HID Identity FlexSmart MIFARE 6055BBL0023 Benutzerhandbuch
Produktcode
6055BBL0023
Application Note 25 – Using the Model 6055B HID Mifare Reader
Page 5
Fig 2 - Card Read Mode Options
Card Read Mode
Description
Comments
0
HID Data Only
Reader looks in Sector 1 (or user-configured sector) first,
then scans MAD for the HID AID. If HID data is found, it
is output in Wiegand format as programmed, or if HID
data is not found, the card read fails.
then scans MAD for the HID AID. If HID data is found, it
is output in Wiegand format as programmed, or if HID
data is not found, the card read fails.
1 HID+MIFARE
CSN
Reader looks in Sector 1 (or user-configured sector) first,
then scans MAD for the HID AID. If HID data is found, it
is output in Wiegand format as programmed, or if HID
data is not found, the reader outputs the CSN in the
configured Wiegand output mode.
then scans MAD for the HID AID. If HID data is found, it
is output in Wiegand format as programmed, or if HID
data is not found, the reader outputs the CSN in the
configured Wiegand output mode.
2
CSN Only
Reader outputs CSN in the configured Wiegand output
mode.
mode.
Fig 3- Card Serial Number Output Mode Options
CSN Output Mode
Description
Comments
0
32 bit,
Outputs 32-bit CSN as Wiegand data (MSB first)
1 32-bit
reverse
(6055A)
Outputs 32-bit CSN as Wiegand data in reverse order (to
match previous model 6055A)
match previous model 6055A)
2
26 bit
Outputs 26-bit Wiegand data comprised of 16 lower bits
of 32-bit CSN, fixed 8-bit facility code, and beginning and
ending parity bits. Facility code defaults to 000, but can
be changed with a configuration card.
of 32-bit CSN, fixed 8-bit facility code, and beginning and
ending parity bits. Facility code defaults to 000, but can
be changed with a configuration card.
3
34 bit
Outputs 32-bit CSN plus beginning and ending parity bits
as Wiegand data
as Wiegand data
4
40 bit
Outputs 32-bit CSN plus 8-bit checksum as Wiegand
data
data
Contact HID Technical Support for information on ordering configuration cards, or
for information on card formats.
Existing Cards – Possible Scenarios
Because cards in an existing MIFARE card population have likely been encoded
by one or more application providers, HID has carefully designed its MIFARE
Readers and MIFARE Card Encoder to be adaptable to many different scenarios.
for information on card formats.
Existing Cards – Possible Scenarios
Because cards in an existing MIFARE card population have likely been encoded
by one or more application providers, HID has carefully designed its MIFARE
Readers and MIFARE Card Encoder to be adaptable to many different scenarios.
Scenario
Method
Comments
Customer has blank cards
with Philips default keys
with Philips default keys
Use MIFARE encoder –
encode HID data in sector 1
encode HID data in sector 1
Encoder will set up
MIFARE Applications
Directory and indicate HID
data in sector 1.
MIFARE Applications
Directory and indicate HID
data in sector 1.
Customer has encoded
cards with available sector
1 and Philips default keys
cards with available sector
1 and Philips default keys
Use MIFARE encoder –
encode HID data in sector 1
encode HID data in sector 1
Encoder will modify existing
MIFARE Applications
directory, indicating HID
data in sector 1
MIFARE Applications
directory, indicating HID
data in sector 1