PRT-LT Series Readers fv1.25 Rev. G 2016-10-08
Page 7 from 17
PIN/keys transmission options
X Description Details
X=0
1-10 digits long PIN,
transmitted in BCD format
Each key pressed is buffered in reader’s memory; with a press of a [#]
key reader transmits entire PIN code. The PIN code is transmitted as a
BCD coded number.
X=1
1-12 digits PIN, transmitted
in binary format
Each key pressed is buffered in reader’s memory; with a press of a [#]
key reader transmits entire PIN code. The PIN code is transmitted as a
binary number.
X=2
Each key pressed is
transmitted separately as
4-bit number plus 2 control
bits
Each key pressed is immediately transmitted to the host controller as a
sequence of 6 bits (EXXXXP) where XXXX represents the code of the
pressed key supplemented by two control bits (E and P). The E
represents the even bit calculated from the first half of a transmitted
code where P represents the parity of a second half of the bit stream.
This format is compatible with HID 5355 series readers, option: With
Parity. Key coding as in Table B (below).
X=3
Each key pressed is
transmitted separately as
4-bit number
Each key pressed is immediately transmitted to the host controller as a
sequence of 4 bits (XXXX) which represent the code of the pressed key,
no control bits added. This format is compatible with HID 5355 series
readers, option: Without Parity. Key coding as in Table B (below).
X=4
Each key pressed is
transmitted separately as
8-bit number with parity
Each key pressed is immediately transmitted to the host controller as a
sequence of 10 bits (EXXXXXXXXP) where XXXXXXXX represents the
code of the pressed key supplemented by two control bits (E and P). The
E represents the even bit calculated from the first half of a transmitted
code where P represents the parity of a second half of the bit stream.
Key coding as in Table A (below).
X=5
Each key pressed is
transmitted separately as a
8-bit number without parity
bits
Each key pressed is immediately transmitted to the host controller as a
sequenc
the pressed key supplemented by two control bits (E and P). The E
represents the even bit calculated from the first half of a transmitted
code where P represents the parity of a second half of the bit stream.
Key coding as in Table A (below).
X=6
1-6 keys long PIN
transmitted as Wiegand 26
bit stream with control bits
1-6 keys long PIN, each key represented by 4-bit long codes (key codes
according to table B). Reader sends data after six keys are pressed or
earlier when # key is pressed. Reader wait max ca. 15 seconds for each
key press. Key’s buffer is cleared if no keys have not been entered
within ca. 15 seconds.
Examples:
Keys entered “1234#” – code transmitted “001234”
Keys entered “123456” – code transmitted “123456”
X=7
1-4 keys long PIN
transmitted as Wiegand 32
bit stream without control
bits
1-4 keys long PIN, each key represented by 8-bit long codes (key codes
according to table A). Reader sends data after four keys are pressed or
earlier when # key is pressed. Reader wait max ca. 15 seconds for each
key press. Key’s buffer is cleared if no keys have not been entered
within ca. 15 seconds.
Examples:
Keys entered “123#” – code transmitted “0123”
Keys entered “123456” – code transmitted “123456”
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