EST 270219 R1 User manual
Amplifier Terminal Panel
Cabinet (ATPC)
Installation Manual
P/N 270219
Revised 14JUL97
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DEVELOPED BY Edwards Systems Technology
6411 Parkland Drive
Sarasota, FL 34243
(941) 739-4300
COPYRIGHT NOTICE Copyright © 1997 Edwards Systems Technology, Inc.
This manual and the products it describes are copyrighted by
Edwards Systems Technology, Inc. (EST). You may not reproduce,
translate, transcribe, or transmit any part of this manual without
express, written permission from EST.
This manual contains proprietary information intended for distribution
to authorized persons or companies for the sole purpose of
conducting business with Edwards Systems Technology, Inc. If you
distribute any information contained in this manual to unauthorized
persons, you have violated all distributor agreements and we may
take legal action.
CREDITS This manual was designed and written by the EST Technical
Services - Documentation Department, Sarasota.
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ATPC Manual i
Content
ATPC Amplifier Terminal Panel Cabinet 1
ATPC Components 1
Dukane Amplifier 1
Wiring the Dukane Amplifier 4
Amplifier Terminal Panel (ATP) 4
ATP External Battery Charger 7
ATP External Battery Charger Wiring Diagram 8
Amplifier Backup 8
ATPC Troubleshooting 11
Amplifier Installation Application Drawings 12
Single-Channel, 180 Watts Active, 180 Watts Back-Up 12
Single-Channel, 360 Watts Active, 180 Watts Back-Up 13
Single-Channel, 540 Watts Active, 180 Watts Back-Up 14
Single-Channel, 720 Watts Active, 180 Watts Back-Up 15
Dual-Channel 360 Watts Active (180 Watts Per Channel), 180
Watts Back-Up 16
Dual-Channel 720 Watts Active (360 Watts Per Channel), 180
Watts Back-Up 16
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ii ATPC Manual
Important information
Limitation of liability
The content of this manual is proprietary in nature and is intended
solely for distribution to authorized persons, companies, distributors
and/or others for the sole purpose of conducting business associated
with Edwards Systems Technology, Inc. The distribution of
information contained within this manual to unauthorized persons shall
constitute a violation of any distributor agreements and may result in
implementation of legal proceedings.
This product has been designed to meet the requirements of NFPA
Standard 72, 1996 Edition; Underwriters Laboratories, Inc., Standard
864, 7th Edition; and Underwriters Laboratories of Canada, Inc.,
Standard ULC S527. Installation in accordance with this manual,
applicable codes, and the instructions of the Authority Having
Jurisdiction is mandatory. EST, Inc. shall not under any circumstances
be liable for any incidental or consequential damages arising from loss
of property or other damages or losses owing to the failure of EST, Inc.
products beyond the cost of repair or replacement of any defective
products. EST, Inc. reserves the right to make product improvements
and change product specifications at any time.
While every precaution has been taken during the preparation of this
manual to ensure the accuracy of its contents, EST assumes no
responsibility for errors or omissions.
FCC warning
This equipment can generate and radiate radio frequency energy. If this
equipment is not installed in accordance with this manual, it may cause
interference to radio communications. This equipment has been tested
and found to comply within the limits for Class A computing devices
pursuant to Subpart B of Part 15 of the FCC Rules. These rules are
designed to provide reasonable protection against such interference
when this equipment is operated in a commercial environment.
Operation of this equipment is likely to cause interference, in which
case the user at his own expense, is required to take whatever measures
may be required to correct the interference.
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ATPC Manual iii
Document history
Amplifier Terminal Panel Cabinet (ATPC) Installation Manual P/N 270219
Revision Status
Revision Date Reason For Change
1.0 September 1995 Initial Release.
1.5 July 1997 Layout and content revisions.
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iv ATPC Manual
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ATPC Manual 1
ATPC Amplifier Terminal Panel Cabinet
ATPC Components
Audio power amplifiers are required to complete the audio system. The
amplifier components are mounted in the Amplifier Rack (model
ATPC) which may be either adjacent to the RMDP-1N or FCC
enclosure or at a remote location. In systems requiring two
simultaneous channels, a bank of amplifiers is required for each
channel. The components that make up an ATPC are the following:
1. Dukane 250 watt audio amplifiers.
2. Amplifier Terminal Panel (ATP) - P/N 240068
3. Freestanding 19" equipment rack as follows:
a. RKU-36 P/N 375004
b. RKU-42 P/N 375001
c. RKU-61 P/N 375002
d. RKU-70 P/N 375003
e. RKU-77 P/N 375005
4. Batteries - 15 AH minimum per ATP
The Amplifier Terminal Panel (ATP) is mounted in an Amplifier Rack
to provide termination for the amplifiers. The Amplifier Terminal
Panel, is a 5.25" H x 19" W panel that is installed in the Amplifier
Rack (model ATPC) and used to sense loss of AC or brownout
condition at the amplifiers and also provide battery backup when the
audio control panel is active.
The ATP also provides a convenient place to plug the amplifier power
line cord and terminals of the inputs and outputs of the power
amplifiers.
One amplifier terminal panel will be required for a maximum of two,
250 watt amplifiers.
When a brown out condition is sensed the trouble contacts and AC fail
contacts are closed and an IRC supervisory zone reports the condition
to the RMDP-1N or FCC. When positive power is provided at the
audio activity input, battery power is switched on to the amplifier.
Battery back up is not provided to the amplifiers unless the life safety
system requires audio output and primary power to the amplifiers has
failed.
Dukane Amplifier
The DUKANE amplifier delivers 250 Watts (RMS). It will operate
from 120 VAC, 50/60 Hz as well as 24 VDC battery backup. The unit
mounts in an Amplifier Termination Panel Cabinet.
Note: It should only be loaded to 72% capacity. The AMP is derated
by 28% for continuous operation and line loss averages.
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2 ATPC Manual
Two Fifty
THERMAL
OVERLOAD POWER
[ATPC-001.CDR]
Dukane 250 Watt Amplifier, Front View
FUSE 25A
24 VDC
BRIDGING
INPUT
COM
70.7 V
25 V
8 OHM
OUTPUT
COM
25 V
CT
EARTH
[ATPC-002.CDR]
N/C
LEVEL ADJUST
FUSE 6.25A SB
120VAC
60HZ
Dukane 250 Watt Amplifier, Rear View
A 1 Volt RMS signal is required at the Unbal Hi-Z input to provide full
rated power out. Depending upon the total number of amplifiers
required for each channel, the preamplifier output of the FCCA must
be terminated with the appropriate end-of-line (EOL) resistor at the last
amplifier on the pre-amp riser. The table below lists the appropriate
EOL for different quantities of amplifiers in the system.
ATP Pre-Amplifier Termination
# Of Amplifiers Per
Channel
EOL Resistor Value P/N
0 10K Ohm, 1/2 watt 260002
1-5 1.8K Ohm, 1/2 watt 260044
6-10 2.2K Ohm, 1/2 watt 260045
11-15 3.0K Ohm, 1/2 watt 260046
16-20 3.9K Ohm, 1/2 watt 260001
21-25 6.8K Ohm, 1/2 watt 260047
Note: A DAPM may be installed at the pre-amp source and tuned for 1
VRMS. This would alleviate the need for the above resistors.
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ATPC Manual 3
Specifications For Dukane Model 1B3250
Maximum quantity per channel 25
Rated output power 250 Watts (180 Watts Nominal)
Max. signal input 1 VRMS
Input impedance 75K Ohms
Output impedance 8 Ohms
Primary power 120 VAC, 60 Hz
Battery power 24 VDC
AC power consumption:
Standby
Full load
48 Watts
700 Watts
DC power consumption:
Standby
Full Load
0 Watts when using the ATP
20 Amps
Dimensions (HWD - inches) 8.5 x 19 x 15
Weight 55 lbs.
The output of the amplifier must be set for the proper value by
adjusting the INPUT LEVEL adjustment on the back of the amplifier.
With the Pre-amp riser loaded in the final system configuration and the
appropriate terminator installed, the amplifier must be adjusted for 25
VRMS output. This setup must be done while the 1 kHz tone is being
generated by the FCCA. The installer making this adjustment must
have a meter that reads RMS voltage.
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4 ATPC Manual
Wiring the Dukane Amplifier
Wiring From Dukane Amplifier To ATP
FUSE 25A
24 VDC
TO ATP
POWER RECEPTACLE
TO NEXT
ATP
FROM FCCA
OR PREVIOUS
ATP
AUDIO
RISER
OUT
BRIDGING
INPUT
COM
70.7 V
25 V
8 OHM
OUTPUT
COM
25 V
CT
EARTH
N/C
LEVEL ADJUST
FUSE 6.25A SB
120VAC
60HZ
AMPLIFIER TERMINAL PANEL (ATP) P/N 240068
WARNING
IMPROPER CONNECTION OF TERMINALS
WILL RESULT IN A FAILURE OF POWER SUPPLY
+
G
N
H
TB4
120VAC
60HZ
10A MAX.
TB5
FUSE
3AB-20A
TB2 OUT
S+
+
++ + ++SSSS
TB1
TB3
POWER
FAIL
PA NE L
TRBL
ACTIVITY
AMP #1
AMP #2
PREAMP #2
PREAMP #1
PWR AMP #2
PWR AMP #1
BATT.
OUT
BATT.
OUT
BATT. IN
24 VDC
40AH MAX.
120 VAC OUT
WARNING
FO R CONTINUED PROTECTION
AGAINST THE RISK OF FIRE,
REPLACE ONLY WITH SAME
TYPE 8 RATING FUSE.
IN
IN IN
INOUT
OUT OUT OUT
OUT
S+ ++ + ++SSSS
[ATPC-003.CDR]
Amplifier Terminal Panel (ATP)
The Amplifier Terminal Panel (model ATP) is required to provide
terminal connections for the audio riser, preamplifier input and the
required battery back up. The panel has an integral battery charger
capable of charging a maximum of 40 AH Gel Cell batteries. The
charger is fully supervised and provides a silenceable trouble buzzer
and trouble contacts.
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ATPC Manual 5
TROUBLE
NORMAL
PRESS TO
SILENCE
SILENCED
[ATPC-004.CDR]
Amplifier Terminal Panel (ATP), Front View
AMPLIFIER TERMINAL PANEL (ATP) P/N 240068
WARNING
IMPROPER CONNECTION OF TERMINALS
WILL RESULT IN A FAILURE OF POWER SUPPLY
+
G
N
H
TB4
120VAC
60HZ
10A MAX.
TB5
FUSE
3AB-20A
TB2 OUT
S+
+
+++++SSSS
TB1
TB3
POW ER
FAIL
PANEL
TRBL
ACTIVITY
AMP #1
AMP #2
PREAMP #2
PREAMP #1
PWR AMP #2
PWR AMP #1
BATT.
OUT
BATT.
OUT
BATT. IN
24 VDC
40AH MAX.
120 VAC OUT
WARNIN G
FOR CONTINUED PROTECTION
AGAINST THE RISK OF FIR E,
REPLACE ONLY WITH SAME
TYPE 8 RATING FUSE.
IN
IN IN
INOUT
OUT OUT OUT
OUT
S+ +++++SSSS
Removable Back Cover
RemovableTop Cove
r
R
e
m
o
v
a
b
l
e
B
o
t
t
o
m
C
o
v
e
r
[ATPC-005.CDR]
Amplifier Terminal Panel, Rear View
[
ATPC-005.CDR
]
J3 J2
12 3 45 6 7
J1
DISABLE ENABLE
J2-ENABLE
BATTERY CHARGER
J3-DISABLE
24VDC 5VDC TRBL
P4
P3
P5
HOT
NEU
GND
BATTERY
CB1 4 AMP
24VDC OUT
F2 1AG
1AMP 5VDC
F1 3AG 3AMP
CHARGER
CB2 4 AMP
BATTERY IN
CB3 6 AMP
24VAC
CB4 3 AMP 120VAC
+++
Power Supply Terminal Card, with ALL Covers Removed
An Amplifier terminal panel is required to monitor a maximum of two,
250 Watt amplifiers. The following list describes the available
connections for each amplifier:
Amp Power 1 - Type NEMA 5-15p receptacle to plug in one amplifier.
Output is rated at 120 VAC, 5 Amp max.
Amp Power 2 - Type NEMA 5-15p receptacle to plug in one amplifier.
Output is rated at 120 VAC, 5 Amp max.
Battery In - These terminals are for connection of gel cell batteries.
When the internal battery charger is enabled (J3 on the APSB terminal
board installed) a maximum of 40 AH of gel cell batteries may be
charged. The chart below shows the batteries that may be used for a 5
minute alarm condition at various power levels.
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6 ATPC Manual
5 Minute Alarm Back Up
All Call Amp. Power Size Battery Model Quantity
50 Watts 6.5 AH PS 1265 2
100 Watts 6.5 AH PS 1265 2
250 Watts 15.0 AH PS 12150 2
500 Watts 24.0 AH PS 12240 2
Power Fail - Normally open that activates when primary power to the
amplifiers is either lost or in brown out condition. This contact is to be
supervised by an IRC type "S" zone.
Panel Trouble - Normally open relay contacts that activate when any of
the following power problems are sensed:
1. Loss of 5 VDC power
2. Loss of 24 VDC power
3. Failure of the battery charger circuit (if enabled)
4. Any blown fuse or circuit breaker
5. Ground fault, if enabled.
Activity - These terminals are to be connected to the FCCA activity
relay. Power will be provided through contacts at the FCCA when
either an alarm is present in the system or when the system user
activates the paging system. When this input is active and the amplifier
is in power fail, power relay contacts will transfer and provide battery
power to the terminals marked battery out #1 and battery out #2. Each
battery output terminal is capable of providing 20 Amps of battery
current.
In addition to the terminals listed above, two groups of terminals are
provided for connection of audio signals. Channel one terminals
provide the following:
Pre-amp In - From the FCCA, audio distribution card, (pre-amp out) at
the FCCA panel. If multiple amplifier terminal panels are used
connection is from Pre-amp Out Ch #1 of the previous ATP.
Pre-amp Out - to next Amplifier terminal panel (Pre-amp IN) or if it is
the last Amplifier terminal panel these terminals must be terminated
according to the amplifier termination chart in the two previous
sections.
Pre-amp Out - To Amplifier Input - To the High Z input on the
amplifier.
Amp In - From the 70 V or the 25 V output of the amplifier.
Amp Out - to be connected to IRC panel audio zones and terminated at
the last panel on the line with a Riser Supervisory Module (P/N
130057) or a Universal Riser Supervisory Module (P/N 130102). Each
riser may not be greater than 180 W.
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ATPC Manual 7
Channel 2 terminals provide the following:
Pre-amp In - From the FCCA, Audio Distribution board, (pre-amp out)
at the FCCA panel. If multiple amplifier terminal panels are used
connection is from Pre-amp Out Ch #2 of the previous ATP.
Pre-amp Out - to next Amplifier terminal panel (Pre-amp IN) or if it is
the last Amplifier terminal panel these terminals must be terminated
according to the amplifier termination chart located in the two previous
sections.
Pre-amp Out - To Amplifier Input - To the High Z input on the
amplifier.
Amp In - From the 70 V or 25 V output of the amplifier.
Amp Out - to be connected to IRC panels audio zones and terminated
at the last panel on the line with a riser supervisory module (P/N
130057). Each riser may not be greater than 180 W.
ATP External Battery Charger
The audio power amplifiers must be provided with battery back up
when primary power has failed and the audio system has been
activated.
Two different methods may be used to charge the batteries. The ATP
(amplifier terminal panel) has an integral battery charger capable of
charging 40 AH of batteries. The battery chargers of multiple ATPs
may NOT be connected in parallel to increase charger current. When
multiple amplifiers are to be powered from a single battery source, the
ATP charger must be disabled by installing J3 and removing J2 on the
APSB terminal board which is located in the Amplifier Terminal Panel.
When the amplifier back up is to be supplied from a single battery
source an external battery charger must be used. The external battery
charger that must be used is a La Marche model A33-10-24. Battery
power is applied to the amplifiers via the amplifier terminal panel.
When calculating the batteries required for the amplifiers, the alarm
current must be known. Each amplifier must be connected into the
system to draw a maximum of 20 Amperes @ 24VDC. The local
authority having jurisdiction or local codes will specify the amount of
time that standby power must be provided.
The chart below shows the possible battery combinations and battery
cabinets required for the amplifier rack to provide 5 minutes of alarm at
various power levels.
5 Minute Alarm Backup
All Call Amplifier Power Size Model Quantity
50 Watts 6.5 AH PS 1265 2
100 Watts 6.5 AH PS 1265 2
250 Watts 15 AH PS 12150 2
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8 ATPC Manual
500 Watts 24 AH PS 12240 2
750 Watts 40 AH PS 12400 2
1000 Watts 56 AH PS 12280 4
1500 Watts 80 AH PS 12400 4
2000 Watts 120 AH PS 12400 6
3000 Watts 160 AH PS 12400 8
ATP External Battery Charger Wiring
Diagram
+
+
+
++
BATTERY
INPUT
BATTERY
INPUT
LOAD
ATP
ATP
BATTERY
CHARGER
AA33-10-24
PAN EL
TROUBLE
PAN EL
TROUBLE
BATTERY TRBL
24 VDC 160 AH MAX.
NOTE: THE A33-10-24 MUST BE INSTALLED
IN THE
S
AME EN
C
L
O
S
U
RE A
S
THE ATP.
J3
CHARGER
DISABLE
J3
CHARGER
DISABLE
120 VAC
TO IRC
"S" ZONE
120 VAC
120 VAC
[ATPC-007.CDR]
Amplifier Backup
Various methods are available to provide a spare amplifier in the event
that a primary amplifier fails. Depending upon the Local Authority
Having Jurisdiction, a single backup amplifier may be required for
each primary amplifier or a single back up per bank of amplifiers
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ATPC Manual 9
Amplifier Bank with a Spare
IN OUT
IN OUT
IN OUT
IN OUT
FROM FCCA
CHANNEL 1
PREAMP
O
U
T
PREAMP AMP
PREAMP AMP
AUDIO POWER
AUDIO POWER
AUDIO POWER
AUDIO POWER
PREAMP AMP
PREAMP AMP
AMPLIFIER 1
AMPLIFIER 1
AMPLIFIER 1
AMPLIFIER 3
AMPLIFIER 2
AMPLIFIER 2
BACKUP RISER
AMPLIFIER 2
SPARE
ATP
ATP
OUT IN
OUT IN
OUT IN
OUT IN
ARA-1
T
R
O
U
B
L
E
OUT TO
"S" ZONE
T
R
O
U
B
L
E
OUT TO
"S" ZONE
T
R
O
U
B
L
E
OUT TO
"S" ZONE
FROM SUPERVISED
CONTROL CIRCUIT
AMP 1 SWITCH OVER
TO BACKUP
AUDIO RISER, 180 WATT MAXIMUM PER RISER
ARA-1
FROM SUPERVISED
CONTROL CIRCUIT AMP 2
SWITCH OVER TO BACKUP
ARA-1
FROM SUPERVISED
CONTROL CIRCUIT
AMP 3 SWITCH OVER
TO BACKUP
URSM URSM URSM
[ATPC-008.CDR]
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10 ATPC Manual
One Spare Amp in Dual-Channel System
IN OUT
IN OUT
IN OUT
IN OUT
IN OUT
IN OUT
FROM FCCA
CHANNEL 1
PREAMP
O
U
T
FROM FCCA
CHANNEL 2
PREAMP
O
U
T
RELAY SWITCHES IF AMPS 2 OR 4 FAIL.
PREAMP AMP
PREAMP AMP
PREAMP AMP
AUDIO POWER
AUDIO POWER
AUDIO POWER
AUDIO POWER
AUDIO POWER
PREAMP AMP
PREAMP AMP
PREAMP AMP
AMPLIFIER 1
AMPLIFIER 3
AMPLIFIER 5
AMPLIFIER 1
AMPLIFIER 3
AMPLIFIER 4
SPARE AMP
AMPLIFIER 2
AMPLIFIER 4
AMPLIFIER 6
BACKUP RISER
AMPLIFIER 2
ATP-1
ATP-2
ATP-3
OUT IN
OUT IN
OUT IN
OUT IN
OUT IN
OUT IN
ARA-1
TROUBLE
OUT TO
"S" ZONE
TROUBLE
OUT TO
"S" ZONE
TROUBLE
OUT TO
"S" ZONE
TROUBLE
OUT TO
"S" ZONE
FROM SUPERVISED
CONTROL CIRCUIT
AMP 1 FAIL
AUDIO RISER,180 WATT MAXIMUM PER RISE
R
NOTE: ONE URSM REQUIRED FOR 2 RISERS
IF TERMINATED IN SAME ENCLOSURE.
ARA-1
FROM SUPERVISED
CONTROL CIRCUIT
AMP 2 FAIL
ARA-1
FROM SUPERVISED
CONTROL CIRCUIT
AMP 3 FAIL
ARA-1
FROM SUPERVISED
CONTROL CIRCUIT
AMP 4 FAIL
ARA-1
FROM SUPERVISED
CONTROL CIRCUIT
URSM URSM URSM URSM
CH1 CH1CH2 CH2
[ATPC-009.CDR]
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ATPC Manual 11
ATPC Troubleshooting
Amplifier Terminal Panel Trouble
The amplifier terminal power is basically a panel with terminals for
convenient termination of the amplifier, preamplifier and field wiring.
In addition, the panel will sense a trouble condition when the power
relay switches battery power to the input of the power amplifiers.
The ATP power faults that will cause a TROUBLE are as follows:
1. ATP brown out or loss of AC power.
2. Low battery or no battery (with J2 enabled).
3. Ground fault (if ground fault detection is enabled).
4. Fuse fail.
5. Loss of 5VDC. This fault will produce a non-silenceable trouble
condition.
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12 ATPC Manual
Amplifier Installation Application Drawings
Single-Channel, 180 Watts Active, 180
Watts Back-Up
LOUVERED BLANK LOUVERED BLANK
LOUVERED BLANK
LOUVERED BLANK
LOUVERED BLANK
LOUVERED BLANK
LOUVERED BLANK
BATTERY PACKS
LOUVERED BLANK
LOUVERED BLANK
LOUVERED BLANK
LOUVERED BLANK
LOUVERED BLANK
BLANK ARM8 SDR-32K SIN-16
SAN-CPU
BLANK CHASSIS PLATE
SAN MODULES
250 WATT DUKANE
AMP BACKUP
250 WATT DUKANE
AMP BACKUP
250 WATT DUKANE
AMP RISER A
250 WATT DUKANE
AMP RISER A
AMPLIFIER TERMINAL
PANEL #1
AMPLIFIER TERMINAL
PANEL #1
3.50"
3.50"
3.50"
42.00"42.00"
5.25"
5.25"
5.25"
5.25"
5.25"
1.75"
1.75"
1.75"
10.00"
.25"
.25"
R
U
W
A
2
0
0
-
4
2
,
F
r
ont
V
i
ew
R
U
W
A
2
0
0
-
4
2
,
R
ea
r
V
i
ew
TOTAL
EA
C
H
S
IDE
[ATPC-010.CDR]
• Locked door on rear of rack.
• DO NOT install door on rack front.
• Spacing is required for air flow so amps will not overheat.
• Battery back-up sits on the bottom of rack behind the blanks.
Components
Quantity Component Part Number Comment
1 SAN-CPU P/N 130125 Control for amplifier rack
1 SIN-16 P/N 240158 TB1-1 Monitor ATP #1 for trouble
SIN-16 TB1-2 Monitor ATP #1 for power fail
1 SDR32K P/N 240181 Control for relays
1 ARM-8 P/N 240122 Relay for 24 VDC power to ATP activity relay
1 ARA Relay P/N 250055 Relay for back-up AMP power transfer
1 ARA Relay P/N 250055 Relay for riser “A” switch over
SDR32K PO1-1 Control ARA relay activity to ATP
SDR32K PO1-2 Control ARA relay for back-up AMP power
SDR32K PO1-3 Control ARA relay for riser “A” transfer
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ATPC Manual 13
Single-Channel, 360 Watts Active, 180
Watts Back-Up
LOUVERED BLANK LOUVERED BLANK
LOUVERED BLANK LOUVERED BLANK
LOUVERED BLANK LOUVERED BLANK
LOUVERED BLANK LOUVERED BLANK
LOUVERED BLANK
[ATPC-011.CDR]
LOUVERED BLANK
LOUVERED BLANK LOUVERED BLANK
LOUVERED BLANK LOUVERED BLANK
BLANK BLANK
BLANK
BLANK
BLANK BLANK
250 WATT DUKANE
AMP BACKUP
250 WATT DUKANE
AMP BACKUP
250 WATT DUKANE
AMP RISER A
250 WATT DUKANE
AMP RISER A
250 WATT DUKANE
AMP RISER B
250 WATT DUKANE
AMP RISER B
AMPLIFIER TERMINAL
PANEL #1
AMPLIFIER TERMINAL
PANE L #1
3.50"
3.50"
3.50"
3.50"
61.25"61.25"
5.25"
5.25"
10.00"
.25"
.25"
5.25"
5.25"
5.25"
5.25"
5.25"
5.25"
1.75"
1.75"
1.75"
RUWA200-61, F
r
ont View
R
U
W
A
2
0
0
-
6
1
,
R
ea
r
V
i
ew
TOTAL
EA
C
H
S
IDE
ARM8 SDR-32K SIN-16
SAN-CPU
CHASSIS PLATE
SAN MODULES
• Locked door on rear of rack.
• DO NOT install door on rack front.
• Spacing is required for air flow so amps will not overheat.
• Battery back-up sits on the bottom of rack behind the blanks.
Components
Quantity Component Part Number Comment
1 SAN-CPU P/N 130125 Control for amplifier rack
1 SIN-16 P/N 240158 TB1-1 Monitor ATP #1 for trouble
SIN-16 TB1-2 Monitor ATP #1 for power fail
1 SDR32K P/N 240181 Control for relays
1 ARM-8 P/N 240122 Relay for 24 VDC power to ATP activity relay
1 ARA Relay P/N 250055 Relay for back-up AMP power transfer
1 ARA Relay P/N 250055 Relay for riser “A” switch over
1 ARA Relay P/N 250055 Relay for riser “B” switch over
SDR32K PO1-1 Control ARA relay activity to ATP
SDR32K PO1-2 Control ARA relay for back-up AMP power
SDR32K PO1-3 Control ARA relay for riser “A” transfer
SDR32K PO1-4 Control ARA relay for riser “B” transfer
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14 ATPC Manual
Single-Channel, 540 Watts Active, 180
Watts Back-Up
LOUVERED BLANK
LOUVERED BLANK LOUVERED BLANK
LOUVERED BLANK
LOUVERED BLANK
LOUVERED BLANK
LOUVERED BLANK
LOUVERED BLANK
LOUVERED BLANK LOUVERED BLANK
LOUVERED BLANK
[ATPC-012.CDR]
LOUVERED BLANK
LOUVERED BLANK LOUVERED BLANK
LOUVERED BLANK LOUVERED BLANK
250 WATT DUKANE
AMP BACK-UP
250 WATT DUKANE
AMP BACK-UP
AMP TERMINAL
PANEL #2
AMP TERMINAL
PAN EL #2
BLANK
BLANK
250 WATT DUKANE
AMP RISER C
250 WATT DUKANE
AMP RISER C
250 WATT DUKANE
AMP RISER A
250 WATT DUKANE
AMP RISER A
250 WATT DUKANE
AMP RISER B
250 WATT DUKANE
AMP RISER B
AMPLIFIER TERMINAL
PANEL #1
AMPLIFIER TERMINAL
PAN EL #1
3.50"
3.50"
3.50"
61.25"61.25"
10.00"
.25"
.25"
5.25"
5.25"
5.25"
5.25"
5.25"
5.25"
5.25"
5.25"
1.75"
1.75"
1.75"
1.75"
1.75"
RUWA200-61, F
r
ont View RUWA200-61, Rea
r
View
TOTAL
EA
C
H
S
IDE
ARM8 SDR-32K SIN-16
SAN-CPU
CHASSIS PLATE
SAN MODULES
• Locked door on rear of rack.
• DO NOT install door on rack front.
• Spacing is required for air flow so amps will not overheat.
• Battery back-up sits on the bottom of rack behind the blanks.
Components
Quantity Component Part Number Comment
1 SAN-CPU P/N 130125 Control for amplifier rack
1 SIN-16 P/N 240158 TB1-1 Monitor ATP #1 for trouble
SIN-16 TB1-2 Monitor ATP #1 for power fail
SIN-16 TB1-3 Monitor ATP #2 for power fail
SIN-16 TB1-4 Monitor ATP #2 for power fail
1 SDR32K P/N 240181 Control for relays
1 ARM-8 P/N 240122 Relay for 24 VDC power to ATP activity relay
1 ARA Relay P/N 250055 Relay for back-up AMP power transfer
1 ARA Relay P/N 250055 Relay for riser “A” switch over
1 ARA Relay P/N 250055 Relay for riser “B” switch over
1 ARA Relay P/N 250055 Relay for riser “C” switch over
SDR32K PO1-1 Control ARA relay activity to ATP
SDR32K PO1-2 Control ARA relay for back-up AMP power
SDR32K PO1-3 Control ARA relay for riser “A” transfer
SDR32K PO1-4 Control ARA relay for riser “B” transfer
SDR32K PO1-5 Control ARA relay for riser “C” transfer
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