User manual
EXAMPLES – PROGRAMMING AND OPERATION
1) Example 1 -- EM Card Only :
i) Programming :
10
1
001
#
(a) (b)
(c) (d) (e)
(a) The card is programmed for operating of the Output 1
(b) The operation is EM Card only
(c) Take ID number 001 in Group 1 to store the card, which is one of the IDs in 000-999
(d) Put the card close to the reader to read it, one beep confirms the reading
(e) Press # to store the “Card” into memory, two-beep confirms a valid entry
ii) Operation : (while the system is back to operation mode)
(a)
a)Put the EM card close to the reader. Two-beep confirms the card is read and the Output 1 activates
2) Example 2 -- Private User PIN Only :
i) Programming :
20
2
001
1234
#
(a)
(b) (c) (d) (e)
(a) The Private User PIN is programmed for operating of the Output 2
(b) The operation is Private User PIN only
(c) Take ID number 001 in Group 2 to store the Private User PIN, which is one of the IDs in 001-100
(d) Put Private User PIN “1 2 3 4” into the storage location
(e) Press # to confirm and store the “Private User PIN” into memory, two-beep confirms a valid entry
ii)Operation : (while the system is back to operation mode)
1234
#
(a) (b)
(a) Key in the Private User PIN “1 2 3 4”
(b) Confirm it with the # key. Output 2 activates
3) Example 3 -- EM Card + Secondary User PIN :
i) Programming :
10
3
002
24680
#
(a) (b) (c) (d) (e) (f)
(a) The card is programmed for operating of the Output 1
(b) The operation is EM Card + Secondary User PIN
(c) Take the ID number 002 in Group 1 to store the Card & PIN, which is one of the IDs in 000-999
(d) Put the card close to the reader. One beep confirms the reading
(e) Put Secondary User PIN “2 4 6 8 0” into the storage location
(f) Press # to store the “Card + Secondary User PIN” into memory, two-beep confirms a valid entry
ii) Operation : (while the system is back to operation mode)
24680
#
(a) (b) (c)
(a) Put the EM card close to the reader. Two-beep confirms the reading and 30 seconds waiting time is given for the
entry of the User PIN, the Amber LED keeps flashing
(b) Key in the Secondary User PIN “2 4 6 8 0”
(c) Confirm it with the # key. Output 1 activates
Read Card
Read Card
Read Card
Read Card
28
17
2) BASIC WIRINGS OF AN INTER-LOCK SYSTEM USING TWO SPLIT-DECODED KEYPADS
An inter-lock system needs two door controllers. This application example uses two keypad systems with simple cross
wire connection on their "Output 1 Inhibit" and "Inter-lock Control Output" terminals. It is necessary to link up the "(
-
)
GND" terminals of the two keypads as common ground to achieve the inter-lock logical functions.
• Use keypad to open the door from outside
• Press egress button to open the door from inside
• Connect the door magnetic sensors on the doors to monitor their positions
• While door 1 is open, then, door 2 is forced to keep close, or vice versa
• Use N.O. Relay output for fail-secure lock; and N.C. output for fail-safe lock
• Please also see the "NOTE" stated in the Application Example (1)
-
ALARM O/P
-
KEY ACT O/P
-
N.O.
-
COM
-
N.C.
-
N.O.
-
COM
-
N.C.
-
N.O.
-
COM
-
N.C.
-
TAMPER
-
GND(
-
)
-
DOOR SENS
-
O/P 1 INHIB
-
INT. LOCK
-
DU OUT
-
DOOR BELL IN
-
EG IN
-
DATA I/O
-
KEYPAD PWR
-
GND(
-
)
-
12-24V DC
N.O.
ELECTRIC LOCK
1N4004
DOOR 1
OUTPUT RELAY 1
N.O. Output for Fail-secure Lock
N.C. Output for Fail-safe Lock
N.C.
OUTPUT 1 OUTPUT 2 OUTPUT 3
DIGITAL KEYPAD
AD-1312 OR AP-960
EGRESS BUTTON
DOOR BELL
BUTTON
N.O.
(
-
)
(
-
)
N.O.
DOOR 1
SENSING
COMMON GROUND
(
-
)
DA-2800 OR DA-2801 DA-2800 OR DA-2801
CROSS WIRE CONNECTION FOR INTER-LOCK FUNCTIONS
-
ALARM O/P
-
KEY ACT O/P
-
N.O.
-
COM
-
N.C.
-
N.O.
-
COM
-
N.C.
-
N.O.
-
COM
-
N.C.
-
TAMPER
-
GND(
-
)
-
DOOR SENS
-
O/P 1 INHIB
-
INT. LOCK
-
DU OUT
-
DOOR BELL IN
-
EG IN
-
DATA I/O
-
KEYPAD PWR
-
GND(
-
)
-
12-24V DC
N.O.
ELECTRIC LOCK
1N4004
DOOR 2
OUTPUT RELAY 1
N.O. Output for Fail-secure Lock
N.C. Output for Fail-safe Lock
N.C.
OUTPUT 1 OUTPUT 2 OUTPUT 3
DIGITAL KEYPAD
AD-1312 OR AP-960
EGRESS BUTTON
DOOR BELL
BUTTON
N.O.
(
-
)
(
-
)
N.O.
DOOR 2
SENSING