User manual

ManualsBrandsSYGONIX ManualsDoor & Window ProtectionCode lock type Surface-mount IP66 + separate verification unit

6) Record an “EM Card + Commom User Code” to Operate The Output 1 for Door Open

004 #

(a) (b) (c) (d) (e)

(a) 10 = Programming Location for Output 1

(b) 4 = Programming option for EM Card + Common User Code

(d) Read Card = Put the Card close to the card reader

(e) # = Confirm the card is read, 2 beeps, the Common User Code goes to this User ID automatically

(f) A Common User Code (for example: 8 6 2 5) MUST be set at the Programming Location 03 first for this operation

mode. The code can be used for all the EM Cards in this operation mode.

REMARK:

If more User PINs and Cards are required for Output 1, repeat the procedures (3) , (4) , (5) or (6) above with other User

IDs, such as 005, 006, 007 --- 999 etc. Total 1,000 users are allowed. See Programming Location 10 for the details.

7) Close The Programming Mode

---- 2 beeps

The programming mode is closed. The keypad is back to normal operation mode

OPERATION

8) Open The Door with The EM CARD

---- 2 beeps, the door is open

9) Open The Door with The User PIN

8321

---- 2 beeps, the door is open

10) Open The Door with The EM CARD + User PIN

6123

---- 2 beeps, the door is open

11) Open The Door with The EM CARD + Common User Code

8625

---- 2 beeps, the door is open

REMARK:

In the next Section, “KEY IN AND STORE THE DESIRED VALUES” describes all the features and functions of the system

in detail. Users can follow them to tailor the desired values for their access control systems. Suggest the general users

also spend some time on them to get acquaint with this powerful system for future expansion.

READ CARD

THE 26 BIT WIEGAND DATA OUTPUT FROM THE EM CARDS

The Wiegand protocol for card reading has 1 first parity bit, 24 bits of the Card ID, and 1 stop bit for a total of 26 bits.

The first parity bit is an Even parity bit calculated from the first 12 bits of the code and the trailing parity bit is an Odd

parity bit from the last 12 bits. The data transmitted is in Binary codes for the Card reading.

Example 1: Wiegand Output of Reading An EM Card

Each EM card or Keyfob is marked with an unique ID in Decimal Digits that is the code read by the reader. The EM card

is also marked with a “3 digit+5 digit” code that does not belong to this system and can be ignored.

a) The Code Marked on One of The EM Cards :

The ID Code to be read for Wiegand Output The Code does not belong to this system

The Code in Decimal Number : 6 6 1 3 7 7 9

The Code 6 6 1 3 7 7 9 Equivalent to Hex Number : 6 4 E B 1 3

b) Each Hex Number Consists of 4 Bits, Total 26 Bits of Wiegand Data Output from Card Reading:

E 6 4 E B 1 3 O

An Even Parity Bit of 6 4 E = 0 An Odd Parity Bit of B 1 3 = 1

c) The 26 bits Wiegand data sending out in Binary after reading of the card:

0 0 1 1 0 0 1 0 0 1 1 1 0 1 0 1 1 0 0 0 1 0 0 1 1 1

NOTE:

In all the operation configurations of card reading including “Card only”, “Card + Secondary User PIN”, and “Card +

Common User PIN”, the card has the priority to be read and all these configurations are considered of reading a Card.

The keypad provides Wiegand Data output for the Card only and the User PINs attached are NOT taken into account for

the Wiegand output.

0006613779

008,18789

READ CARD