ADEMCO 652, 653 Installation Instructions Manual

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Nos. 652,653
PASSIVE INFRARED
MOTlON DETECTORS
GENERAL INFORMATION:
The No. 652 provides 18 zones of wide-angle coverage with a range of up to 35 feet (10.7m). The No. 653 offers 11 long
range zones with a narrow angle coverage of up 70 feet (21.3m). [At typical mounting heights of 7’6” (2.3m).]
Both models have the following important features:
l
High precision, computer-designed parabolic optical system.
l
Dual element pyre-electric sensor.
l
Low current drain which allows for extended system power source battery life.
l
Day Relay Disable option.
l
Pre-set zones for fast and easy installation.
l
Tamper protected wall/comer mounting plate.
l
Full LED memory/walk-test/night-disable capability.
The Nos. 662 and 653 must be
powered
from a
filtered
6V.DC or 12V.DC source that can provide at least 4 hrs. of
standby power.
The No. 495 Power Supply which can be plugged directly into any 24 hour 126V.AC outlet, can be used as a
convenient source of GV.DC, having up to 12 hours standby.
The detector is designed to operate at all times. When motion is detected, the units LED will light and its relay contacts will
transfer.
Alternatively,
when the detector is connected to a control that can provide a suitable switched voltage signal to indi-
cate the control’s ARMED or DISARMED state, the detector can be programmed to provide optional modes of LED and relay
operation. See OPTIONAL OPERATING MODES herein.
The Detectors have an additional provision for use of an external LED which can remotety duplicate the indication of the
detector’s built-in LED.
PRINCIPLES OF OPERATION:
The optical system divides the area into a series of protected zones. A special sensor measures the level of infrared energy
in each zone. When an intruder crosses or enters any zone, the resulting change in infrared energy is detected and an alarm
condition will be reported.
The sensor does
not
respond to visible light or slow changes in the background temperature of the area.
Because a passive infrared device employs no transmission of any kind, any number of units may be used in the same area.
Far infrared energy does not penetrate most building materials (even window glass) so the unit responds primarily to move-
ment within the protected area.
COVERAGE CONSIDERATIONS AND TYPICAL LAYOUTS:
No. 652: The pattern of protection provided by the 652 includes nine main zones which span an angle of approximately 90”;
and nine downward zones aligned in the same direction horizontally as the main zones. See Diagrams 1 and 2.
The.optical system has been designed to give a coverage range of 35’ (10.7m) based on a typical mounting height of 7’6”
(2.3m). However, the unit may be mounted at any height between 6’ (1.8m) and 9’ (2.7m) with modified range coverage as
shown in Diagram 2.
No. 653: The pattern of protection provided by the 653 includes eleven zones positioned in a pattern which is ideal for the
protection of hallways, corridors, aisles or nanow rooms.
The pattern consists of 3 main zones, three intermediate zones angled slightly below the main zones, and five downward-
zones (See Diagrams 3 and 4).
The optical system has been designed to give a coverage range of 70’ (21.3m) based upon a typical mounting height of 7’6“
(2.3m). However, the unit may be mounted at any height between 6’ (1.8m) and 8’ (2.4m) to achieve other patterns of cover-
age as shown in Diagram 4.
“Dead
Zone” Caution:
Note in Diagrams 2 and 4 that for certain mounting heights there are indicated “dead zones” within
which a person could be moving and not be detected by any of the units coverage mnea. In general, these dead zones are
apt to be present between the intermediate and main zones or between the detector and the downward zones as the units
mounting height is increased.
Diagram 5 indicates protection rangesfor the 652 and 653 at detector mounting heights of 6’ (1.8m) to 9’ (27m).
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Selecting a Mounting Location:
BeoatJSe the Nos. 652 and 653 passive Infrared Detectors respond to changes in energy which occur when an intruder
moves into or out of a zone, best coverage will be obtained if the mounting site is selected such that the likely direction of
intruder
motion
is ACROSS the pattern. See Diagrams 6a, band c.
In a
hallway,
aitie or narrow room, a No. 853 unit should be aimed directly down the center of the area; the intermediate
zones will prevent an intruder from avoiding detection by following the wall. See Diagram 7a.
An alternative approach is to angle the main zones from “comer-to-comer”. See Diagram 7b.
Avoid direct viewing, by the unit, of heat sources such as radiators, heating ducts, direct sunlight. etc.
INSTALLATlON AND WlRlNG:
Passive I.R. units are remarkably resistant to false alarm hazards but the following recommendations should be observed:
Avoid locating unit where central heating radiators, live fires or heating outlet ducts could be within the pro&five zones.
Avoid locating the unit in direct sunlight or directly above strong sources of heat.
Avoid locating unit on unstable surfaces.
Avoid running alarm wiring close to heavy duty electrical cables.
Mounting:
IMPORTANT:
Be careful during installation or adjustment NOT TO TOUCH THE REFLECTOR OR SENSOR SURFACES.
1. Mount the wall plate to a firm and vertical
surface (flat on wall or in comer), .as shown in Diagram 8, at the recom-
mended height (see previous section). Orient the plate so that the rectangular cutout in the plate is at the bottom. ff
wiring is provided from a hole in the mounting surface, locate the mounting plate so that the wiring hole is centered
horizontally within the rectangular cutout in the plate and the bottom edge of the plate is positioned in-line with the
center of the wiring hole. See Diagram 8, Detail A. This will align the wiring hole with the wiring entry in the case when
the unit is secured.
Wiring holes should be no larger than
‘/16”
(0.8 cm) in diameter.
2. Remove the front co-r from the detector
by loosening the retaining screw.
3.
Attach the unit to
the wall
plate
as follows: Engage all four hooks on the wall plate into the slots on the rear of the
case (See Diagram 8) and secure the unit to the wall plate by,pressing downward.
4. After wiring (see next section) install the
wire
entry plug provided, replace front cover and secure retaining
/‘\
screw.
_\
i
NOTE:
With front cover secured in place, unit is locked to wall mounting plate. To detach unit from wall plate, front cover
must be removed first.
-
Wiring Connections;
Using the wire entry plug and the wiring entry access at thefower rear of the case, carefully feed the wires through the entry
and along the underside of the terminal block.
Avoid unnecessary splices and loops within the unit. Check all connections carefully.
See Diagram 9 for connections,
which should be made in this order:
1. Alarm Relay and Tamper Terminals:
To connect a closed circuit protective loop, see diagram. Connect tamper
switch circuitry as desired.
2. Control Signal Terminal and Options: See
OPTIONAL OPERATING MODES. ff one of the options is to be
selected, run the necessary control lead(s) between the detector and the main control and cut the required jumper(s).
3. Optional Remote LED
Post: If remote LED operation is desired, connect as shown in diagram. Also cut the YEL-
LOW jumper on the circuit board. Note: The side of the LED that is not connected to the remote LED post may be
connected directly to the DC source ground (if the wire length is shorter). OBSERVE POLARITY!
4. Input 6V112V.DC ( + 1 and ( -1 Terminals:
Connect these terminals to a 6V.DC or 12V.DC source that can
provide 35mA continuously Note: For 12VDC operation, cut the unit’s ORANGE jumper.
Observe polarity!
Continuous auxiliary capacity of applicable Ademw controls is as follows:
- I
No. 1021.4021: 400mA
No. 1025: 220mA
6VDC No. 1022: 150mA
No. 4080,408OXL: 500mA
No. 1023: 350mA
No. 33OR25,340R25: 250mA
No. 1024: 260mA
No. 332R50,342R50: 750mA
I
No. 1021-l 2.4021-l 2: 400mA No. 1025-l 2: 1025EX12: 220mA
12V.DC
No. 1022-l 2: 300mA No. 4080-l 2: 500mA
No. 1023-12: 550mA
Altematively,‘GV.DC can be conveniently provided directly from any 24 hour 12OV.AC outlet via a No. 495 Power Supply
which plugs directly into the outlet.
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OPTlONAL OPERATlNG MODES:
As shipped from Ademw, each detector’s LED and relay will function together, at all times, regardless of whether the main
protective system control is ARMED or DISARMED. While motion is detected, the LED.will light and the relay contacts
will transfer.
0
When used with a control that can provide a suitable switched voltage to the detector’s control signal terminal, to signal
whether the control is ARMED or DISARMED, the detector can be programmed (by cutting various combinations of jumpers
on the units circuit board) to provide optional modes of operation as described in this section.
Switched Voltage for CONTROL SJGNAL Terminal:
CAUTION: Before cutting jumpers, make sure that the control can provide the proper switched wftage signal to the + CON-
TROL SIGNAL terminal, as follows:
System Disarmed:
+ 6V or 12V,
System Armed:
OV (input impedance: 166K ohms).
Diagram 10 shows typical sources of switched positive ( + ) control voltage signal.
Note that some controls permit direct
connection to the detector and others require a No. 666 or 666-12 Opening/Closing Switching Module to be used
between the control and the detector.
Options:
The options are programmed by making the proper CONTROL SIGNAL connection(s) and cutting the colored jumper(s) on
the circuit board. See Diagram 9 for locations.
CAUTION: Any jumper that is cut must haYe lts loose ends taped (or
otherwise insulated) to prevent accidental contact with other Points.
1. Day Relay Disable
Only
Option:
In this mode, the LED and detector relay remain active during the ARMED period,
but during the DISARMED period, only the LED remains active. The relay is silent and inactive (remains locked in).
TO SELECT:
ONLY PROPER CONTROL SIGNAL VOLTAGE IS REQUIRED.
DO NOT CUT ANY JUMPERS.
2. Night LED Disable Option:
In this mode, the LED (and any remote LED) will be inactive (remain OFF) during the
ARMED period and active (indicate when motion is being detected) during the DISARMED period. During the DIS-
ARMED period, the relay will
be
silent and inactive (remain locked in).
TO SELECT:
CLJTTHE GREEN JUMPER.
3. intrusion Memory Option:
In this mode the LED(s) will be inactive during the ARMED period
but
should an intru-
sion occur in the protected area, the alarm relay will transfer and this fact will be stored in the detector’s memory.
When the system is DISARMED, the LED on any detector which had signaled and stored an alarm will light and
remain lit until cleared. The LED
memory can be cleared by momentarily ARMING and then DISARMING the
system.
The LED(s) will then respond ON and OFF normally to motion detected in the protected area during the DIS-
ARMED period. During the DISARMED period the relay will be silent and inactive (remain locked in).
TO SELECT:
CUTTHE RED AND GREEN JUMPERS.
Note: With
a No.
1066,1003,1005
or 1020
Deluxe Control:
During disarming, when the panel’s keyswitch is turned
from ON (ARMED) to CIRCUIT TEST, the LED on any detector which had signaled and stored an alarm will light. A
pause at CIRCUIT TEST will permit examination of each detector for such an intrusion memory indication.
Turning
._ .,the -witch through BELL TEST to OFF will clear the LED memory and disarm the system.
4. Remote LED Option: In this mode, an external LED may be added which can duplicate remotely the indication
of the detector’s built-in LED.
TO SELECT: CUT
YELLOW JUMPER (CONTROL SIGNAL CONNECTION lS
NOT REQUIRED).
DETECTOR OPTION PROGRAMMING SUMMARY
(PROPER CONTROL SlGNl
I
\L REQUIRED. SEE TEXT)
LED FUNCTION.
JUMPERS
CUT
NONE
NONE
GREEN
GREEN,
RED
I
WITH CONTROL:
ARMED
DISARMED
ACTIVE
ACTIVE
OPTION
NO CONTROL
SIGNAL
DAY RELAY
DISABLE ONLY
NIGHT LED
DISABLE
INTRUSION
(LED)
MEMORY
REMOTE
YELLOW
LED
(Cont’l
signal not
rea’d)
(WALK TEST)
ACTIVE
ACTIVE
INACTIVE
(WALK TEST)
(OFF)
INACTIVE
MEMORY AND
(OFF)
(AFTER RESET)
WALK TEST
REMOTE LED DUPLICATES
INDICATION OF DETECTOR’S
LED
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TESTING:
IMPORTANT:
Wait at least two minutes after connecting power before attempting to walk-test unit.
Testing of the detector should be conducted with the protected area cleared of all people. In some business establishments,
it will be more convenient to do this after the business is closed. The protective system’s control should be OFF during the
procedure to prevent reporting unwanted alarms.
i?
I
Walk-Test :
\ _ /’
Double-check all connections. Replace the front wver and secure holding screw. Walk-test unit with cover in place. Test
operation by walking through the protective zones and observing walk-test LED.
The absolute range of all Passive I.R. units is subject to variation because of different types of clothing, backgrounds and
ambient temperature changes. For thii reason ensure that the most likely intruder routes are well within the protective zones
and that walk-testing is carried out along these routes.
Meter Test:
(if required, for analyzing “problem” areas)
Remove the front wver. Using a DC wltmeter (or multimeter, 20k ohms per volt, or equivalent) connect positive test lead to
the Test Point post located behind terminal 1 on the printed circuit board (See Diagram 9). The meter’s negative lead should
be wnnected to the ( - ) input (ground) terminal 5. The meter should be set to the 2.5V.DC range. Mask the detector’s optics
so that motion cannot be detected. The meter should indicate approximately 1 .GVDC (with a permissible normal fluctuation
of approximately O.lV). Remove mask covering the optics, remain motionless and allow time for the meter to settle. Motion
into any of the detector’s zones will cause the meter to deflect above or below the 1.6V nominal level. Meter variation of z 0.5
Volts will trigger the unit, causing the LED to illuminate and the alarm relay to transfer.
MAINTAINING PROPER OPERATION AND COVERAGE:
In order to maintain the detector in proper working condition, it is important that the following be observed by the user.
1. power should be provided at all times.
The units DC source should have standby power available for at least 4 hrs.
of operation during emergencies.
-
2. Units should never
be
m-aimed or relocated
without the advice of the alarm company.
3. The physical surroundings of the protected area should not be changed.
If furniture or stock is moved, or air
conditioning or additional heating is installed, the system may have to be readjusted by the alarm service company.
4. Walk tests should be conducted
at least
monthly
to confirm continued proper coverage by each detector.
TROUBLdHOOTING:
The following assumes a detector operating “as received”. If an optional operating mode has been selected, LED operation
may vary, depending upon the option. lt is advisable to rewnnect cut option jumpers when troubleshooting.
Trouble 1: UNIT GOES INTO ALARM INTERMITTENTLY FOR NO APPARENT REASON AND WALK-TEST LIGHT
GOES ON WHEN ALARM CONDlTlON EXlSTS.
CAUSE
REMEDY
A. Rapid change in IR level in a zone.
Check for
ldentify source of IR or temperature change.
electric or gas heaters, open flames, electric arcs,
Reposition unit so that source of problem is no longer
or any object partially in a zone which can change
in a zone.
temperature rapidly
B. Drafts are creating motion
in drapes, display
Locate souse of motion.
Eliminate same and walk-
material or overhead lighting fixtures.
test unit after motion source is eliminated.
Trouble 2: UNlT GOES INTO ALARM INTERMlTTENTLY OR CONTINUOUSLY FOR NO APPARENT REASON AND
WALK-TEST UGHT
DOES
NOT COME ON WHEN ALARM CONDlTlON EXISTS.
CAUSE
REMEDY
A. Tamper switch operation (if used) is interrupt-
Check that front cover is
properly
seated. Also
ing protective loop.
test tamper switch operation. lf tamper switch
malfunctions, return unit for service.
-
B. DC voltage supply to detecMr from panel or
Check for proper DC voltage at terminals of
power supply inadequate or absent.
detectot. If absent, check for proper voltage at panel
PROPER POLARfTY MUST BE OBSERVED.
or power supply terminals with wiring disconnected.
(Note: ff ORANGE jumper has been cut, 12V.DC
If present, wiring to detector is faulted. Check for
must be supplied.)
open and shorted conditions in wiring. If proper
DC
voltage is absent, wnsutt instructions for panel or
power supply.
t--J
?
\_ .’
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‘RoubJe 3: RELAY OPERATES NORMALLY BUT WALK-TEST LIGHT DOES NOT OPERATE.
CAUSE
REMEDY
A.
LED maffunction.
Check for broken or
Return unit for service.
shorted leads.
B.
YELLOW jumper has been cut
but no external
Reconnect jumper.
LED is used.
Trouble 4: AREA OF COVERAGE CHANGES.
CAUSE
REMEDY
A.
Customer has repositioned furniture or equip
Caution .customer that changes in layout can affect
ment in premises.
coverage.Reposition the unit according to installation
instructions. .Be certain that unit has not been tam-
pered with.
B.
Mounting surface is unstable.
A few degrees
Mount on secure surface.
vertical shift can change range substantially.
.
Trouble 5: UNIT DOES NOT APPEAR TO BE OPERATING.
CAUSE
REMEDY
Unit is not receiving power.
Check for presence of 6V.DC or (with ORANGE
jumper
cut) lPV.DC at terminals of unit.
GENERAL SPEClFlCATlONS:
(Nos. 652,653)
-
Physical:
Width: 3%” (8.3 cm)
Height: 4%” (10.8 cm)
Depth: 2” (5.1 cm)
Electrical:
Voltage: 6V.DC or 12V.DC
Current: 35mA
/-
Standby: Power source used should be able to provide at least 4 hrs. of standby power. The No. 495 Power Sup
ply, which can be plugged directly into any 24 hour 12OVAC outtet, can power a No. 652 or 653 with
6VDC for over 12 hours in the event of AC failure.
To THE INSTALLER
Regular maintenance and inspection (at least annually) by the instalter and frequent testing by the
user is vital to continuous satisfactory operation of any alarm system.
The installer should assume the responsibility of developing and offering a regular maintenance
program to the user
as
well as acquainting the user with the proper operation and limitations of the
alarm system and its component parts. Recommendations must be included for a specific program
of frequent testing (at least annually) to insure the system’s orooer operation
at all times.
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I
\
10’ 20’ 30’ 40’
(3.0m)
(6.lm) (9.lm)
(12.2m)
Diagram 1: PROTECTION ZONES (652)
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a
No. 652
Detector
DOWNWARD ZONE
2a
2b
Diagram 2: RANGES AT VARIOUS MOUNTING&EIGHTS (652)
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DOWNWfiRD
INTERMEDIATE
(2.?m)--
MAIN
I
(3109n) (GTP,) (!i!P,,
40’
(12.2m)
(1Zm)
.(li.im)
(2Zim)
Diagram 3: PROTkTlON ZONES (653)
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4a
4b
1: , --y
*-.*...*
5 .
a....
-4. . .
. .
I
10’
20’
30’ 40’
50’
60’ . 7b’
8b’
DOWNWARD ZONE
I
4c
20’
30’
I
10’
40’
i
50’
60’ 70’
80’
(3.0m)
(6.lm) (9.lm)
(12.2m)
(15.2m) (18.3m)
(21.3m)
(24.4m)
cl
11’6”
(3.W
,n IQ nm\
I”
\Q.“l I ‘,
“DEAD”
ZONE
RANGES (MAX)
MAIN ZONE-
I
-INTERMEDIATE ZONE
DOWNWARD ZONE
Diagram 4: RANGES AT VARIOUS MOUNTING HEIGHTS (653)
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.’
;
i
9’ (2.7m)
8'
(2.4m)
--a-
7'
(2.lm)
6'
(1.8m)
MOUNTING
HEIGHT
I
r
I
I
I
I
I
I
I
I
I
I
.
I
I
I
I
I
I
I I I
(3!im) (6?m) (zyrn) (lz.?m) (l!%?m)(l~.!m) (2cim) (2i:m)
RANGE (MAIN ZONE)
EXAMPLES: MAXIMUM MAIN ZONE RANGES AT
7’6” (2.3m) MOUNTING HEIGHT ARE:
A. 35 FEET (10.71-9 FOR No. 652
8.70 FEET (21.3m) FOR No. 653
. .:-Diagram 5: MAXIMUM MAIN ZONE RANGES AT MObNTlNb HEIGHTS OF
6 FEET (1.8m) to 9 FEET (2.7m) (652, 653)
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6a
NOT
IDEAL
6b
BETTER
L
BEST,
Diagram 6:
TYPICAL
LAYOUTS
(652)
Diagram 7:
TYPICAL
LAYOUTS
a
(653)
No. 653
DETECTOR
70’ (21.3m)
7a: HALLWAY OR AISLE COVERAGE
t
70’ (21.3m)
Tb:ALTERNATIVE, DIAGONAL COV:F#GE IN HALLWAY
f
16’
(4.9m)
(4.9m)
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,’
‘.
MOUNTING SURFACE
/
ENGAGE SitITS
ONTO HOOKS
AND SLIDE
HOUSING BASE
DOWN FIRMLY
)c MOUNTING
4YBE
OKEN OFF
@ilfq%y
WIRE &6f AREA
SEE DETAIL “A”.
7
WIRING HPLE IN
MOUNTING
SURFACE: ?/I&’
(0.8cm) MAX.
$(--I
- .
/*
eDIAMq,ER. CENTER OF HOLE
c
MUST BE ON LINE WITH BOTTOM
EDGE OF WALL PLATE.
~!J~ERLGZIZ~ES
HOUSING TiI WALL PLATE
WHEN COVER .l$‘lN PLACE:
KNOCKOUT
FOR
INSERT PLUG (PROVIDED)
SURFACE WIRING
IN HOUSING’S WIRING
ENTRY OPENING.
HOUSING BASE
&OVER
/REMOVED)
: .I
Diagram 8: MOUNTING DETAILS
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OPllONAL REMOTE LED: CUT
YELLOW JUMPER ON CIRCUIT
NOTE:
THIS LEAD TO LED MAY
BOARD, IF USED
BE RUN DIRECTLY FROM THE
POWER SOURCE GROUND (-)
SIDE IF THE WIRE LENGTH IS
SHORTER.
r---.+&
i
r
----a-
J
I
I
CLOSED CIRCUIT
PROTECTIVE LOOP
I
FROM ,
6v.DC
OR
I
!iiiGE 1
JUMPER I
L -
I
!I
I
OTHER
CONTACTS
CUT)
12VDC
SOURCE
(35fw
t SWITCHED (+) DC
, VOLTAGE FROM
CONTROL
FOR
(+I (-I
I I
- __.____ -. -
OPTIONAL OPERATING MODES
‘t’
I
TAMPER
I
CONNECT IN
PROTECTIVE
I
LOOI? OR AS
I I I I,’ ! I
DESIRED
12OV.AC b
w
ALARM
‘. :::
No. 652 OR 653
LED
POST
JUMPERS
SEE OPTIONAL
OPERATING MODES
Diagram 9: CONNECTIONS, TERMINALS AND JUMPERS
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,’ -
I
. . .
1
Nos. 1021,
4021
(AESIDEN-
TIAL)
0
17
(UPPER)
- 6
0
(LOWER)
No. 1022 No. 1023
ORANGE
PIN #4
r
b
-
0
13 -
0
20
sw+x
I
RESISTOR, ANY VALUE
FROM 3.3K THRU 5.1K
OHM, 114W. MIN.
ALARM
PROCESSING
1025,
l
* 1026,
** 1028
COMBO.
ALARM
BURG/FIRE
LOGI-
CONTROLS
CENTERS
Nos. 330R
THRU
Nos.
342R
4080
SERIES
408OXL
I
USE ORANGE WITH APC’S
USE VIOLET WITH OTHER
CONTROLS SHOWN.
->BLACK 1 ~ ,(-)
1
70 SAME TERM. AS BLACK
LEA0 OF No. 688
A00 RESISTOR, ANY VALUE FROM 2K THRU
12K OHM, % W. MIN.
CONTINUED
+
6 sw+
e---m
4!l-P
5
z----
1
TO OTHER
DETECTORS
(IF ANY)
-J
6V
Controls
,.
~-_
>
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ALARM
PROCESSING
CENTERS
Nos.
1021.12,
4021.12
No.
(RESIDEN-
102312
TIAL)
Nos.
Nos.
102512,
4060.12
025EXl2
I
OV WHILE ARMED
+ 12V WHliF DISARMED
I
e
12V Controls
-----
TO OTHER
DETECTORS
(IF ANY) -
‘NOS. 1000,1003,1005,1020: These controls may be used to provide DC power as well for detectors, only if a power
source, such as No. 492 or 493 (or 467 or 466 type) Power Supply is used for the control.
“Nos. 1026,1028: These controls may not be used to provide 6V. DC power for detectors. A aepamte power source, such
as a No. 495 (or 467 or 488 type or 492 or 493) Power Supply would be required for detector power.
‘*‘Nos. 4080,4080XL, 4080-12: Terminal 04 output Is a closing supplementary output trigger ( + 6V) which is produced at
arming time only subsequently to the opening and closing of the entry/exit delay door.
Diagram 10: TYPICAL SOURCES OF SWITCHED
SIGNAL FOR OPTIONAL OPERATIN
6
+) CONTROL VOLTAGE
MODES
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ALARM DEVICE MANUFACTURING CO.
A
WVISION
OF UTWAI CONFONAltON
165 7;~ Way, Syosset, New York 11791
P6666 3a3
CqyrQht 0 1983 PITTWAY CORPORATION
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/