ML20155F405
| ML20155F405 | |
| Person / Time | |
|---|---|
| Site: | Fort Saint Vrain  |
| Issue date: | 04/14/1986 |
| From: | Warembourg D PUBLIC SERVICE CO. OF COLORADO |
| To: | Cook A, Shoemaker F Federal Emergency Management Agency |
| References | |
| P-86293, NUDOCS 8604220129 | |
| Download: ML20155F405 (51) | |
Text
_________
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OPublic Service-si Company of Colo, ado 2420 W. 26th Avenue, Suite 1000, Denver, Colorado 80211 April 14, 1986 Fort St. Vrain Unit No. 1 P-86293 Federal Emergency Management Agency Mr. Alton D. Cook Denver Federal Center P.O. Box 25267 Denver, CO 80225-0267 ATTN:
Dr. Floyd Shoemaker Docket No. 50-767
SUBJECT:
Radiological Alarm in Platteville, Colorado
Dear Mr. Cook:
In a recent phone conversation with Dr.
Floyd Shoemaker he requested technical information on the subject siren we have installed in Platteville as a backup to the radio alert system.
Rather than furnish a few bits of information I believe it is prudent to furnish all the information. Therefore I have enclosed a copy of I
the Siratone model E0WS manual for your use.
Please call if we can be of further assistance.
.n...,..,
Very truly yours,
. g,g ;,
8604220129 860414
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PDR ADOCK 05000267 l's,:;F.:.*2.,
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D. W. Warembourg. Manager
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SIGNAL DIVISION Federal Signal Corporation Model EOWS I
l SiraTone' l
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i 1904GOP INSTALLATION AND SERVICE INSTRUCTIONS
O esessat 256A569
- ENIE8888 REV.A 385 Feewe conwete" Printed in U. S. A*
SUPPLEMENT TO MODEL EOWS*
INSTALLATION AND SERVICE INSTRUCTIONS The following are changes that NOTE should be made to the Installation and The desiccant packs should be Service Instructions to make the man-replaced or dried (per instruc-ual compatible with the equipment as tions on package) whenever presently shipped from the factory.
the cabinet door is opened.
A.
The EOWS rotator circuit has 2.
The vapor capsule has an been changed to provide a greater adhesive backing and is to be installed range of available current for extremely on the inside of the cabinet door. At cold weather. Disregard figures 4-3 time of installation, the date should be and 7-1 in the Installation and Service written in the space provided on the Instructions and use the Control Unit capsule. The capsule has a maximum wiring diagram included in this supple-life of one year.
ment. The changes that are reflected in 3.
When possible, the service the new diagram are:
and inspection of the cabinet should not be done in inclement weather condi-1.
The rotator fuse and fuse-tions. Prior to closing the door, all holder have been deleted.
excess moisture should be removed.
2.
The battery wire (+) that went to the fuseholder is now connected
. '.T.*li'i '" *.".*,.'"i.!,'""" '
i to the rotator relay socket, pin 8.
,=;'gglpy.g
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ta i
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.ce c:.
d 8
- 7' 3.
Pins 1 and 8 are jumpered
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.s together.
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Mns 4 and 6 are not jum-l 1
pered.
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Pins 3 and 6 are jumpered
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j together.
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6.
The 70-ampere main fuse (ecross battery) has been replaced with
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a 100-ampere.
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B.
The following changes should 3
be made to the diagram and parts list
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on pages 7-4 and 7-5.
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i 1.
The value of the item 11 i
n.-
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fuse should be changed to 100 amp.,
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_.JC JJN100A (part no.148A140A).
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Delete fuseholder, item 36.
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Add: Desiccant. part no.
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288A339A, qty. 2.
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Add: Vapor Capsule, part j
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no. 288A340A, qty.1.
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Control of Condensation pnd
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Corrosion in the Control Unit Cabinet. /
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The two packets of desiccant
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j3 should be placed in the bottom of the
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Control Unit Cabinet.
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.... -."" ""........ m.u o Control Unit Wiring Diagram.
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l SIGNAL DIVISION Federal Signal Corporaton Model EOWS SiraTone" Fsy 5 i n.e u Moos L.
E ovJ S - f.,12 N
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1 INSTALLATION AND SERVICE INSTRUCTIONS gyy,,,,,
1184
a
-===== = = = ^===is===~se= m== m Warranty e
Federal Signal Corporation (Federall warrants outdoor warning sirens ofits h
l manufacture to be free from defective materialand workmanship at the time of delivery to the user. Federal will repair or replace, without charge to user other l
than tranaoortation, removal and reinstallation costs, any ofits outdoor warning h
sirens and controls, or part thereof which Federal shall determine, in its sole dis-l cretion, to be defective in material or workmanship provided written notice of j
l such defect shall have been given to Federal within two years from the date of f
a l
delivery as to such defects in electrical components, such as motors and con-l l
trols, and within three years from date of delivery as to all other such defects, f
,1 l
such as mechanical components. Additionally, Federal's obligations hereunder l
shall be conditioned upon the user, at its cost, makir.g the outdoor woming siren available to Federal for its inspection at such location as Federal may designate.
l This warranty shall not extend to any outdoor warning siren which hai,,been l
improperty installed or inadequately maintained according to instructions sup.
l plied by Federal or which has been subjected to misuse, negligence, accident, z
l tampering or alteration. The sole remedy for breach of the foregoing warranty
[
l shall be repair or replacement as aforesaid, orin Federal's solejudgment, refund
[
l of the purchase price paid for such outdoor warning siten, and every other form j
l of liability for direct or consequential damages, cost or loss is expressly excluded f
l or denied. THE FOREGOING WARRANTY IS EXCLUSIVE AND IN LIEU f
l OF ALL OTHER WARRANTIES OF MERCHANTABILITY, FITNESS FOR f
l PURPOSE AND OF ANY OTHER TYPE WHETHER EXPRESS OR IMPLIED.
f l
recarocca f
L,,,,,,
- --- = --- -
-t
TABLE @F CONTENTS Paragraph Page SECTION I - GENERAL DESCRIPTION 1-1 General 1-1 1-2 Siren Description 1-1 1-3 Signal Description 1-3 1-4 Options 1-3 SECTION II - SPECIFICATIONS 2-1 System Power 2-1 2-2 Control Unit.
2-1 2-3 Control Module 2-1 2-4 Amplifier Module.
2-2 2-5 Power Supply 2-2 2-6 Speaker Array - Physical 2-3 SECTION III - SYSTEM PLANNING 3-1 Contol Unit 3-1 3-2 Siren Location 3-1 SECTION IV - INSTALLATION 4-1 Physical.
4-1 4-2 Electrical Connections 4-3 SECTION V - PRE-OPERATION CHECKOUT AND TEST 5-1 Initial Checkout 5-1 5-2 Level Adjustment.
5-2 5-3 Final Tests 5-3 SECTION VI - THEORY OF OPERATION 6-1 General 6-1 6-2 Control Module 6-1
)
6-3 Amplifier Module.
6-3 6-4 Power Supply 6-4 6-5 Radio Receiver / Decoder.
6-5 6-6 Model EOWS *115 and EOWS*1212 Speaker Array 6-5
-->. 6-7 Model EOWS *612 Speaker Array 6-5 SECTION VII - MAINTENANCE 7-1 General 7-1 7-2 Control Unit.
7-1 7-3 Speaker Arrays 7-2 l
SECTION I GENERAL DESCRIPTION Unit with batteries. Three types of speaker arrays are presently available.
Models EOWS*115 and EOWS *1212 are stationary and omnidirectional. Model l
EOWS*612 is rotating, unidirectional.
I The Model EOWS *C/B is the only control unit necessary. It comes equip-ped with batteries and six amplifiers.
A.
Model EOWS *C/B Control Unit.
g The Control Unit consists of two cabinets, channel mounted for ease of installation (see figure 1-1). The upper cabinet (NEMA 4 enclosure) houses all the necessary electronics and controls for producing and amplifying up to seven signals (six standard plus one optional) c, and public address (PA). It also contains
'w a diagnostic testingwircuit that allows system checkout without alarming the public, a command verification digital counter, signal length timer, automatic battery charger, manual siren controls, f*igure 1 1. Model EOWS Control Umt and Battery Box.
utomatic speaker incrementing which automatically positions the speaker to the next zone after completion of a trans-
- 11. GENERAL.
mission and the optional Federal Siratrol radio control for remote activation of the The Federal Model EOWS SiraTone siren. The Federal Siratrol is the subject (Electronic Outdoor Warning Siren) of separate instructions. The tone gene-products are a family of dual-tone, elec-rator circuitry (Control Module) and tronic sirens that are capable of produc*
amplifier ( Amplifier Module) are all ing high intensity warning signals and modularly constructed for easy removal voice communication over a large area, without disconnecting a large number of These electronically produced warning wires.
signals more nearly resemble the distinc-tive, penetrating sound of an electro-The lower cabinet, which complies mechanical siren. A highly efficient to a NEMA 3R rating, houses two main-circuit design and battery power system enable the siren to produce a high sound tenance free, lead-calcium deep-cycle rechargeable batteries. The lower and level, while making moderate demands on the user provided power source.
upper cabinets are interconnected via conduit, which is sealed to prevent any harmful vapors from entering the control
- 12. SIREN DESCRIPTION.
area. The batteries provide primary The SiraTone system consists of a power to the siren, while the charger in high power Speaker Array and a Control the upper cabinet maintains the charge on the batteries. This arrangement 11
provides power to the siren in the event 2.
51odel EOWS *1212 (figure 1-3).
of a power failure and can provide thirty This speaker array is a cluster of twelve minutes of continuous signalling power exponentially flared re-entrant, spun to the siren.
aluminum speaker projectors which are non-rotating, omni-directional. Two B.
Speaker Array.
tiers of six speakers produce a uniform sound distribution to within 15dB for a Three different speaker arrays are complete 360 degree radial perimeter, available for use with the EOWS *C/B Con.
This speaker array is designed for "long trol Unit. Each speaker array is sup.
throw" wide area coverage.
plied pre-wired, ready for installation with 50 feet of speaker cable. The spea-3.
ker arrays have convenient eyebolts 5!odel EOWS*612 (figure 1-4) which provide an adequate lifting point The Model EOWS *612 rotating uni-direc-for ease of installation. Each speaker tional speaker array uses six exponen-array modelis the subject of separate tially giared re-entrant, spun aluminum installation instructions. The general speaker projectors. The rotator mech-description of each speaker array is con-anism rigid bearing assembly. idler bear-Sained in the following paragraphs.
ings, brush and collector rings and j
speaker drivers are all located in the J
1.
51odel EOWS *115 (figure 1-2).
sectional protective enclosure. This en-This speaker array is a cluster of twelve I sure has sectional rear panels for 1
exponentially flared re-entrant, fiber-easy servicing. Each speaker circuit j
glass speaker projectors which are non-has four brush contacts which provide rotating, omni-directional. Two tiers of ntinuous reliable energy transfer and six speakers produce a uniform sound stall free rotation of the array.
distribution to within 13dB for a complete This speaker array is designed 360 degree radial perimeter, This spea-for "long-throw" wide area coverage.
ker array is designed for low vertical The dual-tone coverage of this unit pro-sound dispersion while maximizing the vides an effective warning signal as well uniform horizontal sound distribution.
as necessary listening time.
~~
I
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5 Figure 12 Model EOWS*115 Speaker Array.
Figure 13. Model EOWS*1212 Speaker Array.
12
1-3. SIGNAL DESCRIPTION.
Model EOWS is capable of produc-ing six standard signals plus one optional signal for a maximum of seven signals.
I A graphic representation of the six standard signals is shown in figure 1-5.
1 As indicated in the figure, three of the six signals are either a wailing, dual-tone signal or a variation of a wailing dual-tone signal. Similarly, the remain-ing three signals are either a steady dual-tone signal or variations of the steady dual-tone signal. In some of the signals, both tones are produced simul-i taneously, while in others tl% tones are present alternately.
~
- 14. OPTIONS.
i A.
Auxiliary Tone.
If required, an optional seventh signal can be added to the SiraTone. The circuitry required for the production of
+ Figure 14. Mode / EOWS*612 Speaker Array. &
the optional signal is contained in an easily installed tone module. A tone module can be factory installed in the Control Unit, or the module can be in-SIGNAL CHARACTERISTICS stalled by the user. In addition, a tone module can be changed, if signalling re-quirements change. Optional tone modules available for use with the SiraTone are:
Yelp, Yeow, Slow Whoop,
- Temporal Slow l
Whoop, Bell. Gradual Horn and Westmin-ster Chimes. Westminster Chimes is 2. _ _ _ _ _ _ _ _ WAIL suggested as a pleasant method of daily
- - - - - {3{g gygADY scheduled SiraTone testing.
c
} _,.,,,.y u.e.
B.
Radio Control.
k _ _ _
STEADY ALTERNATING STEADY The siren can be activated by a
,,' ~a f,' ~
radio signal if an optional Federal Sira-q/
Tone is incorporated into the Control
,i
',\\
,/
U nit. Activation by radio control has i
8 5
~, 8 g; -
y the advantage that control lines are not i
l' re9 uired between the siren contro) site ALTERNATING Wall and the siren location. Public address and tone signals can be controlled by a f,
e, ' -
Siratrol receiver with either Two Tone O
is Sequential or DTMF (Dual Tone Multiple U
if Frequency) control. The Federal Sira-
- c :'if troi is the subject of a separate instruc-6: 9 PULSED Wall tion manual.
m u.
Figure 1-5.
Signal Characteristics.
I 1-3
C.
Home/ Remote Control Positioning. (Rotating This option will also "Home" the speaker array system only) speaker array to zone 1 (predetermined at installation) which could be a position The rotating speaker array can be away from the general direction of in-positioned to operate selected zones. Up clement weather or the position of primary to 8 zones can be selected and set at the signalling and/or PA announcements.
time of installation. Radio or land-line Homing automatically occurs after four activation can then position the speaker minutes of speaker array inactivity. The array to any desired zone for a specific ption can be factory installed or added area announcement. The standard auto, to existing SiraTone systems.
matic speaker incrementing function will still be operative and will move the speaker array to the next zone after completion of a transmission.
d a
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- National Fire Protection Association recommended temporal pattern for the National Standard Fire Alarm evacuation signal.
14
SECTION 11 SPECIFICATIONS
- 21. SYSTEM POWER
- Operating Voltage
.120/240Vac, 47-440Hz, single phase Current Requirements
. 4 amps. at 120Vac 2 amps, at 240Vac Operating Power
- Operating Voltage.
. 24Vdc Operating Current when used with:
EOWS *115 52 amps. (nom.)
7-EOWS *612
. 60 amps. (nom.) M EOWS *1212.
. 60 amps. (nom.)
Standby Current (Control, 6 amplifiers, Radio and Decoder)
. 0. 25 amps.
Operating Time.
30 minutes Standby Time (with minimum 5 minute full signal reserve).
. greater than 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br /> ( 7 days) 2 2. CONTROL UNIT.
Output Power 1200 watts (nom.)
Output Voltage (to speaker drivers) 32Vrms (nom.)
Operating Temperature.
. -35oC to +85 C **
Dimensions (HWD) 58" x 20" x 15" (1473mm x 508mm x 381mm)
Weight (approx. incl. batteries) 240 pounds (109 kg)
Enclosures Upper (Control).
. NEMA 4 Lower (Batteries)
. NEMA 3R 2-3. CONTROL MODULE.
Signal Dual-Tone Freq. Range Sweep Rate Wan 300/360-850/1020 13 sec.
Pulsed Wall 300/360-850/1020 1.5 sec/13 sec.
Alternate Wall 300/360-850/1020 1.5 sec/13 sec.
S teady 850/1020 "
- N.A.
Pulsed Steady 850/1020* "
1.5 sec.
Alternate Steady 850/1020 " *
- 1. 5 sec.
21
2-3. CONTROL MODULE (continued).
Signal Duration ( Auto reset).
. 2-5 minutes Input Impedance Local
. SK Ohms Remote
. 500 Ohms Signal Output Tone
. SVrms Audio.
3.5Vrms Audio Distortion for output level from 0.1 volt to full rated output 1% maximum Frequency Response (300 to 4KHz).
2dB (ref.1KHz)
Maximum Load
. 50 Ohms Activation, Minimum Contact Closure. 200ms at 0 Ohms 300ms at 100 Ohms
- 24. AMPLIFIER MODULE.
Operating Current
. 8.75 amps. at 24Vdc Input Impedance.
. 33K Ohms Bias Trigger Level (Max. sensitivity). 125mVrms a.
Signal Output Tone 32Vrms Audio.
. 22Vrms Audio Distortion for output level from 2 volts to full rated output 3% maximum Frequency Response (300 to 4KHz).
22dB (ref.1KHz)
Maximum Load
. 5 Ohms 2-5. POWER SUPPLY.
Charge Current.
. 6 amps.
Battery Voltage (at full charge).
. 27. 8Vdc Batteries Number
.2 Type
. Deep discharge (lead-calcium maintenance free chargeable)
Losd Test Current.
. 360 amps.
Reserve Capacity
.115 minutes at 25 amps.
- System power refers to power supplied to the system from user-supplied commercial power. The operating power is the self-contained primary and back-up power system.
- The siren can operate throughout this temperature range provided the battery temperature is maintained at -18 C or higher.
- Frequencies for steady, pulsed steady and alternate steady are peak frequencies. The signal itself includes " build-up" and " coast down",
similar to a mechanical siren.
F@.
I
- 24. SPEAKER ARRAY PHYSICAL.
Number of Speakers
> EOWS *612
.6 EOWS *1212 and EOWS *115. 12 Dimensions (HWD)
-- EOWS *612
. 81.5" x 51.6" x 32.8" (207cm x 131cm x 83cm)
EOWS *1212
. 58"H (88" incl.mtg. brckt) x 60" Dia.
(147.3cm x 152.4cm)
EOWS *115
. 55"H x 54" Dia.
(144cm x 137cm)
Weight
> EOWS *612
. 480 lb. (218 kg) <
EOWS *1212
. 540 lb. (245 kg)
EOWS *115
. 360 lb. (163 kg) 23
SECTION lli SYSTEM PLANNING 3-1. CONTROL UNIT.
3 2. SIREN LOCATION.
The information in this paragraph The information in this paragraph provides the user with guidelines neces-provides guidelines to aid the user in the sary for installation to achieve total selection of an installation site that makes benefit of the Control Unit's features.
optimum use of the siren.
Control Unit mounting location must Careful consideration of the factors first be considered. The Control Unit affecting the propagation of sound from can be mounted indoors as well as out-the siren and the response of the human doors. In order to avoid losses in speak-ear to the sound will optimize the ability er power, it is recommended that the of the siren to effectively warn the com-speaker array and Control Unit be in-munity.
stalled so that the 50-foot interconnect-ing cable (supplied) will not have to be The reduction of signal intendty as lengthened. If it is necessary to make the distance from the siren increases and a longer cable run, increasing the wire the minimum desired signal level at the size to 12AWG or larger is recommended.
fringe of the area to be covered are important considerations when choosing Whether the Control Unit is installed a siren installation site. As the distance indoors or outdoors, it should be located from the siren increases, sound level out of the reach of vandals. The control losses accumulate. These losses are a and battery enclosures are both supplied result of weather conditions, the terrain, with hasp and staple for padlocking obstructions in the sound path, the pitch security.
of the sound and the height of the siren.
The system is operated from 120 or Optimum sound propagation conditions 240VAC which necessitates minimal install _
exist when there are no obstructions in ation requirements.
the sound path, the terrain is flat. and the air is calm. Under these conditions, Several methods of both signal and each time the distance from the siren is voice can be used to activate the Control doubled, the sound level decreases by U nit. Land-line control can be used approximately 8dB. For example, the through normally open contact switches.
sound level 100 feet (30.5m) from the These connections should be made direct-siren is 115dB. At 200 feet (61m), the ly to the control module terminal block.
sound level drops to 107dB ; at 400 feet The SiraTone can also be remotely acti-(122m) the sound level drops to 99dB ;
vated via the optional Siratrol receiver.
etc. This is referred to as the " loss per When this option is selected, the receiver distance doubled".
is pre-wired and located in the Control Unit cabinet.
A loss per distance doubled of 8dB is seldom experienced. This is because The entire Control Unit is shipped buildings and other obstructions are mounted on an aluminum channel with frequently present in the sound path.
four mounting holes for 1/2-inch bolts.
In addition, the atmosphere is rarely calm.
The total weight of the Control Unit /
and the terrain may not be flat. As a Battery Box Assembly is approximately result, a typical loss per distance doubled 240 polunds (109kg.) including batteries.
in residential areas may be 10dB, and as Therefore, insure that the mounting sur-high as 12dB in areas having tall build-face and fasteners can safely sustain the ings.
weight of the assembly.
3-1
Experience indicates that an in-Model EOWS*115 SiraTone is approximate-dividual with normal hearing will probably ly 3000 feet (914m). (From 3000 to 6400 hear a warning signal whose intensity is feet (914 to 1950m) depending on speak-at least as high as the ambient noise level.
er array used.)
Experience has also shown that the am-bient noise level in industrial districts is Wind speed and direction often typically 90dB. Therefore, for a person affect the propagation of sound from the siren. Consequently, the direction of to hear a warning signal in an industrial crea, the sound level intensity of that the prevaillhg wind may also be a factor signal must also be approximately 90dB.
to consider when selecting the installa-in this situation, any point receiving a tion site (s) of a small, one or two-siren signal having less than 90dB intensity is system. For example, if the prevailing considered to be outside the effective wind is from the west, it may be desir-range of the siren.
able to install the siren toward the western edge of the area to be covered.
In business districts an ambient noise level of 80dB is common and in Other factors to consider before residential areas, 70dB of ambient noise selecting the installation site include the is typical. Assuming a 70dB minimum MlaWity of ht&al men W eau sound level, the effective range of a of installation and maintenance, and the l
height of surrounding obstructions.
I 1
am SV)
SECTION IV INSTALLATION
- 41. PHYSICAL.
CSANE L!F7 EYE 90LT A.
General.
b M
Q'y ONE OF TAELVE 4
g SPEAAERS Most SiraTone installations are one v.
of two types: Pole Mount or Flat Surface v
Mount. These two configurations make b-d CABLETO O M. G0 it possible to install the SiraTone in al-q g
(FEDERAL SUPPLIED)
CONoulT 8 coNouiT most any situation. If neither of the k.
-Y C' # " 3 's c
U' installations in this paragraph is suitable.
- E E0) modification of one of the configurations q$UTPE
$ L S
o described may be practical, f
ANGLE LEGS S POLE A SiraTone is typically installed 35 SPEAFER ASSEVBLY cRouNo a;ri e s to 40 feet (11m. to 12m.) above the ground. If the siren is less than 35 feet c0NNECT G
0 R00 c:pECTLY (11m.) above the ground, sound intensity g
1 at close range may increase but the effec-
, y,g v:N.
'T tive range of the siren is reduced. Con-00
- E R SUPPLY (CUST0VER SUPDLiED) versely, if the siren is located more than 40 feet (12m.) above the ground, the 5-"- -
U effective range of the siren may increase, A
l U4*CR ANE LIFT HOLE but the sound may skip over areas closer j
i
}
SatN cont 90L to the siren. These variables may make
[-
it desirable to test the siren sound cover.
eATTER:ES(2) age at various heights and locations when-SERVtCE DISCONNECT ever possible.
Tiliti
( cuST0uER SuePtiEo)
(IF REculREO 1 B.
Pole Mounting.
l T! USER UTILITY POLE I
A typical SiraTone pola-mounted
'?
(CUST0VER SLPAL:ED) installation, using the Model EOWS*115 ChNC"c ETE FO 7i Omni-directional Speaker Array, is shown j
CONOITIONS CETEPv.NE in figure 4-1.
Depending upon the sub-ll
~7 CROUND TO BE # 4 surface conditions at a particular apeaker catv:NIZED IRON array installation site, it may be advisable o
GRouNC Roo wiTH to use a Class I timber utility pole. The e 6 hi' c_
OR E0u v L stability of the footing may make the in-
! 15'
^C.
(CUSTOMER SUPPUED) stallation of guy wires to the pole neces-
' MrN.
sary. To install the SiraTone on a timber l
r GROUND LEVEL utility pole, proceed as follows:
1.
Install the timber utility f
pole in accordance with accepted stand-i ards and practices.
u 2.
Mount the speaker array on
.f
_ "f 8'5N 4
wn the pole following the instructions sup-rk(h]
3&
S plied with the array. The Control Unit "y?[ph.[
j
)
and Battery Box are attached to a length f(
.q 4
of 4" channel. There are five pre-drilled g
3 n
s s
7 holes in the channel: one 1-1/4" hole and four 5/8" holes. The 1-1/4" hole provides Figure 41. Po/e Mounted Insts//ation.
41
9 a convenient point for lifting the Control Unit / Battery Box assembly. The four 5/8" holes are for attaching the assembly to the pole. To attach the Control Unit /
Battery Box to the pole proceed as follows:
4 4
3.
Use a crane to lift the Con-(
I trol Unit / Battery Box assembly to the desired height along the pole. It is SPEANERS
~
V 12 V-c g
recommended that the assembly be ANGLEIRON Q
)
attached to the pole at a height that is LEGS J
accessible to service personnel, but 4
~
BRACE discourages vandalism.
CONDUlf PLATE ROOF ANGLE
- ANCHOR LAG 4.
Use the crane to hold the ASSEMBLY
%EL SCREW BOLTS Control Unit / Battery Box assembly against SEE DETAIL,,A, NT the pole. Using the four 5/8" holes in the
- 000 CR STEEL I
p(,rp0p TO 10 channel as a template, locate four hole PL ATFOR M l
ROOF F T.
locations on the pole, wig.
- \\
y 7- $
5.
Drill a 3/8" hole at each of the four locations. Drill each hole at m
=-
?
least 3-1/2" (90mm.) deep.
\\
~
6.
Attach the Control Unit /
Battery Box assembly to the pole, using g
s four user-supplied 1/2" x 5" !ag bolts.
Slide a user-supplied 1/2" flat washer SIREN CONTROL onto each bolt before threading the bolt
. o CONTROL DEVICE T
into the pole.
SEAL IF WIRING Y
' I ASSES THROUGH 7.
Mount a user-supplied
\\y WALL OR ROOF fused disconnect switch on the pole S ATTERIES (2) beneath or the opposite Control Unit /
Battery Box assembly.
k-0 Po*ER MY C.
Flat Surface Mount.
j SERVICE DISCONNECT N
watt 29001573 It may be practical to mount the siren on a flat-roofed building, 17 A01US
\\
Hg6 L
depending on the location of the speaker
/__.
array. When installing the siren on a 6"RActus\\
- \\
i flat roof, always be sure that the loud-
/
\\
i.
speakers clear parapets or other ob-structions by at least ten feet.
/
' < I s, s
E-(:
}
\\
1.
Install the speaker array on the roof, following the instructions
\\ 'a s,,g s '
supplied with the array.
,/
The Control Unit and Battery
\\
/
Box are attached to a length of 4" ANGLE TRON LEGS DETAIL"A" channel. There are five pre-drilled holes in the channel: one 1-1/4" hole ROOF ANGLE ASSEMBLY PLAN VIEW and four 5/8" holes. The 1-1/4" hole provides a convenient point for lifting the Control Unit / Battery Box assembly.
The four 5/8" holes are for attaching Figure 4-2A. Flat Surface Mount with Platform (ECWS *115).
\\
an
1 1
2.
Locate the Control Unit /
CRANE tirr Battery Box at the installation site'
- d. ] l EYEBOLT fra g:
Attach the Control Unit / Battery Box j)-
[
i r- **cricN sex assembly to the mounting surface, using I
the appropriate user-supplied hardware.
SEE DErAit f
Lt
'8 "
e roion. (f )](q=))
I
- =
.oco on.
3.
Install a user-supplied,
. srEEL fused, disconnect switch, nearreau
-I k
- f-- c $3vir 4 2. ELECTRICAL CONNECTIONS.
(iF aE0ul4ED)
I a=cMaa j
[GSCRE*5 A.
General.
f **,$,"
Install the siren electrical sys-t vEusEes tem in compliance with local electrical A
Y eeer codes and NEC. recommendations.
- s:aEN cesroot As a safety precaution to pro-
,,,, c,g
'TTL ro ce=ract sraucrunat tect both personnel and equipment, it DCv'ct E%NEER SMout0 is highly recommended that all siren
's sarrEe!Es REVIEW u0uNMG units be solidly connected to an earth 3 [ cisco wEcr wir$c$PR sEevicE R
ro iNsrattArics building, ground the system to a metal-lic object known to be grounded. For r0 Pc*Ee $0t,#ct 1-seat ir ame PASSES r*RouGM watt ce acer pole mounted installations, drive a metal rod or bar at least eight feet into l
the ground, as close as practical to the
-m l/(,
w d,[,3 base of the pole. For maximum protec-tion, use a separate.-continuous 6AWG 2f
['
'}g or larger wire from the siren frame to 562 pia
,g ~
(,
, D d+s_s.s~cLES ground and from the cabinet of each 7/s a siren unit to ground.
8/ w% j
-x M
N B.
Signal Connections.
%s y%s/se.
[
j DETAIL"A" nowso go Connect the Speaker Array to the Control Unit, following the instruc-Figure 4-28. Flat Surfxe Mount with Platform tions supplied With the array.
the assembly to a wall or other substan-C.
Power Connections, tial vertical surface. If the Speaker Array is installed on the roof of the 1.
As shipped from the building, it may be desirable to install factory, the battery charger, in the the Control Unit / Battery Box inside the Control Unit, is configured for 120Vac building, if practical.
operation. However, the battery charger power input circuitry can be easily con-Total weight of the Control figured for 240Vac operation. If it is Unit / Battery Box assembly is approxi-necessary to reconfigure the battery mately 240 lb. (109 kg.) including charger power input circuitry, proceed batteries. Therefore, make sure that as follows:
the mounting surface and mounting method selected can safely sustain the (a) Turn off the power to the weight of the assembly. In addition, control unit. The charger is located be-the mounting method used must be able hind the hinged doors of the upper en-to withstand external mechanical stress-closure. Remove the screws holding the es that may be applied to the assembly.
doors closed and remove the four screws 4J
that hold the battery charger to the
..,,,,,..,.c.,,,n,,,,,,,Jf,'co r x,,,,6; gr a
bottom of the Control Unit enclosure, a,amo coarm :=riarace cute
/
l Retain the screws.
- 5*;" g'l,',g',,cjal'g,5,
+
r.,
u-e ;g;
' ' ' " " d "
.rie. o (b) Tilt the battery charger outward 90' so that the rear of the power transformer is accessible. Slide
"=
T
- s
- the charger back into the enclosure.
glp,.,
{
s (c) Remove the jumper wires s
=r stro, between power transformer terminals 1 and 3 and between terminals 2 and 4.
" '... e s
- r mia reo, (d) Install a jumper wire be-l
.., 4,'
i tween terminals 2 and 3 on the power i
j"'"'...,
transformer. DO NOT disconnect the in-
~
(.rur s
put leads from terminals 1 and 4 of the l
l, n
power transformer.
[ll','"",..!I 4
1 re sas (e) Remount the battery
.Ii
- i) l 4444444&2l
)
charger in the Control Unit enclosure.
e' s *' _*_'.
T 1
tt e-,--
.orare, s st r3,,,,rp u
(f) Replace the SA fuse in 2' a' ooacai !
the fuseholder with a user-supplied 2.5A
.1I
;'.Q II s
3AG fuse.
!:;4 4
8" $" e
. i.,ec 2.
Route 1" conduit (steel prefer-red) between user-supplied, fused dis-1,5
- 7-connect switch and the remaining conduit id I'lI'bl'I I*I.
fitting in the bottom of the Control Unit
[8 enclosure.
] ] ] -[ jj jjjj
- !; ;l s
3.
Route two user-supplied wires
[,)", E=% n c,,. 2.'"gh, through the conduit that was just instal-i.swo.
~
led between the Control Unit and the
"~"
f""~"'%.
~~i O"
'*'5" fused disconnect switch. Use wires no P
smaller thatn 14AWG. Do NOT connect j
t the wires.
4.
Connect the power wires and 3
},,,g,- g,)4[k r
,,7g, lightening protector (see figure 4-3 and i
4-4) to the terminal strip directly in
- - - - - - +
front of the charger (bottom) panel in g.p 4-3. Contro/ Unir wiring oispram.
the interior Control Unit. Close both
^
panels, in the interior of the Control the batteries. The polarity of the Unit, and replace the screws.
battery terminals is clearly marked on the battery case.
5.
Remove the cover from the Battery Box enclosure. Remove the A fuse is mounted in back of the battery hold down bracket.
Battery Box enclosure. A length of red wire is connected to each side of the 6.
Install the batteries in the fuseholder. Each of these wires is Battery Box, making sure that the posi-equipped with a lug. The hole in one tive terminal of both batteries is toward of the lugs is larger than the hole in the the front of the enclosure. It may be other. Connect the lug having the necessary to temporarily relocate the smaller hole to the negative (rear) ter-wiring in the enclosure before installing minal of the battery on the left by remov-ing the wing nut and sliding the lug over
-- 4 -
LIGHTENING PROTECTOR CIRING DI AGRAMS 2.
If desired, a user-supplied LINE 2 remote micropNne can be connected to LINE I the SiraTone. Connect the microphone GROUND' to TB2-8, 9 and 10, as shown in figure 4-3.
BLK %
BL%
~ w HT
.-. wn i 3.
A user-supplied auxiliary audio amplifier, having an input impedance of at least 500 ohms, can also be connect-SINGLE PHASE
$!NGLE PHASE ed to TB2 in the Control Unit. Con-3 wlRE 2 wlRE nect the user-supplied amplifiers to l20/240 v 120v TB 1-5, 6, and 7, as indicated in figure NOTE: VOLTAGE BETWEEN m BLACK AND WHITE LEAD 4-3.
SHOULD NOT EXCEED 175 VOLTS AC.
Figure 44. Lightning Protector Wiring Diagrant 4.
If the SiraTone is to be land-line controlled, install one user-supplied the threaded battery terminal. Replace pushbutton switch, such as Federal the wing nut and tighten securely.
31odel SO, for each function, at the Similarly, connect the lug having the control site. If the siren control site larger hole to the positive (front) ter-is greater than 2000 feet (610m.) from minal of the battery on the right. 31ake the siren installation :nstall a SPST sure that both lugs are positioned so teiephone relay, such as the Federal that they are not short circuited to any 3!odel TRC*1020 between the two sites metal parts in the enclosure.
for each function, as indicated in figure 4-5.
In addition, a 48Vdc power supply, 7.
Four red wires and four black such as the Federal Model PS, is requir-wires enter the Battery Box enclosure ed for telephone relay operation. Tele-through the conduit at the upper left of phone relays and a power supply are the enclosure; two 10AWG and two 12AWG NOT required if the, length of the con-of each wire color. Connect the four red trol lines is less than 2000 feet ( 610m.).
wires to the positive (front) terminal of Connect each push-button directly to the battery on the left. Similarly, the appropriate terminals of TBl. as connect the four black wires to the nega-shown in figure 4-3.
tive (rear) terminal of the battery on the right.
00<2&.. 60. SacLE P Ast 1
D.
Control Connections.
44 fS s
N r0 Jp2 N S:4 ape y^,E
- a S,9,uir g 7;y
..NTROL W
" *^
l.
All control interconnecting
"'[' '
j wiring can be accessed by sliding out I
-~
t t
'E!.Ev.NE the control module, located at the upper i 1 m 7.Ln right in the Control Unit. To gain access N0'ES;
' #S #0*E' 3' * * 7E'E**3E *E *' #E '3 7 'E-to the wiring, proceed as follows:
Ot GED AaEN CW'0L UNE lS LESS ?wAN 2.000 FEE? !6:0* l.
C0%ECT PuSwS4?;9 Sair:H 014ECTLY TO !!2 iN Sl4170NE a.
Remove the screw which CONio0L uNir 4*EN C0f.T40L LAE i$ LESS SAN 2.000 FEET secures the control module.
( se,,a b.
Slide out the control module
- 2. Pus-sut*0N sac >. :A0 Etts C'.E 4EL AY A8E 90N until it stops.
CUSWER SUPDUE3, CNE OF EACH #EOPAED FOR EACH m!vcuat fost!!0N.
u n,,,
Figure 4 5. Landline Control Circuit.
All control module intercon-necting wiring is routed The use of landline control is not through a grommeted hole necessary if the optional Federal Sira-at the rear of the control, trol is incorporated into the SiraTone 45
Control Unit. J3 of the control module installed. When installing the antenna, is dedicated to this purpose. If the make sure that the a;4tenna is at least optional Siratrol is included in the siren, 3 feet (910mm) from all metal parts. On all interconnections between the Sira-pole mounted installations, attach the trol and the SiraTone are pre-wired.
antenna to the side of the pole closest However, the Siratrol antenna must be to the control transmitter.
4 P
4 g
SECTION V PRE-OPERATION CHECKOUT AND TEST
- 51. INITIAL CHECKOUT.
continuously for approximately eight seconds and rotating speaker arrays Temporarily remove the fuses from should stop rotating, the front panel fuseholder on all ampli-fier modules. Connect the electrical With an ohmmeter capable of measur-wiring, previously installed in 4-2.C.3 ing resistances of less than 10 ohms, de-to the fused disconnect switch. Apply press the push-to-test pushbutton of power to the SiraTone. Turn on the each amplifier and measure the resistance charger power switch. The pilot light at the output test points of that ampli-on the charger panel should illuminate.
fier. The resistance should be approxi-In addition, the voltmeter should indicate mately 2.7 ohms. A different reading 24 volts and the ammeter should indicate indicates a possible wiring error or some charging current. The amount of faulty driver in the speaker array. Since current indicated depends upon the the speaker circuits are comprised of battery charge level. If the pilot light two speaker drivers in parallel, if one is not illuminated, check the panel of the drivers in a circuit were to open, mounted fuse. Replace if defective.
approximately 5.4 ohms would be measur-ed.
If the fuse checks good, an elect-rical problem external to the Siratrol Rotating speaker array systems probably exists. If the pilot light is lit, have an option of either P-T-T override check all Control Unit indicators (figure of tone signals during speaker increment-5-1). Depress the PULSED STEADY ing (signal will not bg activated as speak-pushbutton. The SIG. A and SIG. B er travels to the next zone) or P-T-T indicators should flash and rotating override "on" only when P-T-T is held speaker arrays should rotate. Depress (dekeying of microphone will immediately the CANCEL pushbutton. The SIG. A sound emergency signal previously acti-and SIG. B indicators should light vated). The unit comes from the factory
)
g g
O O
O i
i O
b O
O O
O
~~~
-~
- - ~........
4
,,,,,g o
o o
. O.. "
O O
Aa
-,/; h O O O O O O U~
"* W o...n. -,
......n...,
.......n...,
o o
o O
O O
c @ i
~..
o i
o o
O
_....- o,
y o
O O
--~
-~
" - ~..........
O o
o o
o e
o o.
.O..
O
.O o
oo eo oo g
g
.n o om
,~.n.
.o.-,
....n....
o o
o o nos.no*
Figure 51. Control Unit Front Panel.
S.1
N I
with tone signal override during incre-(time out) one of the six standard signals.
menting, if P-T-T override only when This control is preset at the factory and P-T-T is held is desired, remove CR21 should not be re.Ajusted unless absolutely from control module printed circuit necessary. To mujust. proceed as follcws:
board (see figure 7-5). Replace the fuses in all amplifiers.
1.
Connect an audio range fre-quency counter to the SIG. B output.
5-2.
LEVEL ADJUSTMENT.
2.
Activate the steady signal Signal duration, frequency, fre-and then cancel it. The counter should quency cut-off, increment timing and not indicate a frequency lower than 250Hz.
microphone output level are adjustable from inside the control module. Fre-C. Signal Duration.
quency and frequency cut-off are factory set and should not be readjusted. Damage R101 adjusts the length of time a to the amplifiers may result.
signal will continue once activated. Re-To gain access to these adjustments, activation or activating another signal open the door of the Control Unit by will automatically restart the time period.
3 loosening the screws holding the door J
clamps. Remove and retain the fuses l
2l
'2, l 8,
from the front panel fuseholder on each T81 of the amplifier modules. Most adjust-OI J2 J3 J4 I
ments can be made without activating amplifiers and speakers. Remove and retain the 6-32 screw which secures the O2
- 6 control module to the Control Unit.
Slide the control module out until it R102 I
~
reaches the stops.
g3 i===
=
For location of adjustments refer R103 O4
===m o Pl9 to figure 5-2.
All adjustments involve FREQUENCY --'
setting a thumbwheel potentiometer and require no special tools.
g O$
A.
Frequency.
INCREMENT TiuE 06 R106 i R102 adjusts the frequency of out-LOCAL MICROPHONE put tone signals from the control module.
The frequency is factory set, but if re-O7 REMOTE WICR0 PHONE adjustment is necessary, proceed as follows:
SIGNAL DURATION p g, Pl6o psi 08 PI0o 1.
Connect an audio range h
p;4,,5 P1 frequency counter to the SIG. A or SIG. B output.
09 J5 Pl2P{3 2.
Activate the steady signal 1
12 and adjust the output tone signal fre-O IO quency. SIG. A should be 1020Hz and SIG. B should be 850Hz.
T82 t 2 3 4 5 6 7 8 9 10 B.
Frequency Cut-off.
O O O O O O O O O O R103 adjusts the frequency at which the output signal will terminate upon cancelling or automatically resetting figure S 2. Control Unit Adjustment Locations.
S-2
=
To rmt the time, activate the announcements. The rotator control pulsed steady signal and observe that relay is activated each time the micro-SIG. A and SIG. B indicators flash on phone push-to-talk switch is dekeyed.
the front panel. At the end of the sign-The relay is held for a period of 4 to nal cycle, both signal indicators will 18 seconds while the speaker array illuminate steadily for eight seconds.
rotates to another zone for another The steady illumination indicates that announcement.
the signal is " coasting" down. If the signal duration is too long or too short*
The number of zones for P.A adjust R101 to increase or decrease the announcement must be determined prior signal duration within the 2-5 minute to makeing this adjustment (2,3, up to ranga. Recheck adjustment by repeating 8 zones). If the speaker array rotates this procedure.
bey nd or short of the next desired zone, adjust R106 and repeat the proced-D.
Local and Remote Microphone.
ure. A series of activations will best determine the accuracy of the adjustment.
R104 and R105 adjust the P.A.
output levels for the local and remote The speaker array can be auto-microphones, respectively. The local matically " homed" and remotely activated microphone input is via the panel mounted to a desired zone by use of the Model microphone jack. In order to prevent EOWS*H/RCP option, subject to separate audio feedback, this Jack should only be instructions.
used when the Control Unit is located in a building, audibly isolated from the Slide the control module back into speaker array. The remote microphone the Control Unit and replace the screw input is via TB2 terminals.
that was previously removed. Replace all amplifier fuses.
Adjustment of the P. A. output 5-3. FINAL TESTS
- levels requires two people. An operator must be at the microphone location and a WARNING technician at the SiraTone site to perform the adjustments. Radio or telephone The output sound level of a communication between the two sites will SiraTone siren is capable of i
make the adjustment procedure easier to causing permanent hearing perform. To perform the adjustment, damage at short distances.
j proceed as follows:
Therefore, ALWAYS wear hearing protection when f
1.
Depress the microphone performing tests or main-push-to-talk switch and speak into the tenance on the siren.
microphone in a normal voice. The P. A.
If the siren is installed in an elec-IN USE indicator lamp will illuminate when trically noisy environment. one or more the push-to-talk switch is depressed.
of the siren amplifiers bias circuits may be activated. Each siren amplifier con-j 2.
Adjust R104 or R105 (local tains solid-state circuitry to reduce stand-or remote microphone inputs) to a level by current, by de-activating the bias which will begin to cause the SIG. A and current applied to the amplifier output SIG. B indicators to flicker. The flicker' stages, when signalling has stopped.
ing indicators are an indication of the The BIAS ON light emitting diode (LED) audio clipping level and should be minimal indicates when this circuit is activated.
for low distortion. If any audio inputs either by illuminating continuously or are not used, they should be adjusted illuminating erractically while no siren i
completely clockwise.
signal or PA audio is being produced.
This condition can be eliminated by re-E.
Increment Timing (rotating ducing amplifier sensitivity by slowly l
speaker arrays only).
rotating R2 (see figure 7-9) counter-clockwise until the BIAS ON LED extin-R106 adjusts the time interval for guishes. The LED extinguishes approxi-the speaker array to rotate between P. A.
mately 5 seconds after amplifier signal 5-3
detection ceases. To avoid excessive reduction of amplifier sensitivity, do Systems using rotating speaker arrays should note speaker rotation upon not rotate R2 any further than absolutely signal activation.
Speaker rotation will necessary. If R2 is rotated too far, the amplifier may not be activated by a PA halt, when the signal begins to " coast signal.
down", upon activation of the CANCEL switch. Momentarily grounding the The SIG OUTPUT LED indicates P-T-T should cause the speaker array that the amplifier output signal level is to rotate to the next zone, sufficient for siren signal operation.
If included, the optional radio If desired, all six siren signals can interface should be tested at this time, be tested at this time by momentarily Follow instructions supplied with the depressing the appropriate pushbutton radio interface.
on the control module front panel, if an optional seventh signal is installed, After the installation is complete, it can be tested by momentarily press.
and it has been established that the siren ing the AUX switch. The CANCEL is operating properly. Federal recom-switch causes all signals to " coast down" mends that the Control Unit and battery except for the optional auxiliary signal.
box be padlocked to discourage vandalism.
The optional auxiliary ceases immediately.
o l
M
SECTION VI
~
THEORY OF OPERATION a hof usto sif= E:*5 sus SPtants ameav.
Aus
[
~
\\
/
, A[0 l
$4NAL A LOCAL l Aup
/
\\
l S;GNAL 8 C
DEC00ER CONTROL LANONE CONTROL l
400VLE l ! AWR m. ___
{
~
/
\\
ns l
Eees.iis e
9 Awp
']
g l'Ili31*I W
0 0
3 Q
g i
COUNTER o
9
/
\\
_/
l I
I I
h*EqEu BATTERIES l
0 O
o 120/240 X
A 9
[j v&C PO*ER l
RO TATOR l
v aIER kl b*
I C
A' a
i I
l SPEAKER ARRAYS
{
n nosirase
=
n a c=t annar ete ccaract wie i
Figure 61. System Diagram.
- 61. GENERAL..
two-tone sequential o'r dual-tone multiple j
frequency) or momentary pushbutton i
Figure 6-1 is a diagram of the switches. The pushbutton switches can SiraTone system.
be directly connected to the SiraTone or connected via land lines. Refer to the The system is powered by two 12-control module functional block diagram volt deep cycle batteries which are main-(figure 6-2) and schematic diagram tained at full charge through a 24-volt (figure 7-4) when reading the following power supply charger.
paragraphs.
The control module is activated via RC networks C30-C36 and R76-R82 land lines (normally open contacts), or keep the signal activation inputs stable.
optional Siratrol radio control. The con-When a signal input is grounded, one of trol module supplies timing and signalling the capacitors (C30-C36) discharges and to the amplifiers as well as control output input drivers (IC17 or IC18) activate the to the rotating speaker arrays. It also control encoder (IC8). The control en-has front panel visual indicators which coder output activates the signal timer indicate signal output and P. A. in use.
(IC2) and produces a binary code. IC2 A counter indicates total number of acti-is momentarily reset before each activa-vation and cancel inputs.
tion. Each time IC2 is reset, the counter is pulse driven by Q2 and Q3. During The amplifiers provide the neces-the time of signal activation, the binary sary power to drive all of the speaker code present at the control encoder is array drivers.
fed to three AND gates of IC13, which latch the signal code as long as the 6-2. CONTROL MODULE.
signal timer remains on. Diodes CR12.
CR13, and CR14 serve as feedback in-The SiraTone can be remotely con' formation for these binary latches.
trolled by either radio (modulated with 6-1
l l
\\
i%.
~
c{c'b.
cb"i ek S
cfb chc.
,,a'c '.
SI.
I
~
~
y,w. m p
u.
m L,
5 NiiG.
4,2. ~=
a pua %st J oge,n sta:,.
["?T.'
nsa to rau
+
j m,
.;y 1 eErn.
J in f
,1 I 35 man
- 4 oca.c.e,e.c
}.y J
.c. ort.c.c c.c
,, w,..
Figure 6 2 ControlModule functional Block Diagram.
The binary code held at pins 3, 4, B.
These signals are now applied to IC9 and 10 of IC13 (referred to as control and IC10 data selectors and two AND bits 0,1 and 2) control several functions.
gates of ICIS. The second input to d
These functions include signal control these AND gates receives its input from voltage, pulse selector, 2Hz oscillator, the 2Hz oscillator andethe 2Hz compliment and signal selection. IC6 contains an via an inverter configuration at pins 2 operational amplifier ( A) which functions and 3 of IC3. Pin 3 of IC15 pulses sig-as a 2Hz oscillator for H1-LO or pulsed nal A (
- 5) and pin 11 pulses signal B l
signal timing. The other operational (i 6) alternately. These two signals are amplifier (B) serves as the control de-mixed and applied to IC9 and IC10, data vice for creating a sweeping voltage for selectors for HI-LO (alternate) signals.
wail signals. The rate at which C10 IC9 and IC10 pass one of the eight in-l charges and discharges (R16 and R15, puts to the preamplifiers, dependent respectively) is controlled by the output upon the control bits at pins 9,10 and 11.
of IC6(B). Voltage divider network R14 R18 and R19 set the level at which the Upon termination of one of the six transitions in the wail signal occur.
standard signals, the signal output from Activation of and steady signal results the data selectors will return to selecting in control bit 0 going high. Q10 turning X
signal which follows the discharge rate o
on and charging C10 steadily; indepen-of C10 through R15. At this time. IC2 dent of the IC6 output.
(555 timer) turns off. All latches are returned to zeros (IC13), C10 discharges The voltage across C10 is applied through CR20 and Q8 turns on. Q 8 is a to VCO IC3. The RC network composed source of voltage for the adjustment made of R7, R102 and C8 set an output fre-at R103. This voltage is a reference volt-quency at pin 4.
This output frequency age at pin 5 of IC14. The decaying volt-is fed to IC4 and IC5 which divides the age of C10 is buffered by operational frequency by 5 and 6.
The output at pin amplifier IC14( A) and applied to pin 6 of 2 of the integrated circuits are applied to the same IC. The output of pin 7 remains IC7. a dual J-K flip-flop, which divides low as long as the voltage in the " "
the frequencies further (by 2) and input remains higher than the "+" input.
creates a symmetrical waveform. The sig-When the voltage of C10 decreases to a nals from pin 1 and 15 of IC7 form what point which produces an output frequency is now referred to as Signal A and Signal which is lower than desired, pin 7 goes i
high and Q6 turns on discharging C10 where Q24 bypasses the base current of quickly. At this point the VCO turns Q 14. The rotator relay can also be off and the output ceases. During activated by another function via Q22.
standard signalling the base of Q7 is high, the emitter is low and the tran -
As the P-T-T circuit is activated sistor is "on".
This keeps Q6 from turn-(grounded) then returned to open, transistor Q23 turns off and then returns ing on and allows C10 to charge and dis-to the "on" state. When Q23 is off, the charge normally. When an auxiliary tone voltage across C39 is equalized via R92 is activated, the emitter of Q7 goes high and R95. As the P-T-T is de-keyed.
from the AND of IC15, pin 4 (all three control bits high) and Q7 remains off.
Q23 immediately sources the negative side of C39 to ground. The positive Now Q6 remains "on" from the high out-side momentarily goes to ground and re-put of IC14, pin 7 (operational amplifier charges through R92. This momentary B) and C10 is kept grounded. This also allows instant cutoff of standard siren ground activates IC16 (555 timer) and signals, when the auxiliary signal is increments the rotating speaker arrays.
activated without a tone module, The output of IC16, pin 3 drives the base of Q22 which energizes the rotator relay. The timing basis of IC16 is RC Tone signais from the data selectors are fed to dual amplifier IC12 for final network R93, R106 and C38. The output drive to the output pins and amplifiers.
of IC16 can also inhibit the tone signals, if CR21 is installed. CR21 provides a The outputs of IC12 (pins 2 and 13) have level detectors which half-wave voltage source to data selector and VCO rectify signals into an RC network.
inhibit lines similar to P-T-T activated Q 11.
The output of each network is applied to the input of an operational amplifier M b pd W a (IC11) which functions as a comparator.
regulator circuit which is composed of The compared input is set by a d1vider Q1, CR2 (11 volt zener diode) and associ-network which has a level of a clipped ated components. CR,1 provides reverse sine wave signal. If the signal output v ltage protection, exceeds the clipping level, the opera' tional amplifier's output goes high and Remote activation connections should be made via TB 1 or J3. Signal turns on the appropriate front panel SIG. L.E.D.
lines and relay output should be connect-ed to pins on the printed circuit board.
Both local and remote microphone inputs are capacitively coupled to two 6-3. AMPLIFIER MODULE.
single transistor pre-amplifiers, Q9 and Q 10. The bias to these pre-amplifiers Refer to amplifier module functional remains off until the P-T-T circuit is block diagram (figure 6-3) and schematic diagram (figure 7-8) when reading the l
grounded. When the P-T-T input is following paragraphs.
grounded, Q11 turns on and supplies l
bias to the microphone pre-amplifiers.
A.
Amplifier Stages.
)
Q11 also activates the inhibit lines of data selectors IC9, IC10 and VCO IC3.
l IC1 amplifies the input signal to a It also stops the 2Hz oscillator. This condition provides stable, undistorted power level necessary and applies it to the primary of transformer T1. The out-transmission of audio to the same signal pre-amplifiers (IC12) as used by the put of ICI is coupled through C9 and tone signals.
damping resistor R6 to the T1 primary.
T1 provides a large voltage gain and a Pins 18 and 19 provide a connection paraphase input to the push pull ampli-fier stages. Driver transistors Q3 and point far the rotator relay, used in Con-trol Units for rotating speaker arrays.
Q4 and output transistors Q5 and Q6 The relay is activated by either Q14 or provide the necessary current and power Q 22. The collector of Q14 goes to ground gain, coupled through transformer T2, when the signal timer (IC2. pin 3) is high.
to drive the =peaker.
It can be turned off by a P-T-T activation 6-3
- PRE. AMP ORIVER & --*
CURRENT AMR d PUSH.TO. TEST TEST POINTS,,,,, /
Tl ICI T2,03,04,05,06 INPUT VOLTAGE AMPLIFIER 8 POWER OUT SIGNAL SPEAKERS \\
n o
o THI, Rii,R12,01,CR5, CRl3 CR6 BIAS NETWORK FULL WAVE RECTIFIER
! BIAS ACTIVATION CIRCUlTRY-..................................................!
1 I
IC38 IC2A ICP8 CR2,C6,R7, m
02 OUTPUT LEVEL IC3A W
COMPARATOR HALF. WAVE THRESH 0LO RECTIFIER COMPARATOR TIME g
g DELAY CRl2 A
q CRn Qtj I
BIAS 7
f
' 8 80R ON isa4/785 0UTPUT
-..........................___j g
Figure 6-1 Amplifier Module Functional Block Diagram.
The network consisting of TH1, R11, 6 4. POWER SUPPLY.
R12, CR5, CR6 and Q1 is a biasing cir-cuit which prevents any " crossover The power supply consists of two notch" by slightly turning on the driver series connected deep cycle batteries and and output transistors.
a charger. The output of the power supply is diode protected to prevent B.
Bias Activation Circuitry.
reverse current to the charger, when system power is off and the batteries a
Input signals are applied to IC2A.
are connected.
g IC2A along with CR3 form a precision half-wave rectifier. Since the rectifier Servicing the power supply should exhibits no breakover characteristic, be limited to replacing the complete small amplitude signals pass through, charger. The power supply is adjusted The rectified input signal is applied to at the factory to properly charge and threshold comparator IC3A which deter-supply voltage to the batteries and the mines if the input is greater than the system. Should re-adjustment be nec-reference level set by R2. When the essary, proceed as follows:
input signal exceeds the reference level, IC3A pin 1 goes high and immediately A.
Turn off power to the Control charges C6 through CR6.
U nit.
CR2, C6, R7 and IC3B form a B.
Open the battery box cover and bias turn-off delay circuit. The dis.
charger door of the Control Unit.
charge time constant set by C6 and R'.'
determines how long pin 5 of comparato..
C.
Disconnect the fused link IC3B remains greater than the referenct between the batteries.
level. Consequently, C6 and R7 deter-mine how long IC3B pin 7 is high and D.
Connect the negative lead of the bias circuitry is active.
a voltmeter to the battery post with the l
black wires and the positive lead to the l
C.
Signal Output Indicator, battery post with the red wires. Turn
[
on power to the Control Unit. Set the IC2B compares a full-wave rectified VOLTAGE ADJUSTMENT control (see sample of the output to a reference level figure 6-4) for 27.8Vdc.
set by R18 and R19. As long as the output sample's amplitude is greater E.
Disconnect voltmeter. Reconnect than the reference, IC2B pin 7 is high the fused link. Adjust the CURRENT and CR11 is energized. CR13, a full-LIMIT control (see figure 6-4) for a read-wave bridge rectifier, is employed to ing of 6 amperes on the front panel meter.
isolate the speaker leads from the chassis. NOTE: If the batteries are at full charge,
rm rm f1 rm 9
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I mmy Figure 6-4. Power Supply Adiustment Locations.
this adjustment cannot be made unless 6 6. MODEL EOWS*115 AND EOWS*1212 the batteries are discharged enough to SPEAKER ARRAYS.
l "9"
"I*
Both of these speaker arrays con-F.
Replace the battery box cover tain the necessary drivers and speaker and charger door.
projectors for producing the omnidirec-tional dual-tone siren sounds. Speakers are mounted on a series of six individual 6-5. RADIO RECEIVER / DECODER.
panels. Each panel has two speakers and two drivers parallel connected to an 1
The SiraTone can be remotely con-ampliSer in the Control Unit. Signal trolled by a radio signal modulated with lines are connected to the speakers in a two-tone sequence or a dual-tone such a manner that aBjacent speaker multiple frequency coded signal (DTalF).
panels receive a different signal (Ex-ample: Panel B receives an ampilSed When radio control is used, a user-signal B and panels A and C receive am-supplied tone encoder and radio trans-pliSed Signal A). A wiring diagram can mitter are located at the system control be found in Section VII.
site. The purpose of the tone encoder is to generate the tone sequences for 6-7. MODEL EOWS*612 SPEAKER ARRAY.
controlling siren signals and functions.
l Each siren signal and function is assigned The Model EOWS*612 uses six pro-a distinct and separate tone sequence.
jectors to becedcast the audible siren l
The tone encoder is connected directly to sounds. Each speaker uses two drivers.
the radio transmitter.
Dual-tone signals are connected in such a manner that signal A is applied to the A siren signal or function is initiated right half of the speaker array and signal when the appropriate tone encoder control B is applied to the left half. Each signal I
(s) is (are) operated. When the Siratrol nd rotator power circuit is coupled receiver at a given SiraTone site receives through a slip ring and quad brush assem-the tone-modulated radio frequency signal, bly which provides continuous stall-free the decoder in the receiver decodes the speaker rotation. The speaker array tones. The decoded tones then produce r tates when 12 or 24 volts de from the the signal necessary to activate the appro-Control Unit is applied to the rotator
~
m tor. The rotator motor is belt coupled priate timer control circuitry.
to the gear box which provides the nec-Refer to the Service 51anual supplied essary gear reduction to rotate the speak-with each Siratrol for a complete theory er arr y.
A wiring diagram can be found in Se tion Vll.
of operath.
65
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1 J
4
SECTION Vil MAINTENANCE 7-1. GENERAL.
1.
Remove and retain the fuse from the appropriate amplifier, Federal Electronic Outdoor Warning Sirens are designed to require a mini-2.
Set an ohmmeter to its lowest mum of maintenance. However, if c resistance range, and connect the ohm-siren failure does occur, Federal will meter to the output test points, provide technical assistance with prob-lems that cannot be handled locally. A 3.
Depress the PUSH-TO-TEST list of all Federal Authorized Service button and observe the de resistance Centers is available from the Service of the speakers. Normal de resistance of Department. If assistance is needed, a speaker pair is approximately 2.7 ohms.
contact:
A de resistance measurement of less than 2.5 ohms indicates that one or both of Service Department the speakers is probably shorted. A Federal Signal Corporation reading of approximately 5.4 ohms indi-2645 Federal Signal Drive cates that one of the speakers in the University Park, IL 60466 pair is open; a reading of infinity indi-cates that both speakers are open.
It is recommended that the siren be tested for proper operation at least 4.
If a resistance is abnormal, once a month. However, a daily test of perform resistance checks on each speak-the siren at noon curfew, or other select-er individually at the Speaker Array.
ed time, provides a more reliable test of system readiness.
In addition, the If desired, an oscilloscope or daily test enhances the usefulness of digital multimeter (D51SI) can also be the siren and instills public confidence connected to the amplifier module test in the reliability of the warning system.
points to observe amplifier output. NOTE:
DO NOT press PUSH-TO-TEST button.
It is recommended that a mainten-However, do NOT connect a speaker ance check be conducted within 30 days across the test points because damage to of siren installation. Thereafter, it is the amplifier module could result.
recommended that the maintenance checks be performed at least once a year. The WARNING following paragraphs describe the main-tenance checks for the SiraTone system.
The output sound level of a SiraTone siren is capable of 7-2. CONTROL UNIT.
causing permanent hearing damage at short distances.
A.
Amplifier Output.
Therefore, ALWAYS wear hearing protection when Each pair of speakers in the performing tests or mainten-Speaker Array is driven by a power ance on the siren, amplifier in *.he Lantrol Unit. Each amplifier module an-t its associated B.
Signal Operation Check.
speaker pair is desigaated A, B, C, D, E, or F.
Each amplifier has test points 1.
Remove and retain fuses for testing the resistance of its associated fr m all amplifiers.
speaker pair.
2.
Activate each of the signals and observe the signal indicators on the con-To measure the resistance of a trol module. Observe counter opera-given speaker pair, proceed as follows:
tion.
71
3.
Insert one of the previouslY B.
removed amplifier fuses. Depress the Rotating Speaker Arrays Model EOWS *612.
PUSH-TO-TEST pushbutton of the fused amplifier. Activate a signal and observe that SIG. OUTPUT and BIAS ON indicat-Check rotator unit as follows:
ors illuminate, indicating amplifier oper-ation. Cancel the signal and allow the 1.
Remove the Speaker Array signal to coast down and shut off. Re-upper panel.
lease the PUSH-TO-TEST pushbutton and remove the fuse. Test the remain-2.
Check brush alignment to ing amplifiers in the same manner.
insure that complete contact is made to the collector rings. Insure that the 4.
Replace all amplifier fuses.
fastening bolts for the collector ring C.
Check the batteries. The volt-age of a fully charged set of batteries 3.
Check brush springs for should be approximately 28Vdc. and normal tens.on. The brushes should charge current should be less than one move freely in the assembly.
ampere.
4.
Clean any contaminents Each battery is equipped with or dirt from the collector rings. The a built-in hydrometer. Whe,n the hydro' four brushes can sufficiently maintain i
meter " eye" is green, the battery is charged. If the " eye" is dark, the clean collector ring contact with regular j
system testing, battery needs chcrging. If the " eye" is light in color, the battery is low on 5.
Check pulley set screws fluid and should be inspected for leaks.
and belt tension. The belt should be relatively loose. Pinching the belt Check the battery terminals between the pulleys should draw it to for corrosion. Clean connectors and within approximately one-inch of touch-terminals, if necessary.
ing.
D.
Check rotator incrementation (EOWS*612 Speaker Array only). Acti-6.
Check to ensure that the vate the P-T-T circuit by momentarily gear reducer and bearing housing shorting the P-T-T to gmund. The Spea-m unting bolts are secure, ker array should rotate to the next spea-N'# ""*
- 7.
Observe the gear case for any leaks, especially around the high speed shaft. Check oil level by remov-7 3. SPEAKER ARRAYS.
ing oil level plug (upper plug on gear NOTE ease). If oil level is low, replace with Sleropa #2 or equivalent.
Remove the control module fuse prior to checking the 8.
The motor has permanently Speaker Array. This pre-lubricated sealed bearings. Remove the caution will prevent any brush cap protector and examine the signal from sounding or brush and spring assen.bly.
the speaker arrays from 9.
Check the idler bearings at the lower portion of the speaker array.
A.
All Speaker Arrays.
The rollers should be adjusted so that the maximum clearance of any free rollers 1.
Examine Speaker Array to the pole is approximately 1/32 inch.
mounting for loose bolts or weak sup-Free rollers should spin freely. Lubricate
- ports, if necessary.
2.
Examine cable and termina-tions for frayed insulation or corrosion.
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o E2@72@MO@ @@VD@@@ WARM 0M@ $0222 PPL 0183 PAR 13 LIST OCTOBER 19e4 ltasa Desertption Part No.
Qty No.
1 BracktJppghllupport 954930_22 1
t 2
Cabtnet uBla tery,.18" t le" x 12" 170C221 1
I J
Shelf._ Battery
$549C014 1
1 4
Screw.. Pan Hd.._ Pht. A. 8-32 7000A 404-06 22 i
5 Nut. Hex. Ext. Keps. Stt.
9-32 7058AUJ2 27 i
6 Battery _.12V. _Delco 1059 ( s_eperate ca rtoa )
155A120 2
7 Terminal. Battery Post. To 5e16 th) 233A143 2
8 Torintnal Battery Post. To 3/ 8 ( poe. p 233A143-01 2
i i
9 Bracket. Battery _,, Hold Down 95498047 1
10 Holder. Fuse 143A115 1
11 Fuse. 70 Amp._ Tron JJN70A 149Xi'37 1
7 12 Screw. Pan Hd.. Pht.. Stt.
8-32 7000A408-07 6
1 13 Bolt. Hex Hd.. S57/ 8-16 7002A009-16 8
i 14 Nut. Hex._3, I-W 7059A063 12 15 lockwasher. Spg.g.,3/8 Ser.
7074A046 15 t
16 Screw. Hex Md.. S.3_.j 4-20 7000A311-16 4
r 1 17 Nut. h. Dbl. Chm f.. )_S,__1, 4-20 7059A020 4
i L _16 tockwasher, fptg._SL.p 4 Ser.
7074A 016 4
19 Conduit. 7htowall. Steel.1" x 5' [4 R007-03-03 1
20 Adhesive. R W 1504. Sil. Rubber. 3 or, p_kg.
R70-04-01 2
7 21 Protector.yghang 2sdA256 1
22 Connector. Jhtowall.1" 9287A200 3
i 23 tockwasher. Scaling.1" 1065A033 3
24 Washer. Flat.R. O. 406 CD t 1" OD 0.063 7072A035 2
25 lacknut. Steet._1 2
7065A021 1
26 Screw, Paa Hd,, Pht.,&. e-32 7000A406-06 13 27 Hinge _, Charger Door s549A027 1
28 Htogo_, Radio Door 9549A026 1
29 Panet. gla_rger 5549 9040 1
i 30 Meter 30 Amp 2$$B253 1
r 31 5fe'er. 30 Volt 286B252 L
1 32 Panet. Radio 95498023 1
! 33 Bracket. Panet. ftop Assemely_
95499031 1
34 Btvet. Alm.. P_op.. Pan Hd.._le s : 15,44 7099A103-15 5
35 Counte r
- 2 93 B972-02 **
1 5
36 Fuse Mounting 143 A104 1
1 37 Trsek.lg.t,ay 299 8229-02 1
a i 38 socnet. Octal, e Ptn 139A131 1
i 39 (2 bet ! A-B C-D. E - F. * -. JAlmp JJg,120VA C 161A3ng 1
i 5
40 Cabinet. Control 170D223 1
i 41 A mph fie r A s se m bly,. E OW S *C/ B 200D116 6 AR I Ampittler Assemoly_. EOWS*C/B-4 2000616 4AR i 42 Control Assembly _. EOWS
- 45490051 1
43 Bolt. Hex Hd..g } 9-16 t 1-1 4 7002Auc9-20 4
' 44 Switch. J,gggle,. SPDT 122A143 1
1 45 Lug _ Solder. _Mgip_Dody 147A102-01 1
46 1.aos. White 14
- A102-02 1
a 47 1 Amp,. Neon 14 7 A102-03 1
! 48 Holder, fuse. 34002 143 A106 1
- 49 Fuse. 5 Ampf,. 3_A g.
149A139 1
50 Drscket. Cabinet 5founetag 5549B034 2
51 screw. Paa Hd..lhi. Thd. F rm.. Ji,. No. 9 7011A101-12 2
52 Wa sher f.,}.a. t. Neopreme. 0. 204 ID t 1,2 O D t 0.125 7072A07n J
2 53 toexwa sher._5p13. Ex. Dtyn, No. 9 br.
707 4 A 007 4
54 Nut. Wire ( on item 21 )
s297A165 3
55 Charger Assembly. EOWS
- 2??B316 1
56 Diode. 364AR 115A311 1
57 M ounting M.. Dime 124A033 1
58 Screw, He.x Hd.
3,_1/4-20 7000A311-36 3
_ _ 59 Board, Terminal s442A032 1
1 60 Penet Assembly 95490053 1
61 Bracket. Cabinet Mouettog s5498035 J
'_ 62 Kit. Adaptg. hight _,(
tactades )
124A020 1 AR j 62a CHF Adapt _eg,. Might W/2 3 $ Hex Nuts 139A137-01 1
- > 2 b teckwasher. Int. Tth.,_5 / 5 k r.
7075A034 2
62e Washer. Flat. 5 9 Ser.
7072A039 1
e 62d Gasuet. Etopreine.J e ID = 1" OD x 1/16 a351 A012 1
[ Not shown Rotator ftelay 1J1 A 137 1
Manual. InstallitI"wi and Servies 253A165 1 AR 3 Wire $et. EOsIS*
310A621 1
g DO NOT ORDER PART3 BY IITM N1lMBER.
Give model voltage, description, and part number.
Refer to PART3 PR!CE 1.!ST i Part No.1001 ) for prices of parts.
Fede ral Signal Corporation Signal Division 2645 Feders! Signal Drive Printed in U.S. A.
t.'niversity Park. Ottoote 60466 fR
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4046 (IC3)
LM555(Ic2,aI6) i 16 15 l 14 1 13 1 12 1 til 10l 91 8
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'II
PARTS LIST EOWS AMPLIFIER MODULE ASSEMBLY S:.nematic Schematic S ymbol Description Part No.
S ymbol Description Part No.
- RESISTORS SE511 CON DUCTORS R1 330K Ohm 100A212 Q1 Transistor. PNP. TIS 93 1258 133 R2 250K Ohm Potentiometer 105A253 Q2 Transistor. NPN. T1592 125B 132 R3.19 10K Ohm 100A207 Q3.4 Transistor. PNP. 2N6109 125B 431 R4 1K Ohm 100A 233 Q 5. 6 Transistor. NPN.2N5886 125A 433 R$
33K Ohm 100A211 CR 1. 2,3 Diode. TIS 5 115B 101 R6 2.2K Ohm 100A221 4.5.6.9 R7 680K Ohm 20%
100A252 C R 7. 8 Diode. CL1 (ED3002S) 115B301 R8 100 Ohm 100A236 CR10 Diode. Rectifier. 368AR 115A311 R 9.12 12 Ohm.5%
100A782 LED 1.2 Pilot Light. LED. Red 147A 112-01 RIO 3.9K Ohm 100A273 CR13 Rectifier. Bridge 115A602 R11 27 Ohm. 5%
100A290 IC1 Integrated Circuit.LM384 128A 046A-01 R 13.18. 23 100K Ohm 100A222 IC 2. 3 Integrated Circuit.Lal358 128A 045 R14 22K Ohm 100A 208 R15.16 390 Ohm 100A283 MISCELLANEOUS R17 1 Megohm 100A 215 R20.21 1.2K Ohm 100A295 T1 Transformer. Driver 120B 145 i
g R22 680 Ohm. 2 watt. WW 103A117 T2 Transformer. Output 120B 159 J
J1.2 Connector. Wafer 140A 170
'Unless otherwise specified.
F1 Fuse,15 ampere. 3AG 148A 107 all resistors are fixed com-S1 Switch. Pushbutton 122A 201 position.10% 1/4 watt.
RT1 Thermistor. 200 Ohm 104A111 Heat Sink (Q3.Q4) 236A 110 CAPACITORS Insulator (Q 5.Q6) 235A124 Spacer. Plastic (Q 5.Q6) 230A 151 C1 0.47UF. 50 V. Mylar 107A418 Socket. Transistor (Q 5.Q 6) 138A 125 C2 100PF.100V Disc 107A 235 Jack. Banana. Red 142A 116A -01 m
C3 2.2UF 20V Tantalum 107A636 Jack. Banana. Black 142A 116A-02 C4 0.01UF. 50V Disc 107A213 Fuseholder.-
143A 106 C5 100UF. SOV. Electrolytic 108A 214 Circuit Board (without 130A 272B C6 1.5UF. 35V. Tantalum 107A616 parts)
C7 0.47UF. 35V. Tantalum 107A645 Circuit Board (with parts) 200D801 C8 4400F. 50V. Electrolytic 108A 204 Front Panel 8549C041 C9 1000F 25V. Electrolytic 108A133 Amplifier Assembly 200D816 C 10.11,13 0.001UF, 500V, Disc 107A263 C 12 0.1UF 200V, Mylar 107A 406 C14.15 0.005UF,100V Disc 107A211 sulp
7....
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SPEAKER SPEAKER i
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E 2908/789 8 6........................................................... I Figure 7-10. Model EOWS *115 Wiring Diagram.
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1 MS,2@li'R@MO@ @QTO'@@@@ WARMOM@ $00282 PPL 0180 OCTOBER 1984 PART3 IJST Item Description Part No.
Qty.
No.
1 Plate Base Assembly 8549B012 1
2 Fatme, Suppoa, Welded Assembly 85498010 1
3 Driver,100 Watt,3y 8287B321 12 4
Nameplate, Cone 8146A282-01 12 5
Projector Atlas CJ-46 132B133 12 6
Screw,_1/4-20, Hex Md.
7000A311-14 118 7
I4ckwasher,_Spg _1/4 Ser.
7074A016 118 8
Panet Assembly _,_ Speaker Mtg.
8549B029 6
9 Cover Top Assembly 9549B005 1
10 Frsmo Suppgo, Welded Assemb_ly 8549 B010-01 1
11 Bracket. Holsting,, Welded Assembly 8549A00A 1
12 Screw 1/2-13, Hex Md.
7000A320-20 2
13 Lockwasher,_Spig,_1/2 Scr.
7074A025 3
14 Plate, Cover 8549B007 1
15 Bolt, Eye,_1/2-13 7003A003 1
16 Washer. Flat, Stl.,,1/2 ID x 1-3/4 OD x 1/1) 7072A095 1
17 Washer,. Flat Rbr.. 9/16 ID
- 1-J/4 OD x 1/8 7072A038 1
18 Gasket Qapplied with p_rojector, item 5 )
19 Wireset, Speaker Array, EOWS' 310A816 1
20 Clamp, Thinwall Conduit 1/2 150A129 2
21 Bolt Hex Hd.
3e 8_-1_6 x 1-1/4 7002A009-20 6
22 Lockwashtt,Spl1_3/8 Scr.
7074A046 6
23 Nut. Hex,_3/8-16 7059A063 6
Not Shown Brucket, Pole Mtg. Assembly 9549A170 3
Bracket. Brsee, Pole Mtg.
8451C037 '
I t
DO NOT ORDER PARI 3 BY ITEM NUMBER.
Give model, voltage, description and part number.
Refer to PARIS PRICE LIST ( Part No.1001 ) for prices of parts.
Federal Signal Corporattoo Signal Division 2645 Federal Signal Drive Printed in U.S. A.
(lniversity Park, Hlinois 60466 7 15
18
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ELE @fR@MO@ @UTD@@R MANON@ $0RH PPL 0190
( CTOBER 1984 PARD LIBT 18se Description Part No.
Qty.
No.
1
? late. Baan Assembly 8549mnis 1
2 har, Sput,,._1/4" Scr.. S. S.
7074A018 48 3
../4-20 g 7/,8,,,lgL_. Hem Md.. S. S.
7000A311-14 2a 4
Frama._Qpppqgl. Welded Assembly ( bama) SS49Rolo 1
814s = '2 1
5 M ( lodicates penal " A " )
6 Nangppjglg,,, TOWS
- 1212 alamAama.og 1
7 1/1-19,,,3.,,7/16 Scr.. Maa Edt. S.S.
700aAsti-07 la 8
Braos.,Spqgggg,, M'"'-
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9 P-- ' Assembly,. Euwe
- 1212 8549R1"4 8
10 Driver.100 Watt.,fs, gay 8287 B331 12 11 Pgpjector and Cons. Machland Assembly 8549c081 12
_J 02lDplete with screen, lastel, and harhare )
Screes ( fEreplacement oaty,)
8549C060 AR 1:;
Cover.h, Weldad Assembly ( top )
Top Assembly 8549B006 1
1
.Pramm.
8549A0 W I 1
l' Brsoket.Ji21gting.. M Assembly,
8549801 kO1 1
1 mkwasher. Sle 1/2" Ser. 7074A0; L 2 _2 L/2 13 x 1-1/4 Scr... Max Nd., Castot Indt. 7000A3; H-20 2 J Pla r 8549B0W 1 ,8 1/2 3 /4,jlolt.,,Ey3 Pitd. 7003A003 1
- ,9 Washer Flat._1/3 ID x 1-3/4 OD x 1/16 7072A095 1
20 W __asjig,t.113,1. Rubber 7072A034 1 9/16 ID x 1-3/4 OD x 1/8 2. Wireset,%peaker Array,. EOWS
- 1212 S
310A816 1 Clamp,. wall.,1/f" Cor.dult 150A129 2 2: ; 2; Nut 333,. 8-18. S. S. 7059A003 6 24 tookwasher. gpb 3 /8" Ser.. S.S. 7074A046 6 25 3/8-16 x 1-1/4 Bolt. Hex. S.S. 7002A009-20 6 Net Showo _,dpgle Assembly,. Roof Jgyptian Grsy 9540C017-03 1 Plate. Brace. Egyptian Gray 9541C037-02 1 Bracket. Pole Mtg.,,,. Welding Assembly e549A170 3 Accessory Kit. Mtg. Hardware e549A055 1 DO NOT ORDER PARD BY ITEM NUitBER. Give model, voltage, description. and part number. Refer to PARD PRICE LIST ( Part No.1001 ) for prices of parts. Federal Signal Corporation Signal Division 2645 Federal Signal Drive Printed in U.S. A. University Park. !!!!nois 60466 7 17
f..................................,..................,.................,..............................,.., SPEAKER i SPEAKER SPEAKER l SPEAKER j SPEAKER SPEAKER l MNEL l PANEL l PANEL PANEL l PANEL PANEL l j A j B C j D l C F l l l l t l 02 'O I 02 'O l 02 'O l 02 'O 02 'O l 02 'O ! com com com com com coo l 10 1U j* 'u l * 'U 8U iU i UPPER DRIVER f UPPER DRIVER UPPER ORivtR UPPER ORivER UPPER ORivER l UPPER ORivER o = a = w a .o = o = = o, .o = = = o a a a a = = l = m a l = = = l 3 02 'O 02 'O ' j 02 'O l 02 'O l 02 'O 0 'O 2 l cOs com com com cos cos l IU 80 l 'O l IU .! m 10 iU m .m m m m LOWER DRIVER lower OPivER l C*LP CRivCR ' /LO*ER ORivER { L0wER ORivtR LO*ER ORINER j $PEARER l $PEAKER $PEAKER $PEAx[R $PEAAER I SPE ANER l 6 CIRCulf 5 CIRCulf $ j CIRCulf e* C;RCulf 5 CIRCUIT 5 l CIRCulf Y e l = A 2 a e l c 3 = n = s O c l E 2 r 8 3 3 o g \\ t)i i) ."k =) e i .)m .)g J r-, t. V v. p u..l...........>.................J................ '.................s,.................s,..................)- m 4 NOTE: DECAL, ON FRONT FACE,INOICATES PANEL ~ A"- SPEAKER PANEL ARRANGEMENT 3 B J ................................~.......................l C ^ i CONTROL U8 TIT
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4 SPEAKER ARRAY l l REAR VIEW l l BLE O 8LK 8tn f gt,
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0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (g 5 2 "* i
- a d
e t e c = o 2 o. l i i s i e r a r_.a s s a i i 1 J JUNCTION 80X y x f SPE ANER C RCulf A B C D E F Me L0 MI LO Mr LO HI L0 MI LO Mi L0 l } IO O O OI IO O O OIIO O O OI .i = a 5 a E j s x ~ a o a a o m I e i E 8 5 g Y 5 i w l' wMf/8E0 RE0 = TO RCfATOR RELAY wMf/0R9 8tr ( L...............................................70 8AffERft-l ....) 2908/898 Figure 714. delf0WS *612} iring Diagram. 7 19
'8 4 s =c N PARTS INDEX %[ d MODEL n x h (h
- l@N$N@88 h
au DETAIL *A' OETAIL' B ' DETAIL"C" 46 45 44 ,-SEE DETAIL" C " / n fm \\/; ./ l ~ ~ ' ~ ~ /,/ / Ae -4e 33 34 35 -- "{ f I SEE DETAll' B' s@ 27 / ( f)i[m4 y@ ^ ) . 2, 23 ( a a y.<,si ~ 43 ,N @w '-^[ L SEE DETt'L'A' l I2 /ID ['@@$f / [ N [ \\ -n tsociaos Nd![h 5 F02rr 115. Model E0WR$12 CMt).ocation Diagram.
212@?@@M0@ @@fD@@R WADMDM 20MR PPL 0191 W X OCTOBER 1944 m 2 PARTS 1.!BT e W 'JE Items Descriptica Part No.
- Qty, No.
1 Wire Set._Spkr. Cable EOWS*012 310A870 1 2 C ^^or. Cord Grty 1" 140 A198 1 3 Lookaut. Seating.. 1" 7065 A033 2 4 Screw.10-32. Rd. tid.,. Slt. 7003A068-08 4 5 Junction Box Assemb_ty,. ECWS' 170 B239 1 6 Termia'l.16 Pos. 229A120 1 7 Lug,._6_,$pade Crimp Term. 224A117 14 8 Con <. Flexible._Mquatite. 3' 14 R 92-10-04 1 9 Ptpe Snee. EOWS*612 8549C167 1 10 Coen pctor.M..Mquid-Tight 8549A108 2 11 Pane.. Bottom 14ft Assembly EOWS* 9549C163 1 12 Pane. Bottom Hight Assembly _ EOWS' e549C163-01 1 13 Plate. Roller Adiust 8549 B074 2 14 Screw. Shld.._3/ 8-16. Allen Hd. 7017A028-28 4 15 Roller g549A076 4 16 Wa sher. Fit..X. _0. 406 [D
- 1. 0 OD x 0. 063 7072A035 12 17 Nut. Esna. Het. 3 /8-16 70$eA012 12 18 Rott. Hex Hd..R._3 / 8-16 x 1-1/_4 7002A009-20 8
19 Washer. Ftt. 6tt.. A344 ID x 7/8 OD
- 0.125 7072A032 6
20 Screw. Hex Hd..,fS._)/4-20 7000A311-07 75 21 Wa sne r. h.,jS,. 0. 266 (D x 11/16 OD x 0. 063 7072A024 93 22 Lockwasher._Spl_iL.1S_.1/4 Ser. 7074A016 93 23 Screw.._ Hex Hd.. Slt. 5/16-18 7000A319-12 12 24 Nut. Hex. Dbt Chm..,jj, J/16-18 7057A027 12 l 25 B ra cket D rive r 9549A148 12 l 26 bracket. Dust Driver 9549A149 6 i 27 Serew. Hex Hd,._{j, 1/4-20 7000A311-16 18 i 28 Nut.Jfg,.10-32 705 9A 020 18 1 29 Drtvej,.100 Watt _Qgy 8287 B321 12 i 30 Coupler,. Driver 9542A108 6 l 31 Nut._fa.,m.jigg._L-)/8-18 8542A167 6 i 32 Washer. Fiber 6263 A451 36 33 8e rew._, Cap _. Hex Hd..} 2-l'1 7002A011-28 4 34 Locuwa she r. _Spili,. J / 2 7074A025 to 35 Nut. Jigi. Cad. Pit..J/J-13 7059A077 10 36 Sc rew,,,Eap,. Hex H d _3 / 8-16 7002A007 '8 3 37 14ekwasher _ Split._3/ 8 7074A023 3 t 38 Plate. Mounting,.hator 5549 8153 1 39 Screw. lap, Hex.J 'J-13
- 002A016-24 4
40 Rotator Meehanism 9549C147 1 41 Bolt._ Eye._1,2-13 7003A007 2 1 42 Wa sher. Flat.J,3. / 8 OD s 0.562 ID 7072A115 4 43 Washer. Flat.Abber. 9/16 x 1 3/4 x 1/9 7072A038 2 44 Frarne. A,ggle_. EOWS *612 e549D164 1 45 Pace. Bacu. Aesembly 95498161 3 46 Pane._Ipp e549C155 1 47 Pane. $lde. As8em0ty ~5498162 2 48 Deca.. St ren 2 1146 8062 2 r 49 wa she r. Flat.g. 0. 203
- 7/16 x 0. 032 N72A015 24 i
50 Merew. Rd. Hd.. Slt. 10-32 7000 A 070-08 24 i 51 Lockwa sher.jpljt,.,1],. *10 Ser. 7074 A010 24 52 Not. M.10-J2 7059A016 24 1 53 s reen. 7e c Proieetor e549C060 6 54 Namepla t FS. _Fjat 9146 A 767 6 55 Rivet Nut.J042 s 1/2 7065 A000 6 56 Serow Rd Hd. Slt.,51 10-32
- 000A 070-16 6
57 Pro}ector and Cone. Machtoed 95438176 6 58 Panel. F ront. t.2*ef. Assembly 9549C165 1 r 59 Nameplate. EOWi*612 4146 A 829-07 1 60 Brace,Tpeaker 9549A151 4 6l, Brsee,_Speake r. lo rizontal a549A130 4 i 63 Flange, Eide Pine. =5498143 4 63 Paeol_. Side.,1,pp Assembly 9549B162-01 2 64 Panet. F ront.,,1*pper Assembly 6549C160-01 1 65 Sigo_,.3geMquipment Sta rts Automattently e297A396 1 Not Shown Bracket._ Pole M!g._. Welding Assembly 9549AMO 4 Accessory Kit >tountingJJ.ardwa re 9549A093 Accesso rygt,. _ EOW 4
- 409 /812
- 549AD2 Wire Set. Drivers EOWS*612 310A905 DO NOT ORDER PARD BY iTE51 N1'51BER.
Give model, voltage, description, and part number. Refer to PARM PRICE LIST ( Part No.1001 ) for prices of parts. Federal Signal Corporation Signal Division 2645 Federst Signal Drive Prtated in tt.S. A. L'niversity Park. !!!! nots 60466 M - -}}