ADT Security Services ADT-APS-6R User Manual

ADTAPS-6R__INSTENGLB0.fm Page 1 Tuesday, November 21, 2000 11:30 AM

ADT Security Services, Inc.

1750 Clint Moore Road
Boca Raton, FL 33431
(561) 988-3600

ADT-APS-6R Auxiliary Power Supply

Installation Instructions

Document 5093 5
07/21/2000 Revision:

PN 50935:B ECN 00-317

B

Fire Alarm System Limitations

An automatic fire alarm system–typically made up of

smoke detectors, heat detectors, manual pull stations,
audible warning devices, and a fire alarm control with
remote notification capability–can provide early warning
of a developing fire. Such a system, however, does not
assure protection against property damage or loss of life
resulting from a fire.

The Manufacturer recommends that smoke and/or heat
detectors be located throughout a protected premise
following the recommendations of the current edition of
the National Fire Protection Association Standard 72
(NFPA 72), manufacturer's recommendations, State and
local codes, and the recommendations contained in the
Guide for Proper Use of System Smoke Detectors, which
is made available at no charge to all installing dealers.
A study by the Federal Emergency Management Agency
(an agency of the United States government) indicated
that smoke detectors may not go off in as many as 35%
of all fires. While fire alarm systems are designed to
provide early warning against fire, they do not guarantee
warning or protection against fire. A fire alarm system
may not provide timely or adequate warning, or simply
may not function, for a variety of reasons:

Smoke detectors may not sense fire where smoke
cannot reach the detectors such as in chimneys, in or
behind walls, on roofs, or on the other side of closed
doors. Smoke detectors also may not sense a fire on
another level or floor of a building. A second-floor
detector, for example, may not sense a first-floor or
basement fire.

Particles of combustion or "smoke" from a developing
fire may not reach the sensing chambers of smoke
detectors because:

• Barriers such as closed or partially closed doors,
walls, or chimneys may inhibit particle or smoke flow.

• Smoke particles may become "cold," stratify, and not
reach the ceiling or upper walls where detectors are
located.

• Smoke particles may be blown away from detectors
by air outlets.

• Smoke detectors may be drawn into air returns before
reaching the detector.

The amount of "smoke" present may be insufficient to
alarm smoke detectors. Smoke detectors are designed
to alarm at various levels of smoke density. If such
density levels are not created by a developing fire at the
location of detectors, the detectors will not go into alarm.

Smoke detectors, even when working properly, have
sensing limitations. Detectors that have photoelectronic
sensing chambers tend to detect smoldering fires better
than flaming fires, which have little visible smoke.
Detectors that have ionizing-type sensing chambers
tend to detect fast-flaming fires better than smoldering
fires. Because fires develop in different ways and are
often unpredictable in their growth, neither type of detec­tor is necessarily best and a given type of detector may
not provide adequate warning of a fire.

Smoke detectors cannot be expected to provide
adequate warning of fires caused by arson, children
playing with matches (especially in bedrooms), smoking
in bed, and violent explosions (caused by escaping gas,
improper storage of flammable materials, etc.).

While a fire alarm system may lower insurance
rates, it is not a substitute for fire insurance!

Heat detectors do not sense particles of combustion and
alarm only when heat on their sensors increases at a
predetermined rate or reaches a predetermined level.
Rate-of-rise heat detectors may be subject to reduced
sensitivity over time. For this reason, the rate-of-rise
feature of each detector should be tested at least once
per year by a qualified fire protection specialist.

detectors are designed to protect property, not life.

IMPORTANT!

the same room as the control panel and in rooms used
by the system for the connection of alarm transmission

Smoke detectors must be installed in

wiring, communications, signaling, and/or power.

detectors are not so located, a developing fire may dam­age the alarm system, crippling its ability to report a fire.

Audible warning devices such as bells may not alert
people if these devices are located on the other side of
closed or partly open doors or are located on another
floor of a building. Any warning device may fail to alert
people with a disability or those who have recently con­sumed drugs, alcohol or medication. Please note that:

• Strobes can, under certain circumstances, cause
seizures in people with conditions such as epilepsy.

• Studies have shown that certain people, even when
they hear a fire alarm signal, do not respond or
comprehend the meaning of the signal. It is the
property owner's responsibility to conduct fire drills
and other training exercise to make people aware of
fire alarm signals and instruct them on the proper
reaction to alarm signals.

• In rare instances, the sounding of a warning device
can cause temporary or permanent hearing loss.

A fire alarm system will not operate without any
electrical power. If AC power fails, the system will
operate from standby batteries only for a specified time
and only if the batteries have been properly maintained
and replaced regularly.

Equipment used in the system may not be technically
compatible with the control. It is essential to use only
equipment listed for service with your control panel.

Telephone lines needed to transmit alarm signals from
a premise to a central monitoring station may be out of
service or temporarily disabled. For added protection
against telephone line failure, backup radio transmission
systems are recommended.

The most common cause of fire alarm malfunction is
inadequate maintenance. To keep the entire fire alarm
system in excellent working order, ongoing maintenance
is required per the manufacturer's recommendations,
and UL and NFPA standards. At a minimum, the
requirements of Chapter 7 of NFPA 72 shall be followed.
Environments with large amounts of dust, dirt or high air
velocity require more frequent maintenance. A mainte­nance agreement should be arranged through the local
manufacturer's representative. Maintenance should be
scheduled monthly or as required by National and/or
local fire codes and should be performed by authorized
professional fire alarm installers only. Adequate written
records of all inspections should be kept.

Heat

If

LimWarSm.p65 01/10/2000

Installation Precautions

WARNING -

connected to the fire alarm control panel.

sources of power before servicing. Control unit and
associated equipment may be damaged by removing
and/or inserting cards, modules, or interconnecting
cables while the unit is energized. Do not attempt to
install, service, or operate this unit until this manual is
read and understood.

CAUTION -

Changes.

product must be tested in accordance with NFPA 72
Chapter 7 after any programming operation or change in
site-specific software. Reacceptance testing is required
after any change, addition or deletion of system compo­nents, or after any modification, repair or adjustment to
system hardware or wiring.

All components, circuits, system operations, or software
functions known to be affected by a change must be
100% tested. In addition, to ensure that other operations
are not inadvertently affected, at least 10% of initiating
devices that are not directly affected by the change, up
to a maximum of 50 devices, must also be tested and
proper system operation verified.

This system meets NFPA requirements for operation
at 0-49° C/32-120° F
RH (non-condensing) at 30°
useful life of the system's standby batteries and the
electronic components may be adversely affected by
extreme temperature ranges and humidity. Therefore,
it is recommended that this system and all peripherals
be installed in an environment with a nominal room
temperature of 15-27° C/60-80° F.

Verify that wire sizes are adequate for all initiating and
indicating device loops. Most devices cannot tolerate
more than a 10% I.R. drop from the specified device
voltage.

Several different sources of power can be

Disconnect all

System Reacceptance Test after Software

To ensure proper system operation, this

and at a relative humidity of 85%

C/86° F. However, the

Adherence to the following will aid in problem-free
installation with long-term reliability:

Like all solid state electronic devices, this system may
operate erratically or can be damaged when subjected
to lightning-induced transients. Although no system is
completely immune from lightning transients and inter­ferences, proper grounding will reduce susceptibility.

Overhead or outside aerial wiring is not recommended,
due to an increased susceptibility to nearby lightning

Consult with the Technical Services Department

strikes.

if any problems are anticipated or encountered.

Disconnect AC power and batteries prior to removing
or inserting circuit boards. Failure to do so can damage
circuits.

Remove all electronic assemblies prior to any drilling,
filing, reaming, or punching of the enclosure. When
possible, make all cable entries from the sides or rear.
Before making modifications, verify that they will not
interfere with battery, transformer, and printed circuit
board location.

Do not tighten screw terminals more than 9 in-lbs.
Over-tightening may damage threads, resulting in
reduced terminal contact pressure and difficulty with
screw terminal removal.

Though designed to last many years, system compo­nents can fail at any time. This system contains static­sensitive components. Always ground yourself with a
proper wrist strap before handling any circuits so that
static charges are removed from the body. Use static­suppressive packaging to protect electronic assemblies
removed from the unit.

Follow the instructions in the installation, operating,
and programming manuals. These instructions must
be followed to avoid damage to the control panel and
associated equipment. FACP operation and reliability
depend upon proper installation by authorized personnel.

FCC Warning

WARNING: This equipment generates, uses, and

can radiate radio frequency energy and if not in­stalled and used in accordance with the instruction
manual, may cause interference to radio commu­nications. It has been tested and found to comply
with the limits for class A computing device pursu­ant to Subpart B of Part 15 of FCC Rules, which is
designed to provide reasonable protection against
such interference when operated in a commercial
environment. Operation of this equipment in a
residential area is likely to cause interference, in
which case the user will be required to correct the
interference at his own expense.

Canadian Requirements

This digital apparatus does not exceed the
Class A limits for radiation noise emissions from
digital apparatus set out in the Radio Interfer­ence Regulations of the Canadian Department
of Communications.

Le present appareil numerique n'emet pas de
bruits radioelectriques depassant les limites
applicables aux appareils numeriques de la
classe A prescrites dans le Reglement sur le
brouillage radioelectrique edicte par le
ministere des Communications du Canada.

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Table of Contents

Tabl e of Contents

1. Overview

Introduction.....................................................................................................5

Description.......................................................................................................5

Specifications...................................................................................................7

2. Installation

Introduction.....................................................................................................9

Mounting an ADT-APS-6R in a ADT-CAB-400AA Backbox...................10

Mounting in ADT-CAB-3 Series Cabinets..................................................11

Instructions for mounting: .........................................................................11

CHS-4 Series Chassis Mounting................................................................1 1

Wiring the ADT-APS-6R..............................................................................12

Field Wiring an ADT-APS-6R ................ ..................... .................... .........12

Connecting Multiple ADT-APS-6R Power Supplies ................................13

Wiring Applications......................................................................................14

Connecting the ADT-APS-6R to an ICM-4/ICE-4 Module......................1 4

Supplying Power to a M300CADT Module .............................................. 15

Configuring the ADT-APS-6R.............................................. .................... ...16

Servicing the ADT-APS-6R..........................................................................17

Appendix A - Unimode 4-16

Connecting the ADT-APS-6R to an MPS-24B............................................19

Appendix B - Unimode 300/400

Connecting the ADT-APS-6R to an MPS-400............................................21

Appendix C - Unimode II & Unimode 2020

Connecting the ADT-APS-6R to an MPS-24A ...........................................23

Connecting the ADT-APS-6R to an MPS-24B............................................24

4

ADT-APS-6R Installation PN 50935:B 7/21/00

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1. Overview

Introduction

This document contains information for installing, servicing, and
configuring the ADT-APS-6R Auxiliary Power Supply. The table below
contains a list of document sources for supplemental information:

Control Panels Refer to... Part Number

Unimode 4-16 Unimode 4-16 Installation

Unimode II Series Unimode II Installation

Unimode 400 Series Unimode 400 Installatio n

Unimode 2020 Unimode 2020 Installation

ADT Transponder
Series

All ADT Device Compatibility

Manual

Manual

Manual

Manual
ADT Transponder Manual 50928

Document

A15019

A15583

50710

51167

51352

Description

The ADT-APS-6R Auxiliary Power Supply is a 150W cabinet-mounted
power supply, designe d t o power devi ces that requ ire filtere d, regulated,
non-resettable power, such as XP Transponder modules, Notification
Appliance Circuit Modul es and Control Modules. T he ADT-APS-6R
provides three 24 VDC (filtered) output circuits.

Table 1 Supplemental Documentation

APS-6Risoview.cdr

Figure 1 ADT-APS-6R Auxilliary Power Supply

ADT-APS-6R Instruction PN 50935:B 7/21/00

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1. Overview Description

The figures below identify the features of the ADT-APS-6R power
supply:

Trouble In (J4) - Trouble Out (J3)
“P” style connectors for internal cabinet
connections

Three 24 VDC output circuits
Two (2) power-limited
One (1) non power-limited

J1

J3

TB2

J2

LED Status Indicators:
Green LED – Indicates AC power on
Yellow LED – Indicates loss of AC or battery

JP3

J9

Fuse F2 for battery protection
(10A, 3AG, slow blow)

Fuse F1 for AC protection
(4A, 3AG, slow blow)

JP2

APS-6Rsidebrd.cdr

Jumpers JP2 and JP3 for
selecting 8-hour or 16-hour
delay for AC loss reporting
(default is immediate)

Figure 2 ADT-APS-6R Control Board

JP1

APS-6Rboard.cdr

Jumper JP1 for selecting AC input voltage
(120 VAC default)

Figure 3 ADT-APS-6R Main Board

6

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Specifications 1. Overview

Specifications

The ADT-APS-6R is compatible with the Unimode II, Unimode 300/400,
Unimode 4-16 and Unimode 2020 control panels. Specifications for the
ADT-APS-6R are:

Electrical Specifications

AC Primar y In put Power
Wire Size: #14 AWG with
600 VAC insulation

24 VDC Secondary Input Power
(lead-acid batteries only)

Note: Batteries are charged by the system power supply.

24 VDC output power
Circuit 1
Circuit 2
Circuit 3

Fuses
F1 (AC supervision)
F2 (battery supervision)

Trouble supervision bus
J3 output
J4 input

Note: J3 and J4 can be
interchanged.

Loss of AC Indication Immediate indication (default)

120 VAC, 60 Hz, 2.5 A
240 VAC, 50 Hz, 1.2 A

25 mA DC standby current
16 mA DC standby current (wit h A C fa il del a y
operating)

Total 6 A (4 A continuous)
3 A @24 VDC power-limited (+ 10, –15%)
3 A @24 VDC power-limited (+ 10, –15%)
6 A @24 VDC non power-limite d (+10, –15%)

250 VAC, 4A, 3 AG, slow blow
32 VAC, 10 A, 3 AG, slow blow

Form A contact (open col lector)
Form A contact (open col lector)

8 or 16 hour delay

Mechanical Specifications

Size of ADT-APS-6R in enclosure 6.09 in. x 4.23 in. x 2.92 in.
Cabinets for mounting ADT-CAB-3 Series, usin g CHS -4 and CHS -4L

Note: An optional module (such as an ICM-4) without an expansion card can
mount above an ADT-APS-6R in a CHS-4, a Unimode 4-16, and a
ADT-CAB-400AA.

ADT-APS-6R Instruction PN 50935:B 7/21/00

chassis, for Unimode 400, unimod e II and
Unimode 2020 contr ol pa nels.
ADT-CAB-400AA for Unimode 300/400
control panel; accepts one APS-6R.
Unimode 4-16 can accept one ADT-APS-6R .

Table 2 ADT-APS-6R Specifications

7

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1. Overview Specifications

NOTES

8

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2. Installation

WARNING: Use extreme caution when working with the APS-6R.

!

High voltage and AC line-connected circuits are present. Turn off and
remove all power sources. To reduce the risk of electric shock make
sure to properly ground the unit.

Introduction

This section contains instructions for mou nti ng, wirin g, config uri n g and
servicing the ADT-APS-6R.

Installation topics covered in detail:

Topic Refer to...

Mounting to a ADT-CAB-400AA
Backbox

Mounting to a ADT-CAB-3 Se ries
Cabinet

Field Wiring "Field Wiring an ADT-APS-6R" on

Wiring Multiple ADT-APS-6Rs "Connecting M u ltiple ADT-A P S - 6R

Connecting to an ICM/ICE "Connecting the ADT-APS-6R to an

Powering an M300CADT "Supplying Power to a M300CADT

Configuring "Configuring the ADT-APS-6R" on

Servicing "Servicing the ADT-APS - 6R" on

"Mounting an ADT-APS-6R in a
ADT-CAB-400 AA Backbox" on
page 10

"Mounting in ADT-CAB-3 Series
Cabinets " on page 11

page 12

Power Supplies" on page 13

ICM-4/ICE-4 Module" on page 14

Module" on page 15

page 16

page 17

ADT-APS-6R Instruction PN 50935:B 7/21/00

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2. Installation Mounting an ADT-APS- 6R in a AD T- CAB-400AA Backbox

Mounting an ADT-APS-6R in a ADT-CAB-400AA Backbox

An Auxiliary Power Supply is mounted as shown in the figure belo w.
To mount the ADT-APS-6R, follow these instructions:

Step Action

1 Remove plastic co ver from APS-6R.

2 If 240 VAC is to be used , c ut JP1 jumper at th is time. See "Config u ri ng the

ADT-APS-6R" on page 16.

3 Place the APS-6R onto the mounting studs in the backbox.

4 Insert a standoff through each of the printed circuit board mounting holes,

threading each stan doff to th e m ounting studs.

5 Tighten the standoffs until the APS-6R is securely fastened to the backbox.

6 Reinstall the plastic chassis c over.

ADT-CAB-400AA
Backbox

ADT-APS-6R
Assembly

Figure 4 Mounting an ADT-APS-6R to a ADT-CAB-400AA Backbox

Mounting
Studs

Standoff
(2 places)

APS-6R to CAB-AA.cdr

10

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Mounting in ADT-CAB-3 Series Cabinets 2. Installation

Mounting in ADT-CAB-3 Series Cabinets

This section contains instructions for the installation of the Auxiliary
Power Supply into a ADT-CAB-3 Series cabinet (ADT-CAB-A3, ADT­CAB-B3, ADT-CAB-C3 and ADT-CAB-D3).
These cabinets use a CHS-4L or CHS-4 Chassis to mount the
ADT-APS-6R.

Instructions for mounting:

Step Action

1 Remove plastic co ver from APS-6R.

2 If 240 VAC is to be used, cut JP1 jumper at this time. See "Con f ig u ri ng the

ADT-APS-6R" on page 16.

3 Place the APS-6R onto the mounting studs of the chassis (Figure 5 on page

11).

4 Insert a standoff through each of the printed circuit board mounting holes,

threading each standoff to the moun ting studs on the chas s i s .

5 Tighten the standoffs until the APS-6R is securely fastened to the chassis.

6 Reinstall the plastic chassis c over.

CHS-4 Series Chassis Mounting

The illustration below shows an ADT-APS-6R being mounted in a CHS­4L chassis. Mounting in a CHS-4 chassis is accomplished in the same
way.

CHS-4L Chassis

Mounting Studs

Standoff
(2 places)

Figure 5 Mounting an ADT-APS-6R to a CHS-4L Chassis

ADT-APS-6R
Assembly

APS-6R to CHS-4L.cdr

ADT-APS-6R Instruction PN 50935:B 7/21/00

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2. Installation Wiring the ADT-APS-6R

Wiring the ADT-APS-6R

This section contains instructions for wiring the Auxiliary Power Supply
as follows:

• Typical field wiring from an ADT-APS-6R to a control panel and
optional devices.

• Wiring multiple ADT-APS-6R power supplies.

Field Wiring an ADT-APS-6R

You can use J1 and J2 in place of TB2 when the ADT-APS-6R is
powering internal modules (such as an ICM-4, ICE-4, ADT-UZC-256,
XPC-8) with compatible connectors.

Output Circuit 3 (J9) can be used as a s ource of power for the XPIQ Audio
Transponder only.

Note: When using the J9 connector do not use the J2 connector. This will satisfy the

0.25 (6.35mm) requirement for separation between power-limited and nonpower­limited circuits.

Primary and Secondary Power Connections - See appendix for your
specific system information.

Caution: When finished wiring AC connections, install the press-fit
terminal block cover over TB1 AC connections.

!

Output Circuit 3: Non Power-limited, 6 A @24 VDC (+10, –15%)

Output Circuit 2 (24 VDC)

– + – + – +

J9

J2

TB2

JP2

JP3

J3

Figure 6 Typical Wiring for an ADT-APS-6R

Output Circuit 1 (24 VDC)

J1

+

Output Circuit 1: Power-limited
3 A @24 VDC (+10, –15%)

–
+

Output Circuit 2: Power-limited
3 A @24 VDC (+10, –15%)

–
Trouble Bus In/Out

BA TT (+)
BA TT (–)

HOT
NEUTRAL
EARTH

Secondary Power

24 VDC batteries.

Primary Power

120 VAC or 240 VAC.
Earth Ground -

EARTH

ground terminal on main power
supply. If two or more units are connected,
secondary units connect to earthground
on the previous ADT-APS-6R in the chain.

Connects to chassis or

APS-6Rsidebrd.cdr

12

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Wiring the ADT-APS-6R 2. Installation

Connecting Multiple ADT-APS-6R Power Supplies

Typical trouble bus connections for multiple ADT-APS-6R power
supplies using trouble connectors J3 and J4.

Use Cable 71033 or 75098 (same cables; different lengths) for all wiring.
See appendix on your system for specific “Trouble Input” connection.

Note: J3 and J4 can be interchanged.

T o trouble input on main power
supply or control panel

J9

JP2

JP3

J1

J2

TB2

J3

J9

JP2

J1

J2

TB2

J3

JP3

J9

JP2

JP3

J1

J2

TB2

J3

First APS-6R Last APS-6R

Figure 7 Trouble Bus Connections for Multiple ADT-APS-6R Configurations

APS-6Rmultiple.cdr

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2. Installation Wiring Applications

Wiring Applications

This section contains instructions for wiring the ADT-APS-6R assembly
as follows:

• Connecting the ADT-APS-6R to an ICM-4/ICE-4 module

• Supplying notification appliance power to a FCM module

Connecting the ADT-APS-6R to an ICM-4/ICE-4 Module

All four (4) NACs on the ICM-4 are powered from the ADT-APS-6R
output circuit 2 (J2) and the four (4 ) NACs on the ICE-4 are p owered from
circuit 1 (J1). The NACs share the total 3A available from each circuit.

Typical connections for wiring:

ICM-4

Blue
Black

ADT-APS-6R

J65 J

Blue

J65 J

Black

J9

JP2

JP3

ICE-4

J2

TB2

Auxiliary Power
Harness
PN 71091

J1

J3

14

APS-6Ricm.cdr

Figure 8 Typical ADT-APS-6R Wiring to an ICM-4/ICE-4 Module

ADT-APS-6R Instruction PN 50935:B 7/21/00

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Wiring Applications 2. Installation

Supplying Power to a M300CADT Module

The circuit is supervised and power-limited.
Typical connections for wiring:

J9

J2

J1

SLC loop

TB2

J3

6

6

2

1

1

6

6

5

2

2

1

1

8

7

8

7

9

9

10

10

14

14

0

15

150

8

7

7

8

9

9

0

0

ADDRESS

ADDRESS

0

0

11

11

12

12

1

1

13

13

2

2

3

3

4

4

T o next device

APS-6Rfcm.cdr

9

9

5

5

4

4

8

3

8

3

2

TENS

TENS

7

7

5

4

4

6

6

3

LOOP

LOOP

3

5

5

ONES

ONES

JP2

JP3

NAC

on SLC loop

Figure 9 Typical ADT-APS-6R Wiring to a M300CADT Module

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2. Installation Configuring the ADT-APS-6R

Configuring the ADT-APS-6R

The ADT-APS-6R may be configured for the following:

• 8-hour delay for reporting loss of AC: cut jum per JP2.

• 16-hour delay for reporting loss of AC: cut jumper JP2 and JP3.

• 240 VAC operation: cut jumper JP1.

The figure below illustrates the location of the jumpers:

J1

J3

J2

J9

TB2

JP3

JP1

Figure 10 Configuring the ADT-APS-6R

JP3
JP2

JP2

JP1

APS-6Rconfig.cdr

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Servicing the ADT-APS-6R 2. Installation

Servicing the ADT-APS-6R

The only serviceable components on the ADT-APS-6R are fuses F1 and
F2. If a fuse fails, replace it with a fuse of the same type and rating:

• F1 AC protect ion - 4A, 3 A G

• F2 Battery protection - 10A, 3 AG

To replace either fuse remove the vertical PC board as follows:

1. Turn off and remove all power sources.

2. Remove plastic cover.

3. Remove the two retaining screws securing vertical board.

4. Unplug the vertical PC board from the connectors.

5. Replace fuses as required.

6. Reinstall board in reverse order, install plastic cover and connect all
power.

The figure below illustrates the location of the fuses.

Retaining Screw (typ)

F2 Fuse

J1

J3

TB2

J2

JP3

J9

F1 Fuse

Connector (typ)

Main Circuit Board

Figure 11 Servicing the ADT-APS-6R

JP2

APS-6Rservice.cdr

ADT-APS-6R Instruction PN 50935:B 7/21/00

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2. Installation Servicin g the ADT-APS-6R

NOTES

18

ADT-APS-6R Instruction PN 50935:B 7/21/00

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Appendix A - Unimode 4-16

Connecting the ADT-APS-6R to an MPS-24B

Make the following connections as shown in the figure below.

• Connect primary power from TB1 to MPS-24B terminal block

TB1, Pin 3(

• Connect secondary power from TB3 to MPS-24B terminal block

TB3, Pin 1(+) and Pin 2(–)

• Connect trouble input from J3 to MPS-24B terminal block P4

J9

J1

J2

TB2

J3

NEUT

) and Pin 4(

EARTH

TB1

CB1

P1

7

5

3
2
1

MPS-24BPCC
REV ___

HOT

AC NEUT

2 3 4

AC HO T

)

COMMON

R55

1 2 3 4 6 7 8

P2

+24 VRESET

TB2

+24 VPOWER

1 2 3 4

JP3

COMMON

AC BATT +EF -EF

BATT +

1 2

TROUBLES

BATT -

TB3

P3

P4

JP2

JP3

APS-6R to MPS-24B.cdr

Figure 12 Wiring to MPS-24B

ADT-APS-6R Instruction PN 50935:B 7/21/00

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ADTAPS-6R__INSTENGLB0.fm Page 20 Tuesday, November 21, 2000 11:30 AM

Appendix A - Unimode 4-16 Connecting the ADT-APS-6R to an MPS-24B

NOTES

20

ADT-APS-6R Instruction PN 50935:B 7/21/00

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Appendix B - Unimode 300/400

Connecting the ADT-APS-6R to an MPS-400

Make the following connections as shown in the figure below.

• Connect primary power from TB1 to MPS-400 terminal block TB1

(

and

NEU

• Connect secondary power from TB3 to MPS-400 terminal block

TB1 (+ and –)

• Connect trouble input from J3 to MPS-400 terminal block J4

HOT

)

POWER INPUT-12 0V,60 Hz, and24 V BATT

NEUTRAL

J9

JP3JP2

J1

J2

TB2

J3

TB1

ToTransformer AssemblyT2

ToTransformer Assembly T1

J6

CPUPOWER

J1

ACCESSORIES

J2

EARTH HOT BATT+ BATT-

AFP-400CONNECTOR

TB3

TB2

+-+-+-

SUPERVISORY

TB4

JP2 S2

SECUR ITY

TB5

TB7

B+ B- A+ A- B+ B- A+ A-

TB6

TB8

TB9

TB10

S2

APS-6R to MPS-400.cdr

Figure 13 Wiring to MPS-400

ADT-APS-6R Instruction PN 50935:B 7/21/00

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Appendix B - Unimode 300/400 Connecting the ADT-APS-6R to an MPS-400

NOTES

22

ADT-APS-6R Instruction PN 50935:B 7/21/00

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Appendix C - Unimode II & Unimode 2020

Connecting the ADT-APS-6R to an MPS-24A

Make the following connections as shown in the figure below.

• Connect primary power from TB1 to MPS-24A terminal block

TB1, Pin 5(

• Connect secondary power from TB3 to MPS-24A terminal block

TB2, Pin 1(+) and Pin 2(–)

• Connect trouble input from J3 to MPS-24A terminal block P5

J9

J1

J2

TB2

J3

NEUT

) and Pin 7(

EARTH GND AC NEUT RAL AC HOT

TB1

HOT

)

POWER LIM ITED

BAT + BAT -

TB2

+24R CO MMON +24 COMMON

F1CB1

P3

JP5

P2

P5

P4

R27

JP3JP2

APS-6R to MPS-24A.cdr

Figure 14 Wiring to MPS-24A

ADT-APS-6R Instruction PN 50935:B 7/21/00

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Appendix C - Unimode II & Unimode 2020 Connecting the ADT-APS-6R to an MPS-24B

Connecting the ADT-APS-6R to an MPS-24B

Make the following connections as shown in the figure below.

• Connect primary power from TB1 to MPS-24B terminal block

TB1, Pin 3(

• Connect secondary power from TB3 to MPS-24B terminal block

TB3, Pin 1(+) and Pin 2(–)

• Connect trouble input from J3 to MPS-24B terminal block P4

J9

J1

J2

TB2

J3

NEUT

) and Pin 4(

EARTH

TB1

CB1

P1

7

5

3
2
1

MPS-24BPCC
REV ___

HOT

AC NEUT

2 3 4

)

COMMON

1 2 3 4 6 7 8

P2

+24 VRESET

TB2

AC HO T

R55

+24 VPOWER

1 2 3 4

JP3

COMMON

AC BATT +EF -EF

BATT +

1 2

TROUBLES

BATT -

TB3

P3

P4

JP2

JP3

APS-6R to MPS-24B.cdr

Figure 15 Wiring to MPS-24B

24

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Index

Index

Numerics

16-hour delay
240 VAC

operation
use of

8-hour delay

16
16

10, 11

16

A

AC protection
ADT-CAB-3 Series cabinet
ADT-CAB-400AA
ADT-UZC-256

17

10

12

B

backbox
Battery protection

10

17

C

13

cable

11

chassis

mounting
CHS-4
CHS-4L
configuring
connections

MPS-24A

MPS-24B

MPS-24BPCA

MPS-400
Control Modules

11

11

11

16

23

24

19

21

5

D

document sources, list of

5

E

Earth Ground
Electrical Specifications

12

7

F

features of the APS-6R
field wiring
fuses

12

17

6

11

I

ICM/ICE-4

Installation topics
internal modules

12, 14

connections to

12

14

9

J

J1 connection
J2 connection
J3 connection
J4 connection
J9 connection
JP1 jumper
JP2 jumper
JP3 jumper
jumpers, location of

12
12
13
13

12
10, 11, 16
16
16

16

M

M300CADT Module, connections to
Mechanical Specifications
MPS-24A
MPS-24B
MPS-400
multiple power supplies

23
19, 24

21

7

13

N

NAC Modules

14

NACs
Non Power-limited circuit

5

12

O

Output Circuit

Non Power-limited
Power-limited

12

12

P

PC board, vert i cal
Power-limited circuit
Primary Power
primary power

17

12

12

19, 21, 23, 24

15

H

High Voltage Warning

ADT-APS-6R Instruction PN 50935:B 7/21/00

9

25

ADTAPS-6R__INSTENGLB0IX.fm Page 26 Tuesday, November 21, 2000 12:57 PM

Index

S

Secondary Power
secondary power
serviceable components
Specifications
standoff

10, 11

12

19, 21, 23, 24

17

7

T

12

TB2
terminal block cover
Trouble Bus
trouble connectors
trouble input

12

19, 21, 23, 24

12

13

U

Unimode 300/400
Unimode 4-16
Unimode II
Unimode2020

21

19

23

23

W

Warning, High Voltage

12

wiring

9

X

XP Transponder

12

XPC-8

5

26

ADT-APS-6R Instruction PN 50935:B 7/21/00