Simplex 2098-9650 Installation & Operating Instructions Manual

.

Projected Beam

S@Simplex

Installation/Operating Instructions

Smoke Detector

Model 2098-9650

9

0 1990 Simplex Ttme Recorder Co., Gardner, Mass. 01441-0001 U.S.A.
All specifications and other information shown were current as of publication. and are subject to change without notice.

PER-21 -011

(574-653)

Ed590

TABLE OF CONTENTS

Page

Overview

Major Functions

Installation and Example

Names of Parts

Installation Procedure

Mounting the Transmitter or Receiver Base

Mounting the Transmitter

Terminal Layouts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .............................

Wiring Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .........................

Adjustment Procedure

Operating Instructions

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ............................

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. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

If Using a 2098-9802 Ceiling Mount Assembly
If Using a 2098-9801 Wall Mount Assembly
If Using a 2098-9748

4” Square Box Adapter

or Receiver Body . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...................

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...................

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Assembly ...............................................................................

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1

2

3

4

5

5
5
6

6

7

8

10

12

Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..................................

Specifications .......................................................................................................................

Troubleshooting .....................................................................................................................................................

Appendix: Sensitivity Selection

.............................................................................................................................

.:. ..............................

IMPORTANT

Familiarize yourself with the information in this manual before installing,
adjusting, or servicing Simplex Model 2098-9650 Projected Beam Smoke
Detectors.

THE MATERIAL IN THIS MANUAL COVERS ALL ASPECTS OF 2098­9650 INSTALLATION, SERVICE AND OPERATION. KEEP THIS MANUAL
HANDY. IT CONTAINS INFORMATION UNAVAILABLE ELSEWHERE.

13

14

16

17

.

OVERVIEW

General Description

The Simplex Model 2098-9650 Projected Beam Smoke Detector consists of a transmitter and a receiver mounted
apart from one another. The transmitter continually emits pulsed beams in the near infrared wavelength; the
receiver continually monitors these beams for quantity (brightness).

Should smoke obscure the near infrared beams seen by the receiver, circuitry within the receiver will react to the

reduced beam quantity by initiating an alarm.

Since the receiver continually monitors the linear space between itself and the transmitter for smoke, the 2098­9650 is capable of detecting the presence of a smoke-generating fire -

even when the air around both the

transmitter and the receiver remains smoke-free.

The receiver can be adjusted so that 15, 20, 30, 40, 50, 60 or 70% of the near infrared beam must be obscured
before the 2098-9650 initiates an alarm. This allows a 2098-9650 to monitor as little as 32 linear feet or as much
as 328 linear feet for smoke.

Operating Principle

Pulsed beams in the near infrared wavelength leave the detector’s transmitter and enter the photo-diode of the
detector’s receiver. The resultant (analog) signals are then amplified, converted to digital information, and entered
into a microprocessor.

Upon entering the microprocessor, the value of the just-entered information and a reference value (the detector’s
“initial beam data”) are compared against each other. If the value of the just-entered signal is less than 10% of
the reference value, the detector issues a trouble signal; if the value of the just-entered signal is more than 10%
of the reference value but less than the obscuration value (85, 80, 70, 60, 50, 40 or 30% of the reference value),
the detector initiates an alarm; and if the value of the just-entered signal is more than the value of the detector’s
obscuration adjustment value, the detector operates normally (issues no signals).

The microprocessor automatically compensates for up to 1% of optical degradation per hour. However, should the
detector’s lenses become excessively dirty, a preset “compensation threshold” will be exceeded and a trouble
signal will result.

Principle of Operation

- FIRE SIGNAL

SIGNAL CONVERTER _
A-D CONVERT

MICROPROCESSOR

TROUBLE SIGNAL

RECEIVER

MAJOR FUNCTIONS

Fire Signal Output and Indication

Within one minute after smoke obscures the near infrared beam by more than the detector’s preset sensitivity level

(85, 80, 70, 60, 50, 40 or 30% of the reference level), the 2098-9650 initiates an alarm signal and, at the same

time, illuminates the red FIRE LED on its receiver.

Trouble Signal Output and Indication

a. If the quantity-of-beams setting at the initial time of operation is improper or if the quantity-of-beams

compensating capacity exceeds its limit, the 2098-9650 issues a trouble signal immediately and, at the same
time, illuminates the amber TROUBLE LED on its receiver.

b. If the quantity of beams suddenly decreases by 90% or more, the 2098-9650 issues a trouble signal within 30

seconds and, at the same time, illuminates the amber TROUBLE LED on its receiver.

. .

Monitor Condition Indication

Both the transmitter and the receiver indicate they are powered up and operating normally when their MONITOR
(green) LEDs pulse.

Signal Output

A Form A contact transfers (closes) when the detector goes into alarm; a Form B contact transfers (opens) when
the detector goes into trouble. In addition, two dry Form A contacts are provided for remote annunciation: one
closes when the detector goes into alarm, the other closes when the detector goes into trouble, and both close
when the detector is tested via the remote LED/test switch described below.

Remote Operation

An optional 2098-9803 Remote LED/Test Switch, mounted apart from the 2098-9650, allows the detector to be
tested from a remote location.

l

See Wiring Connections (pages 8 and 9).

Sensitivity Setting

The 2098-9650 can be adjusted to initiate an alarm when smoke obscures 15, 20, 30, 40, 50, 60 or 70% of the
near infrared beam normally seen by the receiver.

Adjustment of Optical Axis and Quantity of Photo-signals

A monitor plug (provided) allows the installer to use a microammeter to “fine adjust” the detector.

Automatic Compensation for Quantity of Photo-signals

The detector automatically compensates for a change in photo-signal quantity of up to 1% per hour. The
compensation range extends from +20% to -50% of the initial beam data. Should the compensating range
exceed either of the above limits, the detector issues a trouble signal.

2

INSTALLATION AND EXAMPLE

Applicable Sites

The 2098-9650 is applicable to such large or potentially hazardous places as:

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Gymnasiums, lecture halls and theaters

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Workshops, warehouses and garages

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Underground streets and tunnels

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Substations and electrical rooms

Note:

To protect areas where flammable liquids are stored, Simplex suggests that spot-type fire and smoke
detectors be installed in addition to a Model 2098-9650.

Installation Standard

See Section 4-l to 4-5 of NFPA 72E.

Precautions

l

The linear space separating the detector’s transmitter from its receiver must be obstacle-free.

l

Both the transmitter and receiver should be mounted where they can be easily accessed for maintenance.

l

Mount both the transmitter and the receiver in positions where they are unlikely to be struck by moving objects.

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Mount the detector’s receiver near the control panel.

l

The receiver’s optics must be kept out of direct sunlight.

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The detector’s optical axis must be at least 24 inches away from any obstacle.

Installation Example

32-328 FT.
(lo-100M) -

TRANSMITTER

RECEIVER

3

TRANSMITTER

BASE

MONITOR LED (GREEN)

NAMES OF PARTS

BASE

OPTICAL AXIS CLAMP

CONNECTING FIXTURE

CHAIN

HOOK

RECEIVER

LENS COVER

BODY

FIRE LED (RED)

MONITOR LED (GREEN)

TROUBLE LED (AMBER)

LENS COVER

COARSE ADJUSTMENT

SENSITIVITY SELECT SWITCH

f

OUTPUT CONTROL

FINE ADJUSTMENT

SIGHT HOLE

MONITOR COVER

COVER SETSCREW

SIGHT HOLE

MONITOR COVER

INSIDE OF RECEIVER COVER

COVER SETSCREW

4

INSTALLATION PROCEDURE

Mounting the Transmitter or Receiver Base

Using the wrench provided, unscrew the connecting fixture from the transmitter or receiver body. Then separate
the body from the base by pulling them apart and:

If Using a 2098-9802 Ceiling Mount Assembly

1. Obtain a back box cover that contains a hole
threaded to accommodate l/2” NPT pipe.

2.

Screw the half-inch pipe into the threaded hole.

BACK BOX WITH 112” THREADED HOLE IN BOX COVER
(NOT INCLUDED)

CONNECTING

NUT

BASE-

,ADAPl

‘OR

Assemble the nut and the base-adaptor on the

3.
half-inch pipe as shown.

4. Pull the detector base’s wiring cable through the

%” pipe. Then securely attach the base of the

beam detector to the base-adaptor with the 8/32” x

l/2” screws provided.

Wire the detector base into the fire alarm system

5.

(see pages 8 and 9).

If Using a 2098-9801 Wall Mount Assembly

CONDUIT THREAD ­ADAPT TO STANDARD
ELECTRICAL BOX

ADAPTER

Attach the back box cover to the back box.

6.

7.

Mount the transmitter or receiver body (see

next

we).

1. Screw the nut and the adaptor plate onto the
support arm.

2. Pull the detector base’s wiring cable through the
support arm. Then, using the 8/32 x l/2” screws
provided, securely attach the detector’s base to the
adaptor plate.

3. Secure the other end of the support arm to a (wall
mounted) fire alarm circuit junction box. Then,
using appropriate fasteners (not provided), attach
the wall-mount bracket to the wall.

4. Wire the detector base into the fire alarm system
(see pages 8 and 9).

Position the support arm perpendicular to the wall.

5.
Then, using the allen screw provided, lock the
support arm in place.

SUPPORT
ARM

Using the 8/32 x l/4” screw provided, attach the

6.
cover to the wall-mount bracket.

Mount the transmitter or receiver body (see next

7.
Paw).

5

If Using a 2098-9748 4” Square Box Adaptor Assembly

Note:

The 2098-9748 is a six-inch round plate that
allows a beam detector to be mounted directly

4” SQUARE BACK BOX
(NOT’ INCLUDED)

\

2.

3.

4. Mount the transmitter or receiver body (see below).

to a 4” square box.

1.

Attach the base of the beam detector to the
adaptor plate with the 8/32 x l/2” screws provided.

Wire the detector base into the fire alarm system
(see pages 8 and 9).

Attach the adaptor to the box with the 8/32 x 1 3/8”
screws provided.

Mounting the Transmitter or Receiver Body

1. Align the register mark on the body with that on the base as shown. Then plug the body straight into the base.

Inserting the detector with the register marks of the
connectors improperly set together or obliquely to the
base can damage the connectors.

0

INSERTING

SET FOR THE SAME DIRECTION.

OPTICAL AXIS CLAMP

-CONNECTING FIXTURE

,BODY

SAFETY CHAIN

SAFETY CHAIN

0

INSERTING

BASE CONNECTOR
(SOCKET)

6

DETECTOR CONNECTOR
(PLUG)

2. Screw the connecting fixture onto the detector body. Then, using the wrench provided, tighten - but do not
overtighten - its threads.

3. Loosen the optical axis clamp just enough to allow the base to be readily turned. Then (1) point the detector’s
lens at its associated transmitter or receiver and (2) hand-tighten the clamp.

4. Connect the safety chain to the hook on the detector’s body.

TERMINAL LAYOUTS (TOP VIEW)

Transmitter

Note:

Black circles indicate free terminals.

Receiver

REMOTE TROUBLE SIG. (N/O) BROWN

REMOTE SIG. COMMON LINE
(TROUBLE, FIRE REMOTE)

POWER LINES rBLUE
FOR EMITTER

COMMON LINE

FOR TEST

PINK\ )rJI

TEST YELLOW 4

POWER LINES FOR

‘(NO POLARITY)

- /

Y

RECEIVER

VIOLET REMOTE FIRE SIG. (N/O)

GREEN

GREEN

GRAY

GRAY FIRE SIG. (N/O)

----~ J

TROUBLE SIG. (NI

‘C)

POWER LINES + 24V

NOTES

1. The fire signal, trouble signal, remote fire signal and remote trouble signal outputs are all provided by contacts
rated at 24VDC, 0.5A.

2. The pink lead represents common for both the remote fire signal and the remote trouble signal.

3. Cap all unused terminal leads with electrical tape or wire nuts.

7

4-Wire System

OPTIONAL
2098-9803

WIRING CONNECTIONS

OPTIONAL

REMOTE L.E.D./
TEST SWITCH

I I

I I

CONTROL PANEL

(WITH FAULT INDICATOR)

_____---- O,,T,O,,

BASIC CONNECTION

ALL” CLOSED)

I

1 F : FIRE SIGNAL CONTACT (NORMALLY OPEN)
1T : TROUBLE SIGNAL CONTACT (NORMALLY CLOSED)
2F : REMOTE FIRE SIGNAL CONTACT (NORMALLY OPEN)
2T : REMOTE TROUBLE SIGNAL RELAY CONTACT (NORMALLY OPEN)

I
I

NEXT DETECTORS

I

AC

,------/

:

i ’
I ’

I 1
I I

I

<PyK

1

I
I

_-J OPTIONAL

2098-9803

RF

-7MOTE L.E.D./
TE !ST SWITCH

ORANGE

GRAY

RED

WHITE

GREEN

GREEN

\

RECEIVER

NEXT DETECTORS

I

I

r
1

I

c

(

‘I

EMITTER

ORANGE

WHITE.

ORANGE

GRAY

RED

r

I

I
I

r

I

I I

u SW’TCH RECEIVER

-J OPT,ONAL

2098-9803

REMOTE L.E.D.)

TEST SWITCH

GREEN

-----7

END-OF-LINE,RELAY

(NORMALLY CLOSED)

2098-9739

OR

2098-9735

BLUE. BLUE

EMITTER

-------OPTION

BASIC CONNECTION

Notes

1. When wired as shown, a (detector) trouble signal takes the form an initiating device circuit trouble at the control
panel.

2. The 24VDC supplied to the detector must meet the following requirements:

a. Supply voltage regulation : 19.2 to 33V
b. Ripple : 30% or less

3. The optional 2098-9803 Remote LED/Test Switch allows the detector to be monitored and tested from a remote
location.

If used, the 2098-9803 Remote LED/Test Switch should be installed below the detector’s receiver.

ADJUSTMENT PROCEDURE

Optical Axis Adjustment

You must first “coarse adjust’and then “fine adjust” each detector.

Note:

Coarse Adjustment (Adjustment Using the Sight Hole)

Loosen the transmitter’s optical axis clamp.

1.

2. While looking through the transmitter’s sight holes, move the transmitter’s body as required to center the
associated receiver in the sights.

Hand-tighten the optical axis clamp.

3.

l

The clamp will be fully tightened during a later step.

SIGHT HOLES

Coarse adjust the receiver as described in steps 1 through 3.

4.

w

ASSOCIATED EMITTER OR RECEIVER

Fine Adjustment (Adjustment Using the Monitor Output)

Note:

1.

2.

3.

4.

5.

See illustration on next page.

Open the monitor cover (found on the back of the receiver).

l

The cover’s left-hand screw must be removed; the cover’s right-hand screw need only be loosened (it cannot
be removed).

Check to see that the red LED inside the SET switch is pulsing.

Set the SENSITIVITY SELECT switch to OFF.

Insert the monitor plug (provided) into the monitor jack, and connect it to a DC microammeter.

l

The ammeter must have an internal resistance of 1 K to 1 OK ohms per volt, and must be set for its 50 uA range.

Using the COARSE ADJUSTMENT and FINE ADJUSTMENT output control knobs, adjust the monitor to obtain

a reading of about 15 uA (this reading is notcritical).

l

Output control adjustments:

Clockwise
Counterclockwise

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Turn the output control knobs slowly. A quick turn can cause idling.

l

Never turn an output control knobs more than 3/4th turn.

~: Higher output

: Lower output

6. Manually align both the transmitter and the
receiver bases to obtain maximum output. Then
lock both devices in place by securely tightening
their optical axis clamps and connecting fixtures.

l

If, during step 6, you find the monitor output
exceeding 30 uA (saturated value), use the
output controls to reduce the output to about 15

OUTPUT CONTROL
FINE ADJUSTMENT

SELECT SWITCH

OPTICAL AXIS CLAMP

CONNECTING PlXT”RE

MONlTOR COVER

COVER SETSCREW

(CONTAINING MONITOR LEG)

MONITOR JACK

uA. Then finish doing step 6.

Quantity-of-Beams Adjustment and Sensitivity Selection

After completing the “fine adjustment” procedure (see above):

1. Using first the COARSE ADJUSTMENT and then the FINE ADJUSTMENT output controls, set monitor output
to between 17 and 22 uA.

2. Set the SENSITIVITY SELECT switch to its optimum sensitivity position (see page 17).

3. Momentarily press the SET switch. Then wait 20 seconds.

l

If the detector issues a trouble signal during the 20 second wait, turn the SENSITIVITY SELECT switch OFF
and repeat steps 1,2 and 3 above.

4. Remove the plug from the monitor jack, close the monitor cover, and securely tighten the cover’s screws.

Operation Check

Using appropriate test filters (from the 553-509 Test Filter Kit), check detector operation (see Operational Test and
Non-operational Test on page 13).

Precautions

1. The SENSITIVITY SELECT switch must be turned OFF throughout the optical axis adjustment and at the start
of the quantity-of-beams adjustment. The switch must, however, be set to its 75, 20, 30, 40, 50, 60 or 70%
position at all other times.

l

The detector cannot initiate alarms or issue trouble signals with its SENSITIVITY SELECT switch turned
OFF.

2. Maximum monitor output is 35 uA.

3. When the red MONITOR LED starts flashing following initial power up, immediately start “optical axis,“
“quantity-of-beams” and “sensitivity selection” adjustments.

11

Note:

The lengths of time required before the detector reaches its normal monitor condition are:

l

At installation and adjustment

From power up to start of emission
From start of emission to press SET switch

: Approx. 30 sets.
: As much time as is needed to adjust optical axis and

quantity-of-beams.
From press SET switch to start of normal monitor
condition

: Approx. 10 sets.

c

SET SENSITIVITY SELECT SWITCH,
PRESS SET SWITCH.

APPROX. 10 SECS

l

After installation

POWER-UP

I--.;1----~--~+~~x~;,

START OF
EMISSION

OPTICAL AXIS ADJUSTMENT,
QUANTITY-OF-BEAMS ADJUSTMENT

Following an extended (30 minute or longer) power outage, the detector automatically reaches normal monitor
condition as follows:

From power up to start of emission
From start of emission to auto SET
From auto SET to start of normal monitor condition

START OF

POWER-UP EMISSION

APPROX. 90 SECS

: Approx. 30 sets. after end of power outage
: Approx. 90 sets. after start of emission
: Approx. 10 sets. after auto SET

- ---

B-B/

\

;

,

NORMAL MONITOR
CONiIITION

OPERATING INSTRUCTIONS

To Manually Update the Detector’s Initial Beam Setting

1. Place the receiver’s SENSITIVITY SELECT switch in its optimum sensitivity position (see page 17).

2. Momentarily press the SET switch.

Restoration Procedure Following a Detector Alarm Indication

After confirming that smoke is no longer present, reset the fire alarm system from the fire alarm panel.

l

If the detector goes back into alarm:

1. Turn the receiver’s SENSITIVITY SELECT switch OFF. Then clean the transmitter and receiver lens
covers.

l

Be sure to (a) return the SENSITIVITY SELECT switch to its optimum sensitivity position and then (b)
press the SET switch after cleaning the lens covers.

2. Reset the system from the fire alarm panel.

12

Restoration Procedure Following a Detector Trouble Indication

Proceed as follows until the trouble indication clears:

1. Check to see that the beam is unobstructed.

2. Check and, if necessary, coarse adjust the detector’s optical axis (see page 10).

3. Turn the receiver’s SENSITIVITY SELECT switch OFF. Then clean the transmitter and receiver lens covers.

l

Be sure to (a) return the SENSITIVITY SELECT switch to its optimum sensitivity position and then (b) press
the SET switch after cleaning the lens covers.

4. Check and, if necessary, fine adjust the detector’s optical axis (see page 10).

l

Be sure to (a) return the SENSITIVITY SELECT switch to its optimum sensitivity position and then (b) press

the SET switch after checking this adjustment.

MAINTENANCE

The detector should be checked and serviced every six months as follows:

1. Visual Check

A. Turn the receiver’s SENSITIVITY SELECT switch OFF. Then, using a soft cloth, clean the transmitter and

receiver lens covers.

B. Check for loose connections between the base and the detector body.

C. Check the chain and hook connection.

D. Check the optical axis for deviation by looking through the sight holes.

2. Functional Check

A. Check to see that the monitor output is in the 17 to 22 uA range (see Fine Adjustment on page 10).

l

Be sure (a) to return the SENSITIVITY SELECT switch back to its optimum sensitivity position and then
(b) press the SET switch after making this check.

B. Perform operational, non-operational and light blocking tests.

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Operational Test

Hold the appropriate “operation” test filter from a Simplex Beam Detector Test Filter Kit (553-509) in
front of the detector’s receiver for one minute.

The FIRE (red) LED must illuminate and a fire signal must be transmitted by the end of this test.

l

Non-operational Test

Reset the system. Then hold the appropriate “non-operation” test filter from a Simplex Beam Detector

Test Filter Kit (553-509) in front of the detector’s receiver for one minute.

The FIRE (red) LED must NOT illuminate and a fire signal must NOT be transmitted during this test.

13

l

Light Blocking Test

Hold filter #7 from the Simplex Beam Detector Test Filter Kit (553-509) in front of the detector’s receiver

for 30 seconds.

The TROUBLE (amber) LED must illuminate and a trouble signal must be transmitted by the end of this

test.

System Specifications

SPECIFICATIONS

1. Method

2. Operating voltage

3. Waveform

4. Consumption Current

5. Surge current

6. Fire alarm current

7. Trouble alarm current

8. Fire alarm contact

9. Fire remote contact

10. Trouble alarm contact

11. Coverage

12. Sensitivity

13. Sensitivity error

14. Signal processing

15. Fire signal delay time

16. Delay time for detection of blocked beams

17. Indication of activation

18. Indication of normal monitor condition

19. Compensation required for contamination
of optics

n 20. Fire test terminal, external set terminal

(registration of initial beam data) and

external output of monitor signal terminal

21. Optical axis adjustment

22. Operating environment

23. Insulation resistance

24. Storage temperature

: Pulse synchronization and compare
: 24VDC (19.2 - 33VDC)
: Filtered DC
: 250 uA (typical)
: 2.5mA max.
: 40mA max.
: 40mA max.
: 0.5A max. @ 24 VDC
: 0.5A max. @ 24 VDC
: 0.5A max. @ 24 VDC
: 32ft.to328ft.(10mto100m)
: 15, 20, 30, 40, 50, 60 or 70% (7 steps)
: Within f 10% at 50%/span setting
: By 1 -chip, 8-bit microprocessor

30-60

:
: 15-60 seconds
: Fire signal = red LED illuminated.

: Green LED pulsing

: Automatic compensation for quantity-of-beams

: 0-5VDC (by digital voltmeter)
: By sight and moving parts of detector base
: +32 to + 100°F (with relative humidity not exceeding

: More than 50 M-ohms (between terminals and enclosure)
: -4to +14O”F

seconds

Trouble signal = amber LED illuminated

95%)

Receiver Specifications

1. Receiving device

2. Photo-signal compensation rate

3. Adjustment for quantity of beams

4. Photo-signal monitor

5. Initial photo-signal setting

6. Light receiving cycle time

Transmitter Specifications

1. Light source

2. Light source drive

3. Light emitting cycle time

4. Light source temperature

: PIN photo diode
: * 1%/50-70 minutes
: Monitored on a DC ammeter’s 50 uA range. Adjust by

OUTPUT CONTROL knobs to fall in the 17-22 uA range
: 3.5 mm jack (current mode output)
: By SET switch
: 2.7-3.8 seconds (during monitoring, 1.3-l .8 seconds)

: Infrared LED
: Pulse drive
: Depends upon the receiver specifications
: Built-in compensator

14

i

Enclosure Specifications

1. Dimensions

2. Weight

3. Material

4. Construction

5. Color

Detector Base Specifications

1. Dimensions

2. Weight

3. Material

4. Color

5. Mounting lock

Detector Components

No.

1 Transmitter 1
2 Receiver 1
3 Base (for transmitter) 1 2 leads
4 Base (for receiver) 1 17 leads

5 Chain 2 Attached to base

6 Wrench (for locking detector) 1

7

8 Instruction manual 1

Contents

Monitor plug (for monitor

output measurement)

: Length, 6.3 in (16 cm); width, 5.8 in (14.7 cm); height, 7.5

in (19 cm)

: Receiver, 2.4 Ibs. (1.09 Kg)

Transmitter, 2.2 Ibs (1 .O Kg)

: Diecast aluminium

Anti-fogging filter
: Drip-proof
: Metallic silver

: 3.5 in. (8.9 cm)
: 0.82 lb. (0.372 Kg)
: Diecast aluminium
: Metallic silver
: Wrench (provided)

Remarks

With cord

1

Notes

1. Each detector consists of a transmitter and a receiver, both of which must bear the same ID number.

2. All specifications are subject to change without notice.

15

l

Transmitter

2. No monitor output

TROUBLESHOOTING

increases monrtor

4. Detector stays in
alarm (won’t reset)

5. Detector stays in
trouble

6. No trouble signal

IMPORTANT:

able to produce a fire signal

Has the optical axis been shifted?

Has quantity-of-beams (monitor output) changed?

Is MONITOR (green) LED of transmitter pulsing?

Is optional test switch in TEST position?

Perform the same checks as for a detector that
stays in alarm (see 4 above)

Is material blocking the optical axis? (E.g., a
crane or some other moveable object)

Is quantity-of-beams properly adjusted?

Are transmitter and receiver lens covers dirty?

Is detector properly connected to power supply?

Check the quantity-of-beams (monitor
output)

Remove the cause

Check transmitter power lines for open
or short circuit

Return switch to NORMAL position

Remove the blocking material

Check monitor output (17 to 22 uA).
Press SET switch

Clean covers and press SET switch

Connect 24VDC + & - from P.S. to rcvr’s

red & white leads respectively

Do not attempt to disassemble the detector.

If the appropriate troubleshooting procedures fail to rectify the problem, contact your local Simplex
branch office for assistance.

16

.

APPENDIX: SENSITIVITY SELECTION

Sensitivity Selection and Test .Filter

Using the chart below as a reference, determine the detector’s proper sensitivity setting as follows:

A. If the ceiling is less than 16 feet high, the detector’s optimum sensitivity setting should be midway between

;

the U, and lJ2 lines with reference to the distance separating the detector’s receiver from its transmitter.

Example:

Ceiling height = 14 ft. (4.27 m)

Distance separating receiver from transmitter = 147 ft. (43.22 m)
Midpoint between lines U,, and U2 at 147 ft. = 52%

Optimum setting = 50%

Use test filter #5 for operational test (see note below)
Use test filter #4 for non-operational test

B. If the ceiling is more than 16 feet high, the detector’s optimum sensitivity setting should be midway between

I

the U2 and S lines with reference to the distance separating the detector’s receiver from its transmitter.

Example:

Ceiling height = 45 ft. (13.72 m)
Distance separating receiver from transmitter = 147 ft. (43.22 m)
Midpoint between lines U2 and S at 147 ft. = 38%
Optimum setting = 40%

\

Note:

The Simplex Beam Detector Test Filter Kit (553-509) includes a chart that tells you the filters to use for

Use test filter #5 for operational test (see note below)
Use test filter #3 for non-operational test

operational and non-operational tests, as well as instructions for assembling and using the test filters.

SENSITIVITY SELECTION FOR 2098-9650

Light Obscuration %

100 -

60 - S

60 -

/c---------------

40 -

20 -

r (3

0 0 a 0

Range Ul through U2 if height is less than 16 ft. (5 m)
Range S through U2 if height is greater than 16 ft. (5 m)

s 8 8 e 8 8 8

Y

17

-----

u2

distance in meters

Ed 5 90

aaSimplex

Simplex Time Recorder Co., 0 Simplex Plaza

l

Gardner, Massachusetts 01441-0001 U.S.A.

PER-21 -011

(574-653)