Radionics
™
Installation Instructions
D9560CM Ceiling Mount
Passive Infrared Intrusion Detector
1.0 General Description
The D9560CM is a high performance passive infrared intrusion detector. It is equipped with advanced PIR detection and supervision circuits and is designed to provide an alarm condition upon detection of an intruder passing through its area of coverage.
Employing balanced dual-opposed sensing elements, the
D9560CM passive infrared (PIR) detector makes use of the fact that all objects give off (transmit) infrared energy, and that the warmer the object is, the greater the amount of infrared given off. The D9560CM uses PIR receiver technology designed to detect the CHANGE in infrared energy caused when a target of a different temperature from a stable background passes through its field of coverage.
The coverage pattern consists of sensor zones arranged to form a circular coverage pattern.
Using Motion Analyzer II circuitry, the detector 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. This “catch sensitivity” may be changed in the field by the installer to provide the degree of sensitivity required by the installation.
Self-test and supervision circuits provide reliable, uniform operation in a wide variety of installation environments. The result is a highly advanced detector offering superior performance with freedom from false alarms.
• Tamper: Normally Closed (with cover in place) tamper switch. Contacts rated at 3 Watts, 28 VDC, 125 mA maximum. .
• Trouble Output: A solid state open collector conducts to terminal 1 (-) when the detector is in a trouble condition.
Maximum current load is 25 mA.
• Temperature: The storage and operating range is -20
°
to
+120
°
F (-29
°
to +49
°
C). For U. L. Listed Requirements, 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. Use of the sounder is intended only as an aid for walk testing during installation.
Sonalert™ is a trademark of Mallory.
• Options: TC6000 Test Cord.
• U. S. Patent Numbers: #4,764,755 and #5,083,106.
REAR WIRE
ENTRANCE
TERMINAL
STRIP
WIRE
TIE-DOWNS (2)
MOUNTING
SLOTS (4)
INTERFACE
PINS
2.0 Specifications
• Input Power: 6.0 to 15.0 VDC; 18 mA nominal @ 12 VDC.
38 mA maximum.
• Standby Power: There is no internal standby battery. Unit is intended to be connected to DC power sources capable of supplying standby power in the event primary power fails.
Eighteen mA-H required for each hour of standby time needed. Four hours (72 mA-H) minimum are required for U. L.
Certificated installations.
• Coverage: 360
°
by 60 ft. (18.3 m) diameter coverage when mounted on 8 to 18 ft. (2.4 to 5.5 m) high ceilings. Pattern consists of 64 zones grouped into 16 barriers, with one additional zone looking straight down from the unit (sabotage). Each barrier is 30 ft. (9.2 m) long and 4.4 ft. (1.3 m) wide at 30 ft. (9.2 m). Choice of two optical modules depending on ceiling height.
Note: For U. L. Listed Requirements, the coverage is 360
°
by
54 ft. (16.5 m) when mounted from 10 to 13 ft. (3.1 to 4.0
m) using the AR8-13 Array and when mounted from 15 to
18 ft. (4.6 to 5.5 m) using the AR13-18 Array.
• Sensitivity: Field selectable for Standard, Intermediate, or
High.
• Alarm Relay: Silent operating Form “C” reed relay. Contacts rated 3 Watts, 125 mA, 28 VDC maximum for DC resistive loads, and protected by a 4.7 ohm, 1/2 Watt resistor in the common “C” leg of the relay. Do not use with capacitive or inductive loads (such as relays or magnetic locks).
P/N 31367C
D9560CM Installation Instructions
Page 1
TEST LEAD
CUTOUT
NOISE
VOLTAGE
SOUNDER
OFF
ON
Mounting Base
AR8-13
AR8-13
ALARM/TEST LED
INDICATOR (3)
OPTICAL
MODULE
COVER
TAMPER
CONFIGURATION
SWITCHES
MODULE TABS (2)
Top View of Enclosure with Cover Removed
© 1996 Radionics
Enclosure
ENCLOSURE
RELEASE TABS
OPTICAL
MODULE
TEST LEAD CUTOUT
INTERFACE
CONNECTOR
COVER TWIST
TABS (4)
Cover
3
TOP VIEW
0 3 6 9
ENCLOSURE RELEASE
OPENINGS (2)
Base
10
0
10
30
9 Meters 6
20
20
ANTI-VANDAL
TIE-DOWN SCREW
HOLE (2)
INTERFACE
PINS
30
3.0 Mounting
• Select a location that is most likely to intercept an intruder moving beneath and across the coverage pattern (review patterns on page 2). The recommended mounting height is
8 to 18 ft. (2.4 to 5.5 m).
Note: The surface should be solid and vibration free (i.e. Drop tiles should be secured if the area above the tiles is used as an air return for HVAC systems).
• Do not mount near air handling system outlets, or in areas of extreme drafts.
• Remove the cover by turning counter-clockwise.
• Remove the base from the enclosure by pressing the two enclosure release tabs inward while lifting the enclosure away from the base.
Hint: Slightly rock the enclosure side-to-side during removal to overcome the friction caused by the base-to-enclosure terminal pins.
• Route wiring as necessary to the rear of the base and through the center hole.
Note: Be sure all wiring is unpowered (de-energized) before routing.
• Firmly mount the base. Depending on local regulations, the base may be directly surface mounted using anchors, mollies, or wing nuts; or may be mounted to standard 4 inch octagonal and square electrical boxes.
Note: The D9560CM base will not completely cover a 4" square box. Where aesthetics are important, a 4" octagonal box is recommended.
Hint: Mounting to removable ceiling tiles is not recommended unless a sandwich is made of the base, ceiling tile, and a back plate behind the tile. Covers used for 4" octagonal and square boxes make a suitable back plate (when used with bolts and wing nuts, as an example).
15
AR13-18 SIDE VIEW (Cross Section of 2 Opposite Zones)
9 Meters 6 3 0 3 6
10
0
30 Feet 20 10
0 10
AR8-13 SIDE VIEW (Cross Section of 2 Opposite Zones)
10
9 Meters 6 3 0 3
20
6
9
4.6
3
30
0
9
3
0 0
30 Feet 20 10 0 10 20 30
Avoid fingerprints on the mirrored surfaces. Should the mirrored surfaces become soiled or otherwise marked, they can be cleaned using a soft, clean cloth and any commonly available, mild window cleaner.
5.0 Wiring
CAUTION: ALWAYS APPLY POWER AFTER ALL CONNEC-
TIONS HAVE BEEN MADE AND INSPECTED.
Note: Do not coil excess wiring inside unit.
• Terminals 1 (-) & 2 (+): Power limits are 6 to 15 VDC. Use no smaller than #22 AWG
(0.8 mm) wire pair between the unit and the power source.
1 2 3 4 5 6 7 8
KEY GUIDE
INTERFACE
PINS
• Terminals 3, 4, & 5: – +
Alarm relay (reed) contacts rated 3 Watts,
6 to 15
VDC
Alarm
RELAY
TAMPER
125 mA, 28 VDC maximum for DC resistive loads and protected by a 4.7 ohm, 1/2 Watt resistor in the common “C” leg of the relay. Use terminals 4 & 5 for Normally Closed circuits. Do not use with capacitive or inductive loads.
• Terminals 6 & 7: Tamper/Trouble contacts rated at 28 VDC, 125 mA.
• Terminal 8: Trouble Output.
Shorts to Common, (-) terminal 1, when trouble occurs.
Power
+
-
Zone Input
Zone Common
Alarm Panel
1 2 3 4 5 6
EOL
7
Wiring the Trouble Output
6.0 Configuration Switch Settings
8
The D9560CM has several features that are controlled using the configuration switches.
4.0 Selecting the Optical Module (AR8-13 or AR13-18)
• Replace the enclosure onto the base.
• For ceilings between 8 and 13 ft. (2.4 and 4.0 m) from the floor, use the optical module marked AR8-13. This marking can be found next to the two optical module tabs.
For ceilings between 13 and 18 ft. (4.0 and 5.5 m) high, use the optical module marked AR13-18.
To replace an optical module, push the optical module tabs towards the center until the module snaps free of the circuit board. Holding the new module by the tabs, snap the new module into place.
P/N 31367C
6.1 LED Operation (S1)
• ON: Allows the Alarm/
Test LED to operate when activated by motion or the memory circuit.
• OFF: The LED will not operate on alarm activation, but will
D9560CM Installation Instructions
Page 2
1 2 3 4
ON
OFF
OPEN
1 ON = LED ON
1 OFF = LED OFF
2 ON and 3 OFF = High
2 OFF and 3 ON = Intermediate
2 ON and 3 ON = Standard
4 ON and 5 OFF = 4 Day Motion Monitor
4 OFF and 5 ON = 30 Day Motion Monitor
4 OFF and 5 OFF = Motion Monitor Disabled
5
© 1996 Radionics
indicate a supervision trouble condition or a stored alarm event.
6.2 Sensitivity Mode (S2 and S3)
Sensitivity modes depend on the type of coverage desired and the installation environment.
• Standard Sensitivity: Tolerates environment extremes on this setting, but requires the largest amount of intruder motion to achieve an alarm.
• Intermediate Sensitivity: The recommended setting for most installations. Use in locations where an intruder is expected to cover only a small portion of the protected area. Tolerates normal environments on this setting. The detector is shipped in in the Intermediate Sensitivity mode.
• High Sensitivity: The setting for fast response to intruder signals. For use only in extremely quiet environments where ceiling drafts, and thermal and illumination transients are not anticipated.
Note: Although the sensitivity modes provide different degrees of tolerance to environmentally caused alarms, the installer should assure peak background noise voltage readings do not exceed
±
0.15 VDC from the reference level. (See Section 9.0 Final Tests).
6.3 Motion Monitor Timer (S4 and S5)
Set switches S4 and S5 for the desired Motion Monitor time (see
Section 10.0 Supervision Features). The detector is shipped with the Motion Monitor switches set in the disabled position.
7.0 Signal Gain
The D9560CM permits selection of the signal gain depending upon the environment to be protected. The gain select jumper is located under the optical module.
High
Low
• High Gain: Recommended for large coverage applications up to 60 ft. (18.3 m) in diameter. The D9560CM is shipped in this setting. If the gain jumper is missing, the unit will default to
High Gain.
• Low Gain: Recommended for applications where the area to be covered is 40 ft. (12.2 m) or less in diameter and for applications where the High Gain setting may be too sensitive for environmental extremes.
Note: Setting the D9560CM for Low Gain reduces the coverage area to 40 ft. (12.2 m) in diameter .
8.0 Setup and Walk Testing
• Attach a TR6000 test cord to the Noise Voltage terminals.
Since the outside terminals are common, polarity is not important and the black lead may be toward or away from the optical module.
• Attach a Sonalert™ at this time if one will be used during walk testing.
Note: The use of a Sonalert™ type device
(sounder) will provide an audible tone during the time the unit is in alarm. Of the three available connector pins, the center pin is positive (+) with respect to either outside pin (outside pins are common (-)).
Sonalert™ is a trademark of Mallory.
• Place the cover on the unit, and twist-lock it clockwise into place.
Note: Be sure the TC6000 and Sonalert™ leads are dressed through the cutout.
• Apply power to the unit.
• Wait at least two minutes, after applying power, to start walk tests.
Note: Walk testing should be done across the coverage pattern as shown.
• The edge of the coverage pattern is determined when the
Alarm/Test LED indicator (and optional Sonalert™, if installed) first turns on.
• Walk test the unit from all directions to determine the boundaries.
• After completion of the walk tests, remove the Sonalert™ (if installed).
9.0 Final Tests
9.1 Noise Measurement
Note: Meter readings are very important in determining background disturbance levels and catch margin sensitivity.
• Connect a 20,000 ohm/volt (or greater) DC
VOM to the Noise Voltage connector using the TC6000 as shown. Set meter scale for about 3 VDC.
WHITE
RED
BLACK
TC6000
– + –
• The base reference level for reading background noise or target voltages is approximately 2.0 VDC. Installations in quiet environments, therefore, will result in a steady meter reading between 1.9 and 2.1 VDC. Look for areas and sources of thermal disturbances if the meter fluctuates greatly.
9.2 False Alarm Prevention
• Turn on all heating and cooling sources that would normally be in operation during times of protection. Stand away from the unit and outside the coverage pattern, then monitor the background noise for at least three minutes.
Readings should not deviate from the reference level more than
±
0.15 VDC. For readings outside these limits; eliminate the cause, rotate the unit slightly, or mask out the mirror segment(s) looking at the thermal disturbance.
9.3 Coverage Margin
• Again walk across the farthest edge of required coverage.
A minimum voltage change of 1 VDC from the reference level is required in the wintertime when the background temperature is cool. This will make up for summertime, when the background is warmer. If testing the unit in the summertime, the minimum recommended voltage change is 0.75 VDC.
• When testing is completed, remove the TC6000 test cord, and twist-lock the cover into place.
10.0 Supervision Features
The D9560CM performs several supervision features that, combined with the advanced motion detection capabilities of the detector, provide an extremely high level of security. A supervision trouble condition is indicated at the detector by the Alarm/
Test LED (see the Supervision Display Chart).
Supervision Display Chart
LED
ON
2 Flashes
4 Flashes
CAUSE
Unit Alarm
Motion Monitor Timeout
PIR Self-test Failure
P/N 31367C
D9560CM Installation Instructions
Page 3 © 1996 Radionics
• The LED indicates the cause of the supervision trouble once per second using coded pulses. The supervision trouble signal activates the Trouble Output available on terminal 8, which should be connected to a 24-hour zone.
The supervision features function as follows:
• PIR: The operation of the PIR is electronically checked approximately every 12 hours. If the PIR fails, the Alarm/Test
LED will flash 4 times and the Trouble Ourpur will activate.
• Motion Monitor Supervision: This feature verifies that the detector has a clear view of the detection area and has not been blocked. When selected using switches S4 and S5, a supervision timer is activated. A trouble condition will be indicated if the detector has not alarmed at least once during the selected time period (this feature can be disabled by placing both switches in the Off position). The time period selected should be long enough to allow adequate time for holiday weekends.
Refer to Section 6.0 (Configuration Switch Settings) for proper switch settings.
If the time period selected has elapsed from the last alarm, the
LED will flash 2 times and the Trouble Output will activate.
Setting the Motion Monitor timer to shorter periods can be used to force a protection walk test of remotely located zones.
It is recommended that the 30 day timer be selected. This verifies that the unit is operational and avoids nuisance trouble conditions caused by holidays, vacations, etc.
11.0 Other Information
11.1 Anti-vandal Tie-down
• After the cover has been installed and twisted into place, the entire assembly can be secured together using the supplied anti-vandal screws. There are two of them; one for each side
(see drawings on page 1 for the location of the screw holes).
11.2 Optical Module Masking
• Peel-off masks are provided with the unit for each segment of the optical module to allow for customized coverage, or to block out areas or objects that may cause thermal disturbances. The mask is self-adhesive and pre-cut in the shape of the optical module.
• To block out a particular zone or group of zones, peel off a section of the mask that corresponds to the appropriate zone, and stick it on the mirror segment. Use Section 14.0
(D9560CM Mirror Module to Pattern Reference) to identify mirror segments and zones.
11.3 Maintenance
• At least once a year, the range and coverage should be checked according to Sections 8.0 and 9.0 (Walk Testing and
Final Tests).
• To ensure continued daily operation, the end user should be instructed to daily walk through the far end of the coverage pattern. This assures an alarm output prior to arming the system.
12.0 Typical Placements to Achieve Coverage
13.0 Optical Masking to Avoid Environmental Problems
AR8-13
3
BASEBOARD HEAT
2 1 5 1 2
1 2 3 4 5 4 3 2 1
3
4
MASK 3
SECTORS
AR8-13
AR8-13
1 2 3 4 5 4 3 2 1
4
3
WINDOW
1 5 1 2
AR8-13
MASK 15
SECTORS
14.0 D9560CM Mirror Module to Pattern Reference
P
TOP VIEW
A
B
O C
N D
M
L
N
O
K
P
AR8-13
A
B
J H
G
C
D
E
F
AR8-13
I
1 2 3 4 5 4 3 2 1
M
L
K
J
I
SIDE VIEW
H
G
F
E
E-4
M-4
M-3 M-2 M-1 5 E-1 E-2 E-3
Note: The location of the zone to be masked depends on the position of the detector. Therefore, determine the mirror surface to be masked before removing the mirror from the detector. When replacing the mirror, make sure it’s facing the same direction as before it was removed.
Before attempting any masking, be sure the chosen mirror surface is the correct one. When attempting to remove any masking, many adhesives will either destroy the mirror surface or leave enough residue behind to reduce coverage performance.
Avoid soiling or leaving fingerprints on the mirror surfaces.
Should they become soiled or otherwise marked, they can be cleaned using a soft, clean cloth and any commonly available mild window cleaner.
Drawings are not to scale and are intended as pattern identifiers only.
Radionics
™
© 1996 Radionics, Inc., Salinas, CA, U.S.A. All rights reserved.
™ The Radionics logo is a registered trademark of Radionics, Inc., Salinas, CA, U.S.A.
Radionics, Inc., 1800 Abbott Street
Salinas, CA, 93901, U.S.A.
Customer Service: (800) 538-5807
