Take a look at our 3d printing and laser cutting training here! Click here!

MiFare Classic (13.56MHz RFID NFC) Bracelet

SKU: ZO-597
Manufacturer: NXP Semiconductors
Model/MPN:
Availability: 10
16.00AED
Qty: Add to Cart

MiFare Classic (13.56MHz RFID NFC) Bracelet

What you see here is a MiFare Classic silicone bracelet that is blank and could be used and found in either parties/events or identification or other systems where a small proximity card is desired. But in general, this bracelet has an antenna, a NXP S50 chip, and is powered mainly in a passive way whenever it gets placed few inches away by the reader/writer.
Besides that, although reading can be successfully done by any 13.56MHz RFID/NFC reader, you should still make sure if it handles MiFare cards since it supports some other encoding standards.
However, good news is that it has been tested with PN532 NFC/RFID breakout board and Adafruit NFC/RFID Shield for Arduino, and it works just fine with those.
Not only they can be stored and written to 1KB of data divided into banks and found into writable EEPROM, but also, they are able to handle re-writes reaching more than 100,000.
In order to read and write data to the EEPROM inside the tag, check this out:
 PN532 NFC/RFID breakout board or Adafruit NFC/RFID Shield for Arduino
Also, we’ve already put permanent 4-byte ID into the chip to help you in identifying one tag from the other. (ID# can’t be changed)
Now available in Dubai, UAE, Oman, and Qatar!

 

Features:

S50 chip specification:
  • 1 KiloByte (8 KiloBit) non-volatile EEPROM storage
  • Built in encryption engine with 48-bit key
  • 4 Byte unique identifier burned into the chip
  • 13.56 MHz frequency
Bracelet specification:
  • Fits wrists/ankles/hands up to 70mm (2.75") diameter 25.4mm diameter
  • Bracelet made of rugged waterproof silicone
  • 0.9 grams / 0.03 oz
  • Works about 1" away from reader
  • Weight: 14.86g
Downloads:

NXP S50 datasheet

 

  • Description

    This is a blank MiFare Classic silicone bracelet - often used for parties/events or identification but also found in other systems where a small proximity card is desired. The bracelet contains a NXP S50 chip and an antenna, and is passively powered by the reader/writer when placed a couple inches away

    These can be read by almost any 13.56MHz RFID/NFC reader but make sure it can handle MiFare cards as there are a few other encoding standards (like FeLica) They are tested and work great with both our PN532 NFC/RFID breakout board and Adafruit NFC/RFID Shield for Arduino!

    These chips can be written to & store up to 1 KB of data in writable EEPROM divided into banks, and can handle over 100,000 re-writes. You can use our PN532 NFC/RFID breakout board or Adafruit NFC/RFID Shield for Arduino to read and write data to the EEPROM inside the tag. There is also a permanent 4-byte ID burned into the chip that you can use to identify one tag from another - the ID number cannot be changed.
  • Technical Details

    S50 chip specification:
    • 1 KiloByte (8 KiloBit) non-volatile EEPROM storage
    • Built in encryption engine with 48-bit key
    • 4 Byte unique identifier burned into the chip
    • 13.56 MHz frequency
    Bracelet specification:
    • Fits wrists/ankles/hands up to 70mm (2.75") diameter 25.4mm diameter
    • Bracelet made of rugged waterproof silicone
    • 0.9 grams / 0.03 oz
    • Works about 1" away from reader
    • Weight: 14.86g


    Downloads:

    NXP S50 datasheet

Learn

Add RFID/NFC read and write to your Pi in an hour!
Electrical
Operating Frequency
13.56MHz
There are no reviews for this product.

Write a review

Your Name:


Your Review:Note: HTML is not translated!

Rating: Bad           Good

Enter the code in the box below: