Fudan 1k 13.56MHz
Introducing Fudan 1k 13.56MHz Cards from ID Card Centre, the ideal solution for organisations that require secure access control and identification. This pack of 100 ISO Printable technology cards is perfect for businesses of all sizes and are designed to work seamlessly with any 13.56MHz RFID reader.
Fudan 1k 13.56MHz Cards offer advanced security features that ensure only authorised individuals can access restricted areas. These cards are factory encoded with an identification number which can be used for enrolment or you can further enhance the security by encoding one or more of the sectors on the card with your own data. These cards are cost effective and secure, making them an ideal solution for businesses with high-security needs.
These cards are also incredibly versatile and can be used for a wide range of applications beyond access control. They can be used for time and attendance tracking, cashless vending, and more. Their high-quality construction ensures they can withstand daily use and maintain their functionality over time.
With Fudan 1k 13.56MHz Cards, you can create a customised access control system that meets the unique needs of your organisation. These cards are compatible with a range of card printers and software and can be easily integrated into your existing systems.
Overall, Fudan 1k 13.56MHz Cards are an excellent investment for any company or organisation that needs to implement a secure access control system. With their advanced security features, versatility, and compatibility with a range of systems, they are the perfect solution for managing access and identification in your workplace.
Product code: 20-1040-C
Pack size: 100
Card memory: 1k
Frequency: 13.56 MHz
No battery required, contactless transmission of data
Fast data transfer 106kbit/s
Thickness 820 micron
We can also pre-print your cards should you require a higher quality print or security features, please get in touch and we would be happy to provide you with a quotation..
|ID Cards and Fobs|
|Card Thickness||760 Micron|