HID Identity 6055B FlexSmart MIFARE 6055BGL0000 User Manual
Product codes
6055BGL0000
Application Note 25 – Using the Model 6055B HID Mifare Reader
Page 2
HID Factory Encoded MIFARE Cards
HID can encode OEM Wiegand card data onto new MIFARE cards at the factory
into the same formats provided on 125 kHz cards, including the new Long
Format. The customer simply orders MIFARE cards with Wiegand encoding by
specifying:
HID can encode OEM Wiegand card data onto new MIFARE cards at the factory
into the same formats provided on 125 kHz cards, including the new Long
Format. The customer simply orders MIFARE cards with Wiegand encoding by
specifying:
HID format number
Facility Code
ID range
Additional fields, such as Issue Level, OEM Code, etc.
Ink jetting
Facility Code
ID range
Additional fields, such as Issue Level, OEM Code, etc.
Ink jetting
The OEM card data bears no relationship to the unique random 32-bit CSN.
HID normally encodes the Wiegand OEM card data into Sector 1 of the MIFARE
card and protects the data with an HID proprietary key, which is not published.
The HID proprietary key is also securely stored in each HID MIFARE reader.
On HID factory encoded cards, all sectors including the MIFARE Applications
Directory are protected with Philips default keys (except for sector 1, which
contains access control data, Figure 1). These keys are published, and are
present in most generic MIFARE readers. Only HID readers have the HID keys,
which enable the readers to read HID access control data. (HID keys also have
Philips default keys for use in transaction mode.)
card and protects the data with an HID proprietary key, which is not published.
The HID proprietary key is also securely stored in each HID MIFARE reader.
On HID factory encoded cards, all sectors including the MIFARE Applications
Directory are protected with Philips default keys (except for sector 1, which
contains access control data, Figure 1). These keys are published, and are
present in most generic MIFARE readers. Only HID readers have the HID keys,
which enable the readers to read HID access control data. (HID keys also have
Philips default keys for use in transaction mode.)
Fig 1 - HID Factory Encoded MIFARE Card – Standard Sector Allocation
Sector 0 – CSN, MIFARE
Applications Directory – Default A &
B Keys
Applications Directory – Default A &
B Keys
Sector 8 – Empty Sector – Default A &
B Keys
B Keys
Sector 1 – HID Wiegand OEM Card
Data – HID Secret Keys
Data – HID Secret Keys
Sector 9 – Empty Sector – Default A &
B Keys
B Keys
Sector 2 – Empty Sector – Default A &
B Keys
B Keys
Sector 10 – Empty Sector – Default A
& B Keys
& B Keys
Sector 3 – Empty Sector – Default A &
B Keys
B Keys
Sector 11 – Empty Sector – Default A
& B Keys
& B Keys
Sector 4 – Empty Sector – Default A &
B Keys
B Keys
Sector 12 – Empty Sector – Default A
& B Keys
& B Keys
Sector 5 – Empty Sector – Default A &
B Keys
B Keys
Sector 13 – Empty Sector – Default A
& B Keys
& B Keys
Sector 6 – Empty Sector – Default A &
B Keys
B Keys
Sector 14 – Empty Sector – Default A
& B Keys
& B Keys
Sector 7 – Empty Sector – Default A &
B Keys
B Keys
Sector 15 – Empty Sector – Default A
& B Keys
& B Keys