Honeywell Intelliguard 9000 Installation Instructions Manual page 10

INTELLIGUARD 9000™
Loop Parameters and Programming
The following parameters define the possible loop
programming types:
Parameter 0: Default value = 0.
— 0 = The seven segment display is inactive when the tamper
switch is pressed.
— 1 = The seven segment display remains active when the
tamper switch is pressed.
Parameter 1: Default value = Type 2.
— Parameters 1 through 6 are loop type 0, 2, 3 or 4. Refer to
Fig. 10.
Parameter 7: Default value = 0.
— 0 = Keep programmed loop types when exiting Program
Mode.
— 1 = Return to default loop types when exiting Program
Mode.
TYPE TYPICAL LOOP SCHEMATIC (FIVE LOOPS)
N.C.
LOOP +
0
TAMPER
LOOP
TYPE LOOP –
N.C.
2
LOOP +
LOOP
TAMPER
TYPE
LOOP –
LOOP +
LOOP –
3
LOOP
+12 VDC
TYPE
LOOP –
LOOP +
4
LOOP
TYPE
LOOP –
COMMUNICATION AND ALARM DISPLAY
The BIC-6 has three modes:
— P allows the user to program the configuration of the
individual loops.
— C enters the Communication Display mode and causes the
center bar (RECEIVE) on the LED display to light each
time the BIC-6 receives communication from the CU. The
bar closest to the terminal (TRANSMIT) lights each time
the BIC-6 responds.
— A enters the Alarm Display Mode for the loops. If the loops
are normal, a bar displays (—) on the LED. If the loop is in
alarm, the loop number appears on the LED display and
the decimal point lights; (for example, 4.) for loop four. If
the loop is in trouble, the loop number appears on the LED
display, but the decimal point is not lit; (for example, 5) for
loop five. If more than one loop is abnormal, the display
scrolls to show each abnormal loop for one second.
74-3047—1
2.2K, 5%, 1/4W
2.2K
CONTACT
5%
N.C. 1/4W
2.2K
CONTACT
5%
N.O.
1/4W
OR
ADDITIONAL RELAY
N.O. C N.C.
CONTACT
N.C.
Fig. 10. Possible loops, circuits for BIC-6 device.
10
There are four possible combinations of loops and end-of-line
resistors. Each loop may be independently programmed for
any of the loop types shown in Fig. 10.
To set loop type:
a. Press switch S3 (QUIT) to return to C on the display.
b. Press S1 (NEXT) until the LED flashes P .
c. Press S2 to accept PROGRAM mode.
d. Press S1 to scroll through the loops to loop 1.
e. Press S2 to accept programming for the selected
loop. The decimal point lights in the bottom right cor-
ner of the LED display (DS1) to indicate the selected
loop type number.
f. Press S1 to scroll to the desired loop type number,
as shown in Fig. 10.
g. Press S2 to accept the desired loop type number
and display the next loop.
h. Repeat steps e. through g. for each loop.
Press S3 (QUIT) to leave PROGRAM mode.
i.
DESCRIPTION
= TROUBLE (VERSION 006 OR HIGHER)
SHORT
= ALARM (VERSION 005 OR LOWER)
2.2K = NORMAL
4.4K = ALARM
OPEN = TROUBLE
CIRCUIT USING A NORMALLY CLOSED
CONTACT WITH END OF LINE RESISTOR.
SHORT = ALARM
2.2K = NORMAL
OPEN = TROUBLE
CIRCUIT FOR ULC INSTALLATIONS USING A NORMALLY
OPEN CONTACT WITH END OF LINE RESISTOR.
A REGULAR LED CAN BE CONNECTED ACROSS LOOP INPUTS.
NO SERIES RESISTOR REQUIRED WITH LED (RESISTOR
PROVIDED INTERNALLY).
LOOP "+" INPUT NOT USED.
CONNECT OUTPUT RELAY
BETWEEN "–" LOOP INPUT
AND "+12 Vdc"
SHORT = NORMAL
OPEN = ALARM
UNSUPERVISED CLOSED LOOP
Alarm Status Display Examples
— Indicates normal status for all loops.
2 Indicates trouble on loop 2.
4. Indicates alarm on loop 4.
2-Input Concentrators (BIC-2), 2-Input Concentrators
with Hold-up (BIC-2 HU)
NOTES:
— The BIC-2 and BIC-2 HU are functionally very
similar. The same diagrams apply to both devices.
They differ in that the BIC-2 HU has red buttons
and the Hold-up function must be programmed
into the I9000 CU, while the BIC-2 has white but-
tons and can be used for any purpose other than
the Hold-up function. The BIC-2 can be pro-
grammed accordingly in the I9000 CU.
M16078E