HID Global Corporation 5553 사용자 설명서
HF Multi ISO RFID Reader User Manual, Firmware V1.4
1508-USM-00-0-04
5
Supported Tags
5.1 MIFARE Transponder Family
The MIFARE transponder family consists of various 13.56 MHz transponder ICs, all compliant to
the ISO 14443. Infineon My-D tags that support the MIFARE command set are also included here.
the ISO 14443. Infineon My-D tags that support the MIFARE command set are also included here.
5.1.1 MIFARE Standard
The MIFARE Standard card consists of 16 sectors. A sector includes four blocks of 16 bytes each.
MIFARE Standard
Sector 2
Sector 0 (Block: 0...3)
Block 8:
Data or value (16 bytes)
Sector 1 (Block: 4...7)
Block 9:
Data or value (16 bytes)
Sector 2 (Block 8...11)
Block 10:
Data or value (16 bytes)
...
Block 11:
Access Conditions (4 bytes),
Key A, Key B (16 bytes)
Sector 15 (Block 60...63)
5.1.1.1
Sector 0 / Block 0
Block 0 is read only.
Serial Number (4 bytes)
Check byte (1 byte)
Manufacturer data (11 bytes)
5.1.1.2
Blocks 3, 7, 11, 15 …
Transport keys are set on delivery:
Key A (6 bytes)
Access Conditions (4 bytes)
Key B (6 bytes)
Key A
A0 A1 A2 A3 A4 A5 (Infineon) or FF FF FF FF FF FF (new NXP cards)
Key B
B0 B1 B2 B3 B4 B5 (Infineon) or FF FF FF FF FF FF (new NXP cards)
Access Conditions
FF 07 80 xx (key A is used to read or write; key A itself is not readable; key B is data only). For
further information refer to the MIFARE card manual.
further information refer to the MIFARE card manual.
Remarks
Enabled keys are always read as 00 00 00 00 00 00
Using key B as a data area will cause a security gap, due to the fact that it is necessary to rewrite
key A and the access conditions at each write process. It is not recommended to use key B as a
data storage area.
key A and the access conditions at each write process. It is not recommended to use key B as a
data storage area.
August 2010
Page 109 of 144
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