EN
INSTALLATION MANUAL
12
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cdvigroup.com
SOLARKPW-SOLARKPB
Dual Technology Digicode
®
/Proximity reader - Wiegand
8] 26-BIT WIEGAND FORMAT
Chronograms
0 logic
\DATA1
\CLOCK
\DATA0
1 logic
50
µS
50
µS
2MS
2MS
Interface
- The output format is 26-bit Wiegand (Signals: DATA1, DATA0 and CLOCK),
- Output signal in open collectors (pull up of 2.2K in +5V) 26-bit hexadecimal output format.
The frame is made of 26-bit and built as follow:
- First parity: 1-bit – even parity for the first 12-bit,
- User Code: 3 half of a byte represent the code entered. Each byte is transferred from bit 7 to bit 0,
- Second parity: 1-bit – odd parity for the last 12-bit.
Bit 1
Bit 2 … bit 25
Bit 26
Even parity on bit 2…bit13
Data (24 bits)
Odd parity on bit 14…bit 25
KEYPAD CODE
Example with a 4-Digit keypad code: « 1 3 7 A » Then « B » & « 1 3 7 5 » Then « B »
1
0000
0000
0001
0011
0111
0101
0
Direct
Parity 1
0
0
1
3
7
A
Parity 2
Hexadecimal
Parity 1
0
0
0
5
5
F
Parity 2
Example with a 5-Digit keypad code: « 7 1 3 7 A » Then « B » & « 7 1 3 7 5 » Then « B »
Direct
Parity 1
0
7
1
3
7
A
Parity 2
Hexadecimal
Parity 1
0
1
1
6
C
F
Parity 2
Example with a 6-Digit keypad code: « 6 7 1 3 7 A » Then « B » & « 6 7 1 3 7 5 » Then « B »
Direct
Parity 1
6
7
1
3
7
A
Parity 2
Hexadecimal
Parity 1
0
A
3
E
8
F
Parity 2
- Parity 1:
«0» if the number of 1 in bit 2 to bit 13 is even, «1» if the number of 1 in bit 2 to bit 13 is odd.
- Parity 2:
«0» if the number of 1 in bit 14 to bit 25 is odd, «1» if the number of 1 in bit 14 to bit 25 is even.
BADGE CODE
EX: 0F01198AAD
Parity 1
1
9
8
A
A
D
Parity 2
