RFID cards facilitate efficient tracking of goods, reducing delays and improving delivery accuracy.
For access control and security, smart RFID cards provide secure and convenient access to buildings, rooms, and restricted areas, enhancing overall security.
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