Installation Instructions
D9580 Long Range
Passive Infrared Intrusion Detector
1.0 General Description
The D9580 is a high performance microprocessor-based intrusion detector
designed to provide an alarm condition upon the detection of an intruder
moving into or through its coverage pattern.
Technology designed into the D9580 is based on the transmission of infrared
energy; all objects transmit infrared energy. The warmer an object is, the more
infrared energy transmitted. With PIR receiver technology, the D9580 detects
the change in infrared energy that occurs when a target passes through its
view.
The coverage pattern, consisting of sensor fingers (to detect the target) is
arranged in a side-by-side array. The total number of fingers is determined by
the optical module used. The fingers are grouped by polarity into pairs, with
each pair consisting of one zone.
To detect motion, the D9580 must first see a change in infrared energy in one
finger followed by a change of energy in the remaining finger. Therefore,
disturbances that occur in only one finger do not constitute motion and are
ignored.
The “catch sensitivity” may be changed by the installer to provide a degree of
sensitivity determined by each installation.
Microprocessor controlled self-test, supervision, and temperature compensa-
tion circuits provide reliable uniform operation in a wide variety of installation
environments. This results in a highly advanced detector offering superior
performance with freedom from false alarms.
2.0 Specifications
•
Coverage:
Standard Broad
OA80
80 ft. by 50 ft.
(24.4 m by 15.3 m)
Long Range (Optional) OA120
120 ft. by 25 ft.
(36.6 m by 7.6 m)
Long Range (Optional) OA200
200 ft. by 10.5 ft. (61.0 m by 3.2 m)
•
Input Power: 6.0 to 15.0 VDC; 25 mA nominal, 18 mA maximum @ 12
VDC.
•
Standby Power: There is no internal standby battery. Connect to DC
power sources capable of supplying standby power if primary power fails.
Twenty-five mA-H required for each hour of standby time needed.
Four
hours (100 mA-H minimum) are required for U. L. Certificated installations.
•
Sensitivity: Field selectable for Standard, Intermediate, or High.
•
Temperature Compensation: Microprocessor controlled temperature
compensation circuitry provides uniform catch performance at critical
temperatures.
•
Alarm Relay: Silent operating Form “C” relay. Contacts rated 125 mA, 28
VDC maximum for DC resistive loads.
Do not use with capacitive or
inductive loads.
•
Tamper/Trouble Loop: Normally Closed (with cover in place) tamper
switch. Contacts rated at 28 VDC, 125 mA maximum. In series with silent
operating Normally Closed (not in trouble condition) relay. Contacts rated
100 mA, 28 VDC maximum for DC resistive loads.
•
Temperature: The storage and operating range is -20
°
to +120
°
F (-29
°
to
+49
°
C).
For U. L. Certificated installations, the range is +32
°
to +120
°
F (0
°
to +49
°
C).
•
Sonalert™ Connector: Using a Sonalert™ type sounder (low voltage) will
provide an audible tone when the unit is in alarm.
A sounder is intended
only as an aid for walk testing during installation.
Sonalert™ is a trademark of Mallory.
•
Options: OA120 Long Range Mirror, OA200 Long Range Mirror, and
TC6000 Test Cord.
•
U. S. Patent Numbers: #4,764,755, #4,920,268, and #5,083,106.
Front view with cover off
TERMINAL
STRIP
SETUP SWITCH BANK
(UNDER MIRROR ASSEMBLY)
SONALERT™ CONNECTOR
(UNDER MIRROR ASSEMBLY)
CIRCUIT BOARD RETAINER TAB (2)
WALK TEST/ALARM
LED INDICATOR
8
7
6
5
4
REPLACEABLE
OPTICAL MODULE
PERMANENT
REFLECTING MIRROR
BACKGROUND NOISE
VOLTAGE CONNECTOR
TAMPER/TROUBLE RELAY
TO REPLACE OPTICAL MODULE,
LIFT THIS EDGE UP
TAMPER/TROUBLE JUMPER
COVER TAMPER SWITCH
ON OFF
REAR WIRE
ENTRANCE
REAR WIRE
ENTRANCE
SURFACE WIRE
ENTRANCE
BRACKET WIRE ENTRANCE
CORNER MOUNT
HOLES (4)
SURFACE MOUNT
HOLES (4)
COVER TABS (4)
TAMPER SCREW
HOLE
TEST/SOUNDER
CORD SLOT
WIRING CHANNEL
Base
3.0 Mounting
Select a location likely to intercept an intruder moving
across the coverage
pattern (review patterns on page 4). The recommended mounting height is
7.5 ft. (2.3 m) or 10 ft. (3.1 m) when using the OA200 Mirror. Each
mounting surface should be solid and vibration free.
•
Remove the cover by inserting a thin screwdriver into each of the two slots
at the bottom and the two slots at the top of the cover. Twist gently until the
cover snaps free of the tabs on the base.
3.1 Bracket Mounting
Note:
The use of the B334 Mounting Bracket (included) is strongly
recommended when installing this detector.
Because variations exist in the surfaces of most mounting walls, most units
are not mounted at perfect angles to the floor or walls. This may cause the
pattern to point away from the “ideal” direction.
For example: A shift of only 1 degree will cause a pattern shift of 1.7 ft. (10.5
m) at 100 ft. (30.5 m). Under worst case conditions, this will cause the pattern
to be aimed over the head of intruders at maximum range, or into walls of
narrow corridors. What may seem to be poor range or catch performance,
may be the result of improper alignment.
D9580 Installation Instructions
Page 1
© 1996 Radionics
P/N 31366B
Radionics
™
