EST EST3 v4.0 Installation Sheets

EST3

Installation Sheets

P/N 3100051 • Rev 4.0 • 11DEC01

Technical Manuals Online! - http://www.tech-man.com

DEVELOPED BY

COPYRIGHT NOTICE

TRADEMARKS

CREDITS

Edwards Systems Technology

6411 Parkland Drive

Sarasota, FL 34243

(941) 739-4300

Copyright © 2000–2001. All rights reserved.

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 EST. If you distribute any information contained in this manual to unauthorized persons, you have violated all distributor agreements and we may take legal action.

Microsoft, Microsoft Mouse, and Windows are all trademarks of

Microsoft Corporation.

This manual was designed and written by the EST Technical

Services - Documentation Department, Sarasota.

DOCUMENT HISTORY

Date Revision

27APR00

30AUG01

01NOV01

1.0

2.0

3.0

11DEC01 4.0

Reason for change

Initial release

Add GFD, MODCOM, and 3-NSHM(1) installation sheets.

Add 24DC12, 3-SAC, ATCK, CRC, CRCRL, CRCSND, KPDISP,

SIGA-MD, and SIGA-SEC installation sheets.

Correct titles in Content to match installation sheet titles


Content

Installation sheet title

24DC12 12 Vdc Voltage Regulator with Security Bell Interface

3-AADC Addressable Analog Driver Controller

3-ANNCPU1 Annunciator Controller Module

3-ANNSM Annunciator Support Module

3-ASU Audio Source Unit

3-ASU/FT Audio Source Unit with Firefighter's Telephone (3-FTCU)

3-ATPINT ATP Interface

3-BATBKT Battery Bracket

3-BATS Battery Shelf

3-BTSEN Battery Distribution Bus

3-CAB Series Equipment Enclosure Backboxes

3-CAB Series Equipment Enclosure Doors

3-CAB-E Series Equipment Enclosure Doors

3-CAB5 / 3-CAB5R

3-CHAS7 Seven Local Rail Module Chassis

3-CPU1 Central Processor Module & 3-LCD Main LCD Display for 3-CPU1

3-FIB/3-FIBA Fiber Optic Communications Interface Module

3-IDC8/4 Traditional Zone I/O Module

3-LDSM LED Display Support Local Rail Module

3-MODCOM, 3-MODCOMP Modem Communicator

3-NSHM1(2) Network Short Haul Modem

3-OPS Off Premise Signal Module

3-PPS/M (3-PPS/M-230) Primary power supplies, 3-BPS/M (3-BPS/M-230)

Booster power supplies

387596

270494

270495

3-PPS/M-230-E Primary power supplies, 3-BPS/M-230-E Booster power supplies 387555

3-RCC Series Remote Closet Cabinets 270486

3-RCC-E Series Remote Closet Cabinets

3-REMICA Remote Microphone

387551

387466

3-REMICP Remote Microphone

3-RLCM/D, 3-6ANN/D, and 3-10ANN/D Remote Annunciator Cabinet Doors

387519

387310

387549

270487

270484

387465

387333

270492

270485

387476

P/N

3100284

387332

387464

387312

270482

270481

387284

387556

387338

387337

387557

270488

EST3 Installation Sheets


i

Content

Installation sheet title

3-RLCM/D-E, 3-6ANN/D-E, and 3-10ANN/D-E Remote Annunciator Cabinet

Doors

3-RS485(A/B/R) Network communications card, 3-RS232 Ancillary communications card

3-SAC Security Access Control Module

3-SSDC, 3-SDDC Signature Controller Modules and 3-SDC Signature Data

Circuit card

3-TAMP, 3-TAMP5, 3-TAMPRCC Cabinet Tamper Switches

3-ZA20A, 3-ZA20B, 3-ZA40A, 3-ZA40B Zoned Audio Amplifiers

3-ZA90 Zoned Audio Amplifier

6ANN/B(-S) and 10ANN/B(-S) Remote Annunciator Cabinet Wallboxes

ATCK Attack Kit for RCC7R Cabinet

Control/LED Displays

CRC and CRCXM Card Reader Controller

CRCRL CRC Accessory Relay

CRCSND CRC Sounder

GFD Ground Fault Detector

IOP3A Isolator RS-232 Card

KPDISP Keypad Display

RLCM/B(-S) Remote Annunciator Cabinet Wallbox

SIGA-AA30/SIGA-AA50 Audio Amplifiers

SIGA-APS (-220) Auxiliary Power Supply Module

SIGA-MD(S) Motion Detector

SIGA-SEC2 Security Loop Module

P/N

387553

270489

387624

270491

387422

387463

387516

387586

3100142

270493

387625

3100294

3100033

387630

270758

3100054

387559

387343

387342

387633

387632 ii



Content

Introduction

About this manual

This manual contains copies of the EST3 installation sheets. The sheets are arranged in alphabetical order by title. The part number listed in Content is the installation sheet part number.

The EST3 library

A library of documents and multi-media presentations supports the EST3 life safety system. A brief description of each is provided below.

EST3 Installation and Service Manual (P/N 270380): Provides complete information on how to install and service the EST3 hardware. The manual also includes installation information on selected Signature Series components.

EST3 Installation Sheets (P/N 3100051): Is a convenient package of all EST3 component installation sheets. This manual shows you the jumper settings and terminal connections for each component.

SDU Online Help (P/N 180653): Provides full online support for configuring and programming a system using the EST3 System

Definition Utility program.

EST3 System Operation Manual (P/N 270382): Provides detailed information on how to operate the system and system components.

EST3 International Installation Supplement Manual (P/N

270925): Provides information specific to systems installed outside the United States and Canada.

EST3 Smoke Management Application Manual (P/N 270913):

Provides information for designing, programming, and testing an

EST3 smoke control system.

EST3 Users Self-Study Course (P/N 270684): Contains a selfpaced manual and accompanying video. The course is designed for building personal, security guards, firefighters, and other individuals that may be required to operate the system.

Other documents

In addition to documents in the EST3 library, you may find the following documents useful.

Signature Series Intelligent Smoke and Heat Detectors

Applications Bulletin (P/N 270145): This manual provides additional applications information on the Signature series smoke and heat detector applications.



iii

Content

Signature Series Component Installation Manual (P/N 270497):

This manual provides detailed mounting and wiring information for all Signature series devices.

Speaker Application Guide (P/N 85000-0033): This manual provides information on the placement and layout of speakers for fire alarm signaling and emergency voice communications.

Strobe Applications Guide (P/N 85000-0049): This manual provides information on the placement and layout of strobes for fire alarm signaling.

iv



24DC12

12 Vdc Voltage Regulator with Security Bell Interface

Product description

16 15 14 13

EOLR

24 Vdc

OUT IN

+ +

8 7 6 5

The 24DC12 module provides two basic functions. First, it reduces a 24 Vdc input to 12 Vdc for a Grade A local burglar alarm bell or a 12 Vdc security/access device such as dual tech motion detectors or a stacked photoelectric beam.

Second, it ground isolates the system initiating device circuit from the outer enclosure of the Grade A local burglar alarm bell, which is usually connected to earth ground.

The 24DC12 is also listed for fire applications such as powering 12 Vdc accessory devices, relays, etc.

The 24DC12 provides up to one amp of 12 Vdc to security devices.

Specifications

Housing: White, high impact polymer

Power input ratings (T6-T5)

Voltage: 21 to 26 Vdc

Current: 20 mA

NAC input ratings (T13-T14)

Voltage: 21 to 26 Vdc

Current (1.0 A @ 12 Vdc): 0.7 A

Current (0.5 A @ 12 Vdc): 0.35 A

12 Vdc output rating (T11-T12)

Voltage: 12 Vdc

Current: 1.0 A @ 0.6 power factor

Relay (T1-T4)

Voltage: 24 Vdc

Current: 1.0 A (resistive)

Wire size: 12 to 22 AWG (2.5 to 0.25 sq mm)

Mounting: Mount in an EST3 control panel enclosure using a

SIGA-MP series mounting plate. The enclosure must be equipped with a tamper switch. If you are using it to power a Grade A bell, it must be mounted in the ATCK attack enclosure with the 3-TAMPRCC tamper switch.

Operating environment

Temperature: 32 °F (0 °C) to 120 °F (49 °C)

Humidity: 93% RH, noncondensing

Device support

Bell: 1

Tamper switches: 1 alarm housing - inner and outer housing

Access control: Models 339-E1, 681-B1, 875-E1 manufactured by Edwards or equivalent manufacturer

Installation Sheet

+

12 11 10 9

+

4.7K EOLR

Relay

NC C C NO

4 3 2 1

Installation instructions

To install the 24DC12:

1.

Make wiring connections as shown in the wiring diagrams.

2.

Mount the 24DC12 to a SIGA-MP series mounting plate in an EST3 enclosure.

3.

Install a tamper switch to the EST3 enclosure.

Note: If you are using the 24DC12 to power a Grade A bell, it must be installed in the ATCK attack enclosure. The ATCK must be equipped with the 3-TAMPRCC tamper switch.

Wiring diagrams

Connection to 12 Vdc powered devices

NAC input

From

24 Vdc

+

-

[1]

-

+

16 15 14 13 12 11 10 9

24DC12

8 7 6 5 4 3 2 1

Power input

From

24 Vdc

+

-

[1]

EOLR

+

-

To 12 Vdc security device

C

NO

NC

OPTIONAL: Loop connection if security device is not ground isolated.

To security alarm initiating device circuit

Connection to Grade A local bell

Must be in rigid conduit or electrical metallic tubing. If flexible conduit is used, it must be entirely concealed within the walls or above the ceiling of the premises.

From notification output on IDC8/4

NAC +

NAC -

NAC input [1]

EOLR

-

+

4.7K

EOL

Grade A local bell

(Ademco Model AB12M or equivalent)

5

6

3

4

1

2

+

-

12V

Bell

Tamper switches

Outer housing

Inner housing

16 15 14 13 12 11 10 9

24DC12

8 7 6 5 4 3 2 1

Power input

24 Vdc IN

+

-

[1]

EOLR

- 24 Vdc OUT

+ to next device

To tamper initiating device circuit

(IDC8/4 input,

SIGA-SEC2)

[1] From listed power limited source.

26OCT01 P/N: 3100284 REV: 1.0

1 / 1


PRODUCT INFORMATION

The 3-AADC A ddressable A nalog Driver Controller module provides one Class A or Class B loop. The loop may contain up to 99 addressable analog sensors and

99 addressable analog modules.

The 3-AADC requires one connection on the rail chassis and is secured to the rail assembly using snap rivet fasteners.

The module features a hinged front panel for mounting displays or a blank protective faceplate.

All field wiring connections to the 3-AADC are made via plug-in connectors that permit termination of field wiring without the module installed in the enclosure. The plugin connectors and snap rivet mounting also facilitate rapid troubleshooting without the use of tools.

SPECIFICATIONS

Installation:

Module Configuration:

Wire Size:

Termination:

Removable plug-in terminal strips on module

Operating Environment

Temperature: 32 - 120 °F (0 - 49 °C)

Humidity:

Circuit Configuration:

1 LRM space on rail chassis

1 addressable analog circuit

2

12 AWG (1.5 mm ) maximum

18 AWG (0.75

2 mm ) minimum

Circuit Capacity:

Circuit Resistance:

Circuit Capacitance:

Current Requirements

93% RH, non-condensing

Class B (Style 4)

Class A (Style 6)

99 addressable analog sensors and

99 addressable analog

50

W

, max.

m modules

Standby:

Alarm:

Isolators

:

175 mA

205 mA

6, max.

25 devices between isolators, max.

PRODUCT DIAGRAM WARNINGS

This product contains components that are sensitive to static electricity. Failure to follow proper handling procedures may result in equipment damage.

Rail modules may not be plugged into the rail chassis assembly while voltages are present on the rail. Failure to de-energize the panel before plugging in the rail module may result in equipment damage.

Do not flex the filter card or exert excessive pressure on the field wiring connectors when installing the filter card.

Do not connect field wiring or connect/disconnect the terminal block without supporting the back edge of the filter card to avoid flexing the filter card.

B B

LOOP1

S

H

A A

LOOP1

N/C B B

LOOP1

N/C

Filter card

Line interface module

Controller module

INSTALLATION INSTRUCTIONS

1. Connect the LIM card to CIRCUIT 1 on the back side of the rail module assembly. See Figure-1 on reverse side.

2. If a control/display module is required install it at this time. Refer to the instructions provided with the control/display module.

3. Carefully plug in the filter board into the connector on the rail module and install the module on the rail.

4. Before connecting the field wiring, test the field wiring for opens or shorts. When a circuit checks out properly, connect it to the appropriate terminals as shown in the diagram on the next page.

INSTALLATION SHEET

3-AADC Addressable Analog

Driver Controller

INSTALLATION SHEET P/N: 387332

REVISION LEVEL: 2.0

DATE: 08DEC99

FILE NAME: 387332.CDR

APPROVED BY: D. Becker

CREATED BY: G. Sutton

EDWARDS SYSTEMS TECHNOLOGY, INC.

SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075

OWEN SOUND, CANADA: 519-376-2430 FAX 519-376-7258

INTERNATIONAL, CANADA: 905-270-1711 FAX 905-270-9553


WIRING DIAGRAM

Required for Class A only

3

B B

LOOP1

Circuit 1

S

H

A A

LOOP1

N/C B B N/C

LOOP1

3-AADC

Notes

1. All wiring supervised and power-limited.

2. Refer to device installation sheets for specific wiring instructions.

3 Shield, if used, must be continuous and free from earth ground.

INSTALLATION INSTRUCTIONS (CONT.)

Press here to connect filter card to the rail module

Support filter card here when installing removable terminal block

Snap Rivet Installation

Figure-1: Filter card and LIM card installation

P/N: 387332 REV: 2.0 Page 2 of 2



The 3-ANNCPU1 Annunciator Controller module is the control element for all the LCD and LED/Switch displays in an enclosure. The 3-ANNCPU1 processes all control information from switches on the displays installed within the cabinet as well as processing the data received from the network for display. The 3-ANNCPU1 contains 1MB of RAM.

An internal calendar and clock with leap year function provides date/time event stamping and initiates timed events. The controller automatically identifies and supervises all modules installed in the annunciator, and has an integral watchdog to identify both hardware and software faults.

The 3-ANNCPU1 communicates with other 3-

ANNCPU1s and 3-CPU1 Central Processors on the network over a Class A or B RS-485 network data circuit. The controller functions as the local bus master and supervises all bus traffic between modules in the cabinet.

The 3-ANNCPU1 module requires two spaces at the leftmost position of the enclosure. The controller is secured to the inner door by two retainer brackets. All field wiring connections to the 3-ANNCPU1 module are made via a plug-in connector, permitting termination of field wiring without the equipment installed in the enclosure. All external connections are power- limited and transient protected. The plug-in connector facilitates rapid remove and replace troubleshooting without the use of tools.

Note: 3-CPU Boot and Application Code must be version 1.33 or greater.

CENTRAL PROCESSOR WIRING

Ground Lead

P/N 250163

24 VDC

1 2 3 4 5 6 7 8 9 10

To TB1 on 3-ANNCPU1

5

4

Ferrite Clamp

(supplied)

TX RX

RX TX

TX RX

RX TX

TX RX

RX TX

TX RX

RX TX

NOTES:

1. All wiring, except earth ground, is supervised.

2. All wiring is power-limited.

3. 24 VDC available from Primary or Booster Power supply.

4. Install ferrite clamp around

24VDC power wiring, close to the enclosure wall.

5. Make sure daughter board connections are secure and were not loosened during shipment.

J5

To Backbox

3-ANNCPU1

SPECIFICATIONS

Space Required

Display (optional)

2 spaces in enclosure

3-LCD Display mounts on front

Message Capacity

Message Queue

Event History Log

500 Events per queue

1,000 to 1,700 Events, depending on event type

Network Com Port

RS-485 Isolated, Class B or Class A

Max. length 5,000 ft (1,524 m) between any three panels

90

W

Max.Resistance

Max.Capacitance

Wiring type 1 twisted pair, 18 AWG

2

12 AWG (2.5 mm ) max.

Power Requirements

Voltage 24 Vdc

Standby Current

Alarm Current

171 mA @ 24 Vdc

195 mA @ 24 Vdc

Termination Plug-in terminal strip


Temperature 32 °F to 120 °F (0 °C to 49°C)

Humidity 93% RH, non-condensing


RX1

TX1

RX2

TX2

RX3

TX3

J1

INSTALLATION SHEET:

3-ANNCPU1

Annunciator Controller Module


REVISION LEVEL: 1.0

DATE: 05/05/98


APPROVED BY: SM

CREATED BY: GS

A UNIT OF GENERAL SIGNAL

GS BUILDING SYSTEMS

CORPORATION

GS BUILDING SYSTEMS CORPORATION

6411 Parkland Drive

Sarasota, FL 34243

625 6th Street East

Owen Sound, ON, Canada

INSTALLATION

To install in remote annunciator cabinet enclosure:

1. Remove the top module retainer bracket (see figure below).

2. Loosen the bottom module retainer bracket.

3. Insert the bottom of the 3-ANNCPU1 into the bottom module retainer bracket.

4. Tilt the 3-ANNCPU1 forward until the top touches the inner door.

Observe static sensitive material handling practices.

5. Tighten the bottom module retainer bracket.

6. Secure the top module retainer bracket to the inner door.

7. Connect cable assembly from P3 on the 3-ANNCPU1 to J2 on the adjacent annunciator strip.

TX RX

RX TX

TX RX

RX TX

TX RX

RX TX

TX RX

RX TX

J3 J2 J3 J2 J3 J2 J3 J2

3-ANNCPU1

P3

To install in 3-EVPWRA:

1. Remove one module retainer bracket and loosen the other (see figure below).

2. Connect cable assembly 360136 (supplied with 3-EVPWRA) to J5 on the 3-ANNCPU1.

3. Remove the 4 locking tabs on the 3-ANNCPU1.

4. Place the 3-ANNCPU1 between the module retainer brackets.

5. Tighten module retainer brackets on both ends.

6. Connect cable assembly 360136 to 3-EVPWR connector J6.

7. Connect cable assembly 46050-1878 (supplied with 3-EVPWRA) from P3 on the 3-ANNCPU1 to P1 on the 3-EVPWR.

J5

TB1

10

9

8

7

6

5

4

3

2

1

GND

+24V

GND

+24V

EGND

B-

B+

A-

A+

3-ANNCPU1

P3

3-EVPWRA

360136

24V + + -

J6

J5

P1

J2

A IN

46050-1878



The 3-ANNSM Annunciator Support Module provides the electronics required to operate the LED/Switch displays.

The support modules are connected to the 3-ANNCPU by ribbon cables. The 3-ANNSM supports the following

LED/Switch displays:

2-24R

3-12SR

3-12/S1RY

3-6/3S1G2Y

3-24Y

3-12SY

3-12/S1GY

3-6/3S1GYR

3-24G

3-12SG

3-12/S2Y

SPECIFICATIONS

Installation 1 space

Current Requirements

Standby

Alarm

(does NOT include LED/Switch display)

10 mA @ 24 VDC

10 mA @ 24 VDC

Operating Environment

Temperature

Humidity

32°F (0°C) to 120°F (40°C)

93%RH, non-condensing

INSTALLATION

1. Fill out and install a label in each LED/Switch display

(step 1.)

1

2

2. Mount the display on the 3-ANNSM module (step 2.)

3. Connect the display ribbon cable (P/N 250186) from connector J1 on the display to connector J1 on the module (step 3.)

4. Install the module in the inner door of the enclosure

(Figure 2.)

1

Insert

ID label

Installation

2

Mount

Display

W

D

ES

T

3R

NO

D

RT

FL

H

3R

SO

D

3R

EA

D

ST

FL

FL

H

W

D

ES

2N

NO

D

RT

FL

H

2N

SO

D

2N

D

EA

ST

FL

FL

H

1S

NO

T

RT

H

1S

SO

1S

T

T

UT

EA

ST

FL

H

W

T

3

4

TX RX

RX TX

TX RX

RX TX

TX RX

RX TX

TX RX

RX TX

3-ANNSM 3-ANNSM 3-ANNSM 3-ANNSM

3-ANNCPU

J3 J2 J3 J2 J3 J2 J3 J2 P3

5

6

Figure 2

Installing the 3-ANNSM on the Inner Door

1. Install the lower module retainer bracket (5) on the inner door (6) using the nuts (2) provided. Do not tighten the nuts at this time.

3

Connect

Ribbon

Cable

2. Place the 3-ANNSM modules in the lower retainer bracket (5) next to the 3-ANNCPU. Install 3-ANNBF blank filler plates in any unused space.

3. Install the top module retainer bracket (1) on the top of the inner door with the nuts (2) provided. Tighten the nuts on both the top and bottom brackets.

Ribbon Cable

P/N 250186

Faceplate connector on module

4. Install the ribbon cables (4) between modules from P3 on the 3-ANNCPU to J2 on the first 3-ANNSM. Connect the ribbon cables from J3 of the first module to J2 of the next support module until all modules are connected by a ribbon cable.

Verify all pins mate with connector

Connector pins on rear of faceplate

INSTALLATION SHEET:

3-ANNSM

Annunciator Support Module

Figure 1

Mounting the LED/Switch Display



REVISION LEVEL: 2.0


DATE: 04/06/99

CREATED BY: D. Miner




SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075





The 3-ASU Audio Source is the primary audio component of the fire command center. The 3-ASU provides the master paging microphone, audio signal database, and the digital message unit. The 3-ASU is the source of all audio signals distributed by the network. Audio sources include local and remote voice paging, firefighter's telephone paging, and an auxiliary audio input for non-emergency paging, etc. The 3-ASU features an integral digital voice message playback unit that can simultaneously provide up to 8 different audio signals. An integral audio signal database is provided for the evacuation, alert and other functions.

Onboard memory is adequate for a total of 2 minutes of messages. With the optional memory installed, up to 32 minutes of messages can be stored. The audio source unit is comprised of the audio source electronics package mounted in a chassis assembly and a cover assembly. The 3-

ASU has room to install an optional 4-space rail assembly, model 3-

CHAS4 or 3-FTCU Firefighter's Telephone Control Unit.

The 3-ASU converts and compresses the real-time audio signals to a digital format. The eight digital signals are then combined together as a single digital multiplex signal and distributed throughout the network. An integral signal database may be configured with a wide selection of tones and messages: steady, 3-3-3, electronic bell, 120 beats-per-minute, and slow whoop. All tones are stored as digital signals within the 3-ASU. The internal digital message/signal unit can simultanously play back up to eight signals, as required by the system designer.

COVER INSTALLATION

3-RCIC Rail Chassis Interface Card

3-ASU Audio Source Unit Cover Assembly


Controller Board

SPECIFICATIONS

Cabinet Installation

One chassis space

19" Rack Installation Dimensions

12.0" x 19.0" x 5.25" (30.48 cm x 48.26 cm x 13.34 cm)

Options

3-ASUMX Expansion Memory

3-FTCU Firefighter's Telephone Control Unit

3-CHAS4 Four LRM rail assembly

Audio Channels

8 simultaneous

Audio Inputs

Local microphone (isolated & supervised)

Remote microphone (isolated & supervised)

Firefighter's telephone (isolated & supervised)

4 aux. signal sources (isolated & supervised)

Prerecorded Message Storage

2 minutes standard, expandable to 32 minutes storage with

3-ASUMX/32 memory card

Auxiliary Input

Input Impedance

Input Level

1K

W

0.1V

RMS to 1.0 V

RMS

Frequency Response 100Hz to 4KHz

Network Audio Riser

Configuration

Format

Circuit Length

Circuit Resistance

Class A/B

RS-485

5000Ft. (1524 M) max. between any 3 panels

90

W max.

Circuit Capacitance

Wire Type

Panel Indicators

All call LED

All call minus LED

Page by phone LED

Page EVAC LED

Page alert LED

RJ45 jack

Plug-in terminal strip on 3-ASU

Plug-in terminal strip on 3-ASU

2

1-2 pair twisted 18 AWG (0.75 mm ) min.

Operator Controls

Local microphone push-to-talk (PTT) switch

All call

All call minus

Page by phone

Page to alert

Page to EVAC

Communications Format

RS-485

Termination

Message Download

Remote Microphone

Auxiliary Inputs

INSTALLATION SHEET

READY TO

PAGE

ALL CALL

PAGE TO

EVAC

PAGE TO

ALERT

ALL CALL

MINUS

PAGE BY

PHONE

3-ASU

3-ASU

Audio Source Unit

J2 J3 J4

AIN

AOUT

J5

CIN

J6

DIN

J7

BOUT

J9

J8

J10

J11

J1

COUT DOUT

J8

J8

J11

J10

[3ASU-C4.CDR]


REVISION LEVEL: 2.0

DATE: 6/14/99





SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075




INSTALLATION

1. To install the optional rail assembly, mount the left side bracket of the rail assembly on the #6-32 chassis studs indicated in the drawing. Secure the right ends of rails to the right side of the 3-ASU chassis assembly using the four self-tapping screws provided. Secure the right ends of the rails to the right side of the 3-ASU chassis assembly using the four self-tapping screws provided.

2. Mount the chassis assembly on the six #6-32 studs at rear of the cabinet. Secure the chassis to the cabinet with the washers and nuts provided.

3. Mount the Rail Chassis Interface card on the studs at the right side of the chassis. Connect the power and data cables from the Rail Chassis Interface card to the previous and next chassis.

4. Mount the 3-ASU controller board on the six spacers on the left side of the chassis as shown on the figure below. Run ribbon cable (P/N 250195-01) from connector J2 on the 3-ASU controller board to connector J1 on the Rail Chassis Interface card.

5. Terminate the field wiring on TB1. Refer to the Wiring section on the next page.

6. Run ribbon cable (P/N 250194-00) from connector J3 on the 3-ASU controller board to connector J1 on the 3-ASU control board mounted in the Audio

Source Unit cover assembly.

7. Install the 3-ASU cover assembly over the controller board and secure it with 4 nuts and washers.

AUDIO DATA

PRIMARY

SECONDARY TELEPHONE

PAGE

OUT

REMOTE MIC

KEY AUDIO AUX

1 14

J1

TR RX TX

AUDIO DATA

PRIMARY SECONDARY TELEPHONE

PAGE

OUT

REMOTE MIC

KEY AUDIO AUX

RX TX

1 14

TB1

Upload / Download

Port

Auxiliary Input

Gain Adjust

J2

3-ASU

AUDIO SOURCE UNIT

Write protect

Switch

J3

To 3-ASUdisplay

3-ASUMX

EXPANSION

MEMORY

Ribbon cable

P/N 250195-01

3-CHAS4 FOUR MODULE

RAIL ASSEMBLY

J2 J3

J4

AIN

AOUT

J5

CIN

J6

DIN

J7

BOUT

J9

J8

J10

J11

J1

RAIL

CHASSIS

INTERFACE

CARD

COUT DOUT

J8

J8

J11

J10

J4

P/N: 270482 REV: 2.0 Page 2 of 4


Class B

Class B

Network Audio

Riser

Network Data

Riser

To terminals 14/13 for single cabinet non-networked applications

J1 to J9 removed

(J9 on daughter board)

NOTE:

Separate SAN cabinet required when using SAN-MIC II

WIRING

NOTES

1.

All wiring is supervised and power limited.

2.

All shields shall be continuous and insulated from ground, except at the originating panel.

To next panel

3-CPU1 Module

3-CPU1 PANEL CONTROLLER

Connect to TB2 on 3-CPU Module

A

+

NETWORK

OUT

IN

-

A B

+

B

+

AUDIO

A IN

-

AUDIO

A OUT

+ +

AUDIO

B IN

-

AUDIO

B OUT

+ -

R

X

1

T

X

1

R

T

S

1

C

O

M

1

R

X

2

T

X

2

R

T

S

2

C

O

M

2

SAN-MIC II REMOTE

MICROPHONE

ACTIVATE

ALARM

SILENCE

STEADY WHOOP

SELECT

AUX INPUT

SELECT

STEADY TONE

SELECT

TROUBLE

SPEAKER

ACTIVATE

AUDIO OUTPUT

J1

J2

AUX AUDIO

INPUT

J3

J5

J7

24 VDC

+

-

J4

J6

J8

TO 24 VDC

3-ASU set for AC supervision

To auxiliary audio source

AUDIO DATA

PRIMARY

SECONDARY TELEPHONE

PAGE

OUT

REMOTE MIC

KEY AUDIO AUX

1

14

J1

TR RX TX

AUDIO DATA

PRIMARY

SECONDARY TELEPHONE

PAGE

OUT

REMOTE MIC

KEY AUDIO AUX

RX TX

1

TB1

14

3-ASU


P/N: 270482 REV: 2.0 Page 3 of 4


DOWNLOAD WIRING

The figure below indicates the wiring between the 3-ASU and the PC running the System Definition Utility program. This cable is used whenever downloading information into the 3-ASU. Refer to the Programming Manual for complete downloading information.

1 2 3 4 5 6

3-CPU1 Panel Controller Connector J5

OR

3-ASU Audio Source Unit Connector J1

OR

Signature Data Controller

Connector J3

NOTE:

Pins 1 and 6 are NOT used.

2 3 4 5

PIN 1

2 3 4

7

PIN 9

TO PC SERIAL PORT

YELLOW

GREEN

RED

BLACK

OR

PIN 1

PIN 14

2 3 4

PIN 13

20

PIN 25

TO PC SERIAL PORT

YELLOW

GREEN

RED

BLACK

YELLOW

GREEN

RED

BLACK

P/N: 270482 REV: 2.0 Page 4 of 4


SPECIFICATIONS PRODUCT INFORMATION

Cabinet Installation

One chassis space

19" Rack Installation Dimensions

12.0" x 19.0" x 5.25" (30.48 cm x 48.26 cm x 13.34 cm)

Options

3-ASUMX/32 Memory, 32 minutes of messages

Audio Channels

8 simultaneous

Audio Inputs

*Page - Local microphone (isolated & supervised)

*Page - Remote microphone (isolated & supervised)

*Page - Firefighter's telephone (isolated & supervised)

*Auxiliary (unsupervised)

* = Page and Auxiliary inputs are "live" signals.

Prerecorded Message Storage

2 minutes standard, expandable to 32 minutes

Auxiliary Input

Input Impedance

Input Level

Frequency Response

1 K

W

0.1 VRMS to 1.0 VRMS

100 Hz to 4 KHz

Remote Microphone

3-REMICP or 3-REMICA

Network Audio Riser

Configuration

Format

Class A/B

RS-485

Circuit Length 5,000 Ft. (1524 M) max. between

Circuit Resistance any 3 panels

90

W

, max.

Circuit Capacitance .09 F, max.

Wire Type

2

1-2 pair twisted 18 AWG (0.75 mm ) min.

Telephone Riser

EOL Resistor 15 K

W

Active Telephones 5 max.

Wire Type 1-2 pair twisted-shielded,

2

18 AWG (0.75 mm ) min.

Configuration Class A/B

Panel Indicators

All call LED

All call minus LED

Page by phone LED

Page to EVAC LED

Page to alert LED

Page volume level

8 line LCD display shows calls waiting/connected

Call-in buzzer

Operator Controls

Local microphone push-to-talk (PTT) switch

Master Telephone Handset (supervised)

All call

All call minus

Page by phone

Page to alert

Page to EVAC

Review Pending switch

Connect switch

Review Connected switch

Disconnect switch

Acknowledge (buzzer silence) switch

Termination

Message Download

Remote Microphone

Firefighter's Telephone

Auxiliary Inputs

RJ45 jack

Terminal strip on 3-ASU

Terminal strip on 3-FTCU

Terminal strip on 3-ASU

The Audio Source Unit with Firefighter's Telephone (3-

ASU/FT) is comprised of the 3-ASU Audio Source Unit and the

3-FTCU Firefighter's Telephone Control Unit mounted on a common chassis. The Firefighter's Telephone option in conjunction with the audio source unit provides the main telephone riser. The 3-ASU/FT has provisions to use the telephone circuit as an audio source for paging purposes. The telephone circuit requires a separate hardwired riser and is not multiplexed over the network audio riser. The riser is supervised by the 3-ASU/FT. The 3-ASU/FT requires one chassis space within an enclosure.

The 3-ASU/FT features an 8-line LCD display to show the user the identity of up to 20 waiting calls and connected calls. To answer a call, the operator scrolls the display cursor over the waiting call's ID message and presses the connect switch. This connects the caller and automatically transfers the caller's ID message to the connected list. To end a call, the operator scrolls the display cursor over the connected caller's ID message and presses the disconnect switch. This disconnects the caller and automatically transfers the caller's ID message to the waiting call list, until the caller hangs up, when the ID message is removed.

3-ASU/FT

INSTALLATION SHEET:

3-ASU/FT

Audio Source Unit with

Firefighter's Telephone (3-FTCU)


REVISION LEVEL: 2.0

DATE: 01/10/00

Operating temperature

32°F to 120°F (0°C to 49°C)




SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075





REVISED BY: D. Miner

INSTALLATION

1.

2.

3.

4.

Mount the chassis assembly on the six #6-32 studs at rear of cabinet. Secure the chassis to cabinet with washers and nuts provided.

Mount the Rail Expansion card on the studs at the right side of the chassis. Connect the power and data cables from the Rail Expansion card to the previous and next chassis.

Mount the 3-FTCU telephone controller on the six spacers on the right side of the chassis as shown in the figure below. Run ribbon cable (P/N 250195-

00) from connector J2 on the 3-FTCU controller board to connector J1 on the Rail Expansion card.

Mount the 3-ASU controller board on the six spacers on the left side of the chassis as shown below. Run ribbon cable (P/N 250195-00) from connector

J2 on the 3-ASU controller board to connector J1 on the 3-FTCU telephone controller board.

5.

6.

7.

Install the 3-ASUMX Expansion Memory board, if used, in connector J4 of the 3-ASU controller board.

Terminate the field wiring on TB1 of the 3-ASU and TB1 of the 3-FTCU. Refer to the Wiring section on the next page.

Run ribbon cable (P/N 250194-00) from connector J3 on the 3-FTCU controller board to connector J2 on the 3-FTCU display board mounted in the telephone control unit cover assembly.

8.

9.

Install the 3-FTCU cover assembly over the telephone controller board and secure it with 4 nuts and washers.

Run ribbon cable (P/N 250194-00) from connector J3 on the3-ASU controller board to connector J1 on the 3-ASU control board mounted in the Audio

Source Unit cover assembly.

10.

Install the 3-ASU cover assembly over the controller board and secure with 4 nuts and washers.

+ - + -

+ -

MUST BE WITHIN

20 FEET AND IN CONDUIT

1 2 3 4 9 10

AUDIO DATA

PRIMARY

SECONDARY TELEPHONE

PAGE

OUT

REMOTE MIC

KEY AUDIO AUX

1

14

J1

TR RX TX

AUDIO DATA

PRIMARY SECONDARY TELEPHONE

PAGE

OUT

REMOTE MIC

KEY AUDIO AUX

RX TX

1 14

TB1

Auxiliary Input

Gain Adjust

3-ASU

AUDIO SOURCE UNIT

J2

1 2 3 4 5 6 7 8 9 10

TB1

TX RX

J1

3-FTCU

FIRFIGHTER'S TELEPHONE

CONTROL UNIT

J2

Write protect switch

3-ASUMX

EXPANSION

MEMORY

J3

To 3-ASU display

Ribbon cable

P/N 250195-00

To 3-FTCU display

J3

J2 J3

J4

AIN

AOUT

J5

CIN

J6

DIN

J7

BOUT

J1

RAIL

CHASSIS

INTERFACE

CARD

COUT DOUT

J8 J9

J4

[3ASUPC.CDR]

P/N: 270481 REV: 2.0 Page 2 of 4


COVER INSTALLATION

3-FTCU Cover Assembly

3-ASU Audio Source Unit Cover Assembly

3-RCIC Rail Chassis Interface Card

3-FTCU Controller Board


Controller Board

DOWNLOAD WIRING

The figure below indicates the wiring between the 3-ASU and the PC running the System Definition Utility program. This cable is used whenever downloading information into the 3-ASU.

Refer to the Programming Manual for complete downloading information.

1 2 3 4 5 6

3-CPU1 Panel Controller Connector J5

OR

3-ASU Audio Source Unit Connector J1

OR

Signature Data Controller

Connector J3

NOTE:

Pins 1 and 6 are NOT used.

2 3 4 5

PIN 1

2 3 4

7

PIN 9

TO PC SERIAL PORT

YELLOW

GREEN

RED

BLACK

OR

PIN 1

PIN 14

2 3 4

20

PIN 13

PIN 25

TO PC SERIAL PORT

YELLOW

GREEN

RED

BLACK

YELLOW

GREEN

RED

BLACK

P/N: 270481 REV: 2.0 Page 3 of 4


1.

2.

3.

4

NOTES

Single Input Signal Modules set to Personality Code 6.

All wiring is supervised and power limited.

All shields shall be continouus and insulated from ground, except at the originating panel.

15K

W

EOL resistor for Class B risers only.

WIRING


Typical Firefighter's Telephone Circuit

ULI/ULC listed

47K

W

EOL Resistor

4

15K

W

EOL

Resistor

Twisted-pair

+

10 9

Single Input

Signal Module

8 7 6 5 4 3 2 1

+

+

To Signature

Data Circuit

To phones

10 9

Single Input

Signal Module

8 7 6 5 4 3 2 1

+ +

To Signature

Data Circuit

To phones

10 9

Single Input

Signal Module

8 7 6 5

4 3 2 1

+ +

To Signature

Data Circuit

TELEPHONE RISER

TWISTED-SHIELDED PAIR

DASHED WIRES REQUIRED

FOR CLASS A WIRING ONLY

NO CONNECTION

+ +

1 2 3 4 5 6 7 8 9 10

P/N: 270481 REV: 2.0 Page 4 of 4


TX RX

3-FTCU

TB1

[3FTCUIN1.CDR]


The 3-ATPINT Interface card is a 25 V

RMS and 70 V

RMS adapter for the ATP Amplifier Terminal Panel. The 3-

ATPINT is required when using a distributed (high voltage) output of an audio amplifier as the audio source for the ATP.

The 3-ATPINT is designed for use with audio source amplifiers which use 24 VDC output circuit supervision with EOL resistor. Multiple 3-ATPINT cards can be connected to a common source amplifier using Class B or

Class A supervision, as provided by the sourcing amplifier.

JUMPER SETTINGS

Jumper Position

P1

P2

1/2

2/3

1/2

2/3

Input Voltage

Pre-Amp #1 Input 70 V

RMS


RMS


RMS


RMS

Input Voltage

Number of Circuits

Supervisory Isolation

SPECIFICATIONS

25 V

RMS or 70 V

RMS

2

DC Blocking Capacitor

NOTES

SPECIFICATIONS

1. Use a SIGA-CT1 or SIGA-CT2 (P-code 3) to monitor the

URSM at the end of the audio risers.

2. Use a SIGA-CT1 or SIGA-CT2 (P-code 3) to monitor

ATP trouble contacts.

3. Use a SIGA-CC2 (P-code 7) to select audio from one of two audio riser circuits.

4. Use a SIGA-CC1 (P-code 5) to switch audio from a single audio riser to a branch circuit.

5. Use a SIGA-CR or SIGA-UM (P-code 8) to activate the

ATP activity relay.

6. At startup, the 3-ZAxx amplifier must be turned on to the supervisory tone message recorded on the 3-ASU.


1 Remove the old cover plate and retaining clips on the left side of the ATP (4 screws).

2 Install four spacers (5) in the flanges of the card cage, and secure with nuts (6).

3 Mount the 3-ATPINT board (4) on the four short spacers (5) and secure with four long spacers (3).

4 Install the new cover plate (2) on the long spacers with screws and washers (1) provided.

PREAMP 1

70V 25V

1

P1

PREAMP 2

70V 25V

1 P2

+ S + S + S

IN

3-ATPINT

OUT RISER OUT PRE-AMP

PRE-AMP 1

IN OUT RISER OUT PRE-AMP

1

2

3

4

5

6

+ S + S + S

PRE-AMP 2

INSTALLATION SHEET:

3-ATPINT ATP Interface

Bottom View


REVISION LEVEL: 2.0

DATE: 04/06/99





GS

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075



WIRING

15K

W

EOL 15K

W

EOL 15K

W

EOL 15K

W

EOL

1 2 3 4 5 6 7 8 9 10

To TB1 on Audio Amplifier

TB1

AUDIO

AMPLIFIER

MODULE

(BACKUP)


TB2

1 2 3 4 5 6 7 8 9 10


AUDIO

AMPLIFIER

MODULE

(Riser 1)


1 2 3 4 5 6 7 8 9 10


AUDIO

AMPLIFIER

MODULE

(Riser 2)


1 2 3 4 5 6 7 8 9 10


AUDIO

AMPLIFIER

MODULE

(Riser 3)


10 9 8 7 6 5 4 3 2 1 10 9 8 7 6 5 4 3 2 1

Shield, if used

Class A circuits Only

Shield, if used

10 9 8 7 6 5 4 3 2 1

Field wiring identical to riser #1

10 9 8 7 6 5 4 3 2 1

Field wiring identical to riser #1

Audio Riser

Output

UL/ULC Listed 15K

W

EOL

ON LAST ATP ONLY

(For Class B circuits Only)

From Power

Amp Output

2 3

To Power

Amp Audio

Input

2 3

+

-

Do Not Use

S +

-

S +

-

S +

-

S +

-

S +

-

TB4

PREAMP 1

70V 25V

AMPLIFIER TERMINAL PANEL (ATP) P/N 240068

+ S + S + S


PRE-AMP 1

1

P1

Removable Cover

PREAMP 2

70V 25V

1 P2


WARNING

PRE-AMP 2

IMPROPER CONNECTION OF TERMINALS

+ S + S + S

WILL RESULT IN A FAILURE OF POWER SUPPLY

TB2

TB1

TB3

IN OUT

PREAMP #1

+

-

OUT IN OUT

PWR AMP #1

WARNING

BATT.

OUT

120VAC

60HZ

10A MAX.

AMP #1

120 VAC OUT

FOR CONTINUED PROTECTION

AGAINST THE RISK OF FIRE,

REPLACE ONLY WITH SAME

TYPE 8 RATING FUSE.

3AB-20A

FUSE

TB5

POWER PANEL ACTIVITY

FAIL TRBL

AMP #2

BATT. IN

24 VDC

40AH MAX.

IN

PREAMP #2

OUT OUT

PWR AMP #2

IN OUT

BATT.

OUT

+

H

N

G

Input #2 wired identical to Input #1

+

-

S +

-

S +

-

S +

-

S +

-

S +

-

Do Not Use

[3AMPCON1.CDR]

JUMPER SETTINGS

P1 = 1/2, Pre-Amp #1 Input 70 V

RMS


RMS


RMS


RMS

Wiring Notes

1. Circuit polarity shown in supervisory condition.

2. Supervised circuit when URSM is used.

3. Power limited circuit.

4. Back up amplifier size must equal the wattage of the largest amplifier to be backed up.

5. Set J1 & J2 to match source amplifier output voltage.

6. Refer to Audio Manual, P/N 270219 for additional ATP and power amplifier installation information.

7. Additional ATPs may be connected to the same audio source by connecting the ATP pre-amp output to the pre-amp input of the next ATP.

P/N: 387284 REV: 2.0 Page 2 of 2


INSTALLATION

3-BATBKT

#8-32 lock nut

(4 places)

To install the 3-BATBKT:

1. Mount the 3-BATBKT to the 4 threaded stand-offs at the lower end of the equipment enclosure, over the standby batteries.

2. Secure the 3-BATBKT using the hardware provided.

INSTALLATION SHEET:

3-BATBKT Battery Bracket



REVISION LEVEL: 1.0

DATE: 23APR99


APPROVED BY: D. Munn



SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075





3-BATS Battery Shelf

The 3-BATS is used to convert the RCC7R, RCC14R, and

RCC21R Enclosures, to accommodate up to two 65 AH batteries. The 3-BATS has four grommet holes to permit wiring to pass through the shelf.

3-BATS

Mounting

Construction

INSTALLATION

SPECIFICATIONS

RCC7R, RCC14R, or RCC21R Enclosures

16 Gauge Cold Rolled Steel

Front View Side View

3-BTSEN

RCC7R, RCC14R or

RCC21R Enclosure

12Volts

12Volts

Note: All wiring in this configuration is non-power limited.

3-BATS

3-BATS

INSTALLATION SHEET:

3-BATS

Battery Shelf


REVISION LEVEL: 2.0

DATE: 04/14/99



SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075








The 3-BTSEN Battery Distribution Bus provides a backup battery bus for supplying backup power to multiple power supplies fed by a common battery. The 3-BTSEN features a 50 amp circuit breaker to protect the backup battery power bus.

The 3-BTSEN mounts in the BC-1 Battery Cabinet or any "RCC

Series" enclosure.

SPECIFICATIONS

Mounting: BC-1 or RCC Series enclosures

Power Rating: 30 Amps @ 24 VDC

Circuit Breaker: 50 amps

Power Bus: 4 #10-32 machine screws

Operating Temperature Range: 32 to 120° F (0 to 49° C)

Operating Humidity Range: 93% RH non-condensing

WIRING

Batteries can deliver high currents. Remove all jewelry before working on these circuits.

To Booster 2 and Booster 3

To Primary and Booster 1

Black Red

12Volts 12Volts

Notes:

1.

Supervised, not power limited.

2.

The diagram shows two pairs of wires going to four power supplies. To get twice the distance between the panel and the 3-BTSEN, use one pair of wires for each power supply in the panel. Refer to the following table for wire distances.


The battery cabinet must be installed in the same room as the fire alarm panel and wiring run in conduit.

COVER

Side View

Enclosure

3-BTSEN

PRODUCT DIAGRAM

Allowable Wire Distance Per Pair of Wires Between

Remote Battery Cabinet and Power Supply

Wire Size

# of supplies fed by one pair of wires

#18 AWG #16 AWG #14 AWG #12 AWG

1

8.84 ft.

(2.7 M)

14 ft.

(4.27 M)

22.4 ft.

(6.83 M)

35.4 ft.

(10.79 M)

2

4.42 ft.

(1.35 M)

7 ft.

(2.13 M)

11.2 ft.

(3.41 M)

17.7 ft.

(5.4 M)

INSTALLATION SHEET

3-BTSEN

Battery Distribution Bus


REVISION LEVEL: 2.0

DATE: 10/06/99



CORPORATION





6411 Parkland Drive

Sarasota, FL 34243

USA

625 6th Street East

Owen Sound, Ontario

Canada N4K 5P8



PRODUCT DESCRIPTION

The 3-CAB series of equipment enclosure backboxes are made of

14-gauge steel and finished with a textured baked grey enamel. The backboxes are designed for semi-flush or surface mounting. Conduit and nail knockouts, keyhole style mounting holes, and wide wiring troughs facilitate quick installation.

Chassis assembly design facilitates separation of power-limited and nonpower-limited circuits inside the backbox by locating power-limited wiring towards the front of the cabinet and nonpower-limited wiring towards the rear.

PRODUCT DIAGRAM

SPECIFICATIONS

3-CAB7B Dimensions (H x W x D)

Rough-In (See note 1) 23.2 in x 24.0 in x 3.86 in

(58.98 cm x 60.9 cm x 9.8 cm)

Finished

Surface Mounted 25.5 in x 27.34 in x 5.5 in

(64.77 cm x 69.4 cm x 14.0 cm)

Semi-Flush Mounted 25.5 in x 27.34 in x1.65 in

(64.77 cm x 69.4 cm x 4.19 cm)



(90.17 cm x 60.9 cm x 9.8 cm)

Finished


(95.89 cm x 69.4 cm x 14.0 cm)

Semi-Flush Mounted 37.75 in x 27.34 in x 1.65 in

(95.89 cm x 69.4 cm x 4.19 cm)



(121.29 cm x 60.9 cm x 9.80 cm)

Finished


(127.0 cm x 69.4 cm x 14.0 cm)


(127.0 cm x 69.4 cm x 4.19 cm)

Note:

1) Add 1/4" to height and width to allow for knockouts when framing in backbox for semi-flush mounting.

Equipment Capacity

3-CAB7B

Chassis

Batteries

Model 6V8A

Model 12V10A

Model 12V17A

3-CAB14B

Chassis

Batteries

Model 6V8A

Model 12V10A

Model 12V17A

3-CAB21B

Chassis

Batteries

Model 6V8A

Model 12V10A

Model 12V17A

1 chassis assembly

4 max.

2

2 max.

max.

2 chassis assemblies

4 max.

2 max.

2 max.

3 chassis assemblies

4 max.

2 max.

2 max.

3-CAB21B shown

INSTALLATION SHEET:

3-CAB Series Equipment

Enclosure Backboxes


REVISION LEVEL: 1.0

DATE: 24MAY99



CORPORATION


APPROVED BY: K. Patterson



6411 Parkland Drive

Sarasota, FL 34243

USA

625 6th Street East

Owen Sound, Ontario

Canada N4K 5P8


J

H

I

CABINET INSTALLATION DIMENSIONS

G

F

E

D

TOP VIEW

OUTER DOOR

A

ALL KNOCKOUTS

FOR 3/4-INCH CONDUIT

(1.9 cm)

BACKBOX

BATTERY AREA

DO NOT INSTALL CONDUIT

C

B

N

M

L

O

K

3-CAB7B

A

B

C

D

E

F

G

H

I

J

K

L

M

N

O

27.34 in

(69.40 cm)

1.65 in

(4.19 cm)

3.86 in

(9.80 cm)

1.25 in

(3.18 cm)

21.0 in

(53.34 cm)

22.75 in

(57.8 cm)

24.0 in

(60.9 cm)

1.25 in

(3.18 cm)

3.0 in

(7.7 cm)

25.5 in

(64.77 cm)

23.2 in

(58.98 cm)

1.25 in

(3.16 cm)

4.37 in

(11.1 cm)

3.86 in

(9.80 cm)

14.1 in

(35.8 cm)

3-CAB14B

27.34 in

(69.40 cm)

1.65 in

(4.19 cm)

3.86 in

(9.80 cm)

1.25 in

(3.18 cm)

21.0 in

(53.34 cm)

22.75 in

(57.8 cm)

24.0 in

(60.9 cm)

1.25 in

(3.18 cm)

3.0 in

(7.7 cm)

37.75 in

(95.89 cm)

35.5 in

(90.17 cm)

1.25 in

(3.16 cm)

4.37 in

(11.1 cm)

3.86 in

(9.80 cm)

14.1 in

(35.8 cm)

3-CAB21B

27.34 in

(69.40 cm)

1.65 in

(4.19 cm)

3.86 in

(9.80 cm)

1.25 in

(3.18 cm)

21.0 in

(53.34 cm)

22.75 in

(57.8 cm)

24.0 in

(60.9 cm)

1.25 in

(3.18 cm)

3.0 in

(7.7 cm)

50.0 in

(127.0 cm)

47.75 in

(121.3 cm)

1.25 in

(3.16 cm)

4.37 in

(11.1 cm)

3.86 in

(9.80 cm)

14.1 in

(35.8 cm)

POWER-LIMITED AND NONPOWER-LIMITED WIRING REQUIREMENTS

Nonpower-limited wiring area

Power-limited wiring area

Fire Alarm System wiring is classified as either power-limited or nonpower-limited per NEC Article 760. All power-limited wiring must be separated from all nonpower-limited wiring by a minimum distance of 1/4 in (6 mm). The system enclosures and chassis assemblies are designed such that nonpower-limited wiring is at the left rear of the cabinet and the power-limited wiring is at the front of the cabinet. When installing nonpower-limited wiring, use the feed through notches at the left rear of the chassis. When installing power-limited wiring, use the feed through notches at the right front of the chassis.

Nonpower-limited wiring area under rail assembly


POWER LIMITED

Right Front

Wire

NON-POWER LIMITED

Left Rear


Left Side View

Battery Battery

Front View

Right Side View

P/N: 387557 REV: 1.0 Page 2 of 2



These instructions are for right-hand swing open operation of the outer door. For left-hand swing open operation, attach the enclosure hardware to the opposite side.

STEP1: Installing the enclosure hardware

1. With the back box securely mounted, attach the outer door hinge pins to the mounting studs on the back box left flange.

2. Attach the door stops to the top and bottom mounting studs on the back box right flange.

3. Attach the lock striker plate to the middle mounting studs on the back box right flange.

STEP 2: Assembling the outer door

1. Place the outer door on a flat surface with the inside facing up.

2. Attach hinges to right mounting studs.

3. Insert the door lock through the opening opposite the hinges and with the latch pointing towards top of the door. See figure on other side.

4. Secure lock with the retaining clip.

5. Insert the plastic hole plug in the door opening closest to the hinges.

STEP 3: Mounting the outer door assembly

1. Set the outer door assembly onto the outer door hinge pins.

2. Attach the hinge stop to the outer door assembly.

3. Attach a grounding strap from the outer door ground strap stud on the back box to the outer door.

STEP 4: Mounting the inner door

1. Set the inner door onto the inner door hinge pins.

2. Attach a grounding strap from the inner door ground strap stud on the back box to the inner door.

Back box left flange

Outer door hinge pin

#8-32 lock nut

(2 places)

Outer door ground strap stud

Outer door assembly

Hinge

Inner door hinge pin

Back box

Inner door ground strap stud



Hinge stop

#8-32 lock nut

(6 places)

Back box right flange

Lock striker plate

#8-32 lock nut (2 places)


The 3-CAB series of equipment enclosure doors consists of an inner and outer door. The outer door may be mounted to either side of the back box for left-open or right-open operation, has a viewing window, and is secured with a key lock. A hinged interior door panel isolates the operator from the panel electronics and wiring, yet easily opens for maintenance.

The 3-CAB series of equipment enclosure doors include:

3-CAB7D Grey door w/window for CAB7B back boxes

3-CAB7DR Red door w/window for CAB7B back boxes






INSTALLATION SHEET:

3-CAB Series Equipment

Enclosure Doors


REVISION LEVEL: 2.0

DATE: 29MAR99



CORPORATION





6411 Parkland Drive

Sarasota, FL 34243

USA

625 6th Street East

Owen Sound, Ontario

Canada N4K 5P8


Inner Door Assembly

Connect grounding strap

(P/N 260077) to inner door

TOP

CHASSIS

Mount chassis on six backbox studs with supplied hardware.

CENTER

CHASSIS

BOTTOM

CHASSIS

BATTERY AREA


Mount inner door on inner hinge pins.

Outer Door Installation

Bolt upper hinge assembly to backbox.

(left hand door installation shown)


(P/N 260077) to outer door.

Outer Door Assembly

A

D

A

F

Retaining

Clip

B

E

See details on other side

B

E

C F

OUTER DOOR - INSIDE VIEW

(Left-hand mounting shown)

C

Left-hand

Mounting

Right-hand

Mounting

Female

Hinges

D & F

A & C

Double Male

Hinge

D

A

Lock

B

Latch Up

E

Latch Down

Plug

E

B

Mount outer door on lower hinge pin

(left-hand door installation shown)

Left-hand

Mounting

Right-hand

Mounting

P/N: 270488 REV: 2.0 Page 2 of 2


Bumpers

Plates

D & F

A & C

Lock

Strike

E

B

Double Male

Hinge Pin

C

F

D


These instructions are for right-hand swing open operation of the outer door. For left-hand swing open operation, attach the enclosure hardware to the opposite side.

STEP1: Installing the enclosure hardware

1. With the back box securely mounted, attach the outer door hinge pins to the mounting studs on the back box left flange.

2. Attach the door stops to the top and bottom mounting studs on the back box right flange.

3. Attach the lock striker plate to the middle mounting studs on the back box right flange.

STEP 2: Assembling the outer door

1. Place the outer door on a flat surface with the inside facing up.

2. Attach hinges to right mounting studs.

3. Insert the door lock through the opening opposite the hinges and with the latch pointing towards top of the door. See figure on other side.

4. Secure lock with the retaining clip.

5. Insert the plastic hole plug in the door opening closest to the hinges.

STEP 3: Mounting the outer door assembly

1. Set the outer door assembly onto the outer door hinge pins.

2. Attach the hinge stop to the outer door assembly.

3. Attach a grounding strap from the outer door ground strap stud on the back box to the outer door.

STEP 4: Mounting the inner door

1. Set the inner door onto the inner door hinge pins.

2. Attach a grounding strap from the inner door ground strap stud on the back box to the inner door.

Back box left flange


#8-32 lock nut

(2 places)

Outer door ground strap stud

Outer door assembly

Hinge


Back box

Inner door ground strap stud



Hinge stop

#8-32 lock nut

(6 places)

Back box right flange

Lock striker plate

#8-32 lock nut (2 places)


The 3-CAB-E series of equipment enclosure doors consists of an inner and outer door. The outer door may be mounted to either side of the back box for left-open or right-open operation, has a viewing window, and is secured with a key lock. A hinged interior door panel isolates the operator from the panel electronics and wiring, yet easily opens for maintenance.

The 3-CAB-E series of equipment enclosure doors include:

3-CAB7D-E Grey door w/window for CAB7B back boxes

3-CAB7DR-E Red door w/window for CAB7B back boxes






INSTALLATION SHEET:

3-CAB-E Series Equipment

Enclosure Doors


REVISION LEVEL: 1.0

DATE: 23APR99



CORPORATION





6411 Parkland Drive

Sarasota, FL 34243

USA

625 6th Street East

Owen Sound, Ontario

Canada N4K 5P8

Mylar film


Inner Door Assembly


(P/N 260077) to inner door

TOP

CHASSIS

Mount chassis on six backbox studs with supplied hardware.

CENTER

CHASSIS

BOTTOM

CHASSIS

BATTERY AREA


Mount inner door on inner hinge pins.

Outer Door Assembly

A

Gasket

D

Retaining

Clip

B

E

See details on other side

Plexiglass

Outer Door Installation

Bolt upper hinge assembly to backbox.

(left hand door installation shown)


(P/N 260077) to outer door.

A

B

F

E

C F

OUTER DOOR - INSIDE VIEW

(Left-hand mounting shown)

C

Left-hand

Mounting

Right-hand

Mounting

Female

Hinges

D & F

A & C

Double Male

Hinge

D

A

Lock

B

Latch Up

E

Latch Down

Plug

E

B

Mount outer door on lower hinge pin

(left-hand door installation shown)

Left-hand

Mounting

Right-hand

Mounting

Bumpers

Plates

D & F

A & C

P/N: 387549 REV: 1.0 Page 2 of 2


Lock

Strike

E

B

Double Male

Hinge Pin

C

F

D


The 3-CAB5(R) cabinet provides 5 local rail module

(LRM) spaces and up to 10 amp-hour standby batteries.

The 3-CAB5(R) cabinet is made of 14 gauge steel and finished with a textured baked enamel. The enclosure is suitable for semi-flush or surface mounting. Conduit and nail knockout keyhole style mounting holes and wide wiring troughs facilitate quick installation.

Cabinet design facilitates separation of power limited and nonpower limited circuits by locating power limited circuitry toward the front of the cabinet and non-power limited wiring at the rear of the cabinet. The removable exterior door mounts on the left side of the cabinet, has a Lexan

TM viewing window, and is secured with a key lock. A hinged interior door panel isolates the operator from the internal electronics and wiring, yet easily opens to reveal the system components for maintenance.


ALL KNOCKOUTS

FOR 3/4" CONDUIT

(1.9 cm)

3.1 in

(7.87 cm)

1.3 in

(3.30 cm)

14.0 in (35.56 cm)

12.7 in (32.26 cm)

10.9 in (27.69 cm)

1.5 in

(3.81 cm)

TOP VIEW

OUTER DOOR

16.4 in (41.66 cm)

3.86 in

(9.80 cm)

1.65 in

(4.19 cm)

2.6 in

(6.6 cm)

3.86 in

(9.80 cm)

BACKBOX

1.3 in

(3.3 cm)

SPECIFICATIONS

Dimensions (HWD)

3-CAB5B Back Box

Rough-In 22.37 in x 14.0 in x 3.86 in

(56.82 cm x 35.56 cm x 9.80 cm)

NOTE: Add 1/4" to height and width to allow for knockouts when framing in backbox for semi-flush mounting.

Finished


(61.60 cm x 16.4 cm x 14.0 cm)


(61.60 cm x 16.4 cm x 4.19 cm)

Capacity

Modules

Battery

Five module spaces

Two 10 AH @ 12 VDC

Finish

3-CAB5

3-CAB5R

Gray textured enamel

Red textured enamel

3-CAB5

3-CAB5R

BATTERY AREA


MODEL DEFINITIONS

Cabinet with Door, Gray

Cabinet with Door, Red

3-CAB5 / 3-CAB5-R

CABINET INSTALLATION

1.

2.

3.

4.

5.

6.

Mount the backbox at the required location.

A dedicated 120 VAC (for systems using model 3-PPS/M power supplies), or 230 VAC (for systems using model

3-PPS/M-230 power supplies) 50/60 Hz circuit is required for each cabinet. Install all conduit and pull all wiring into the backbox before proceeding to the next step.

Install the outer door at this time.

Install the 3-TAMP5 Tamper Switch, if used.

Install the equipment chassis. After all chassis assemblies have been installed, mount the inner door on the inside hinge pins.

Connect the ground strap between the stud on the inner door and the backbox, using the hardware provided.

Install the ground strap between the stud on the exterior door and the stud on the backbox.


INSTALLATION SHEET:

3-CAB5

3-CAB5R


REVISION LEVEL: 2.0

DATE: 12/17/98




GS




CORPORATION

6411 Parkland Drive

Sarasota, FL 34243

625 6th Street East




The 3-CHAS7 chassis provides the mounting, internal power, and data distribution for up to seven plug-in local rail modules. Mounting studs for two power supplies and one interface module are provided on each chassis. Chassis design facilitates separation of power limited and non-power limited circuits by locating power limited circuitry toward the front of the chassis and non-power limited wiring at the rear of the chassis.

The 3-CHAS7 chassis mounts to the back wall of 3-CAB7, 3-CAB14,

3-CAB21, RCC-7, RCC-14, and RCC-21 cabinets. Multiple 3-CHAS7 chassis are interconnected within a cabinet using the supplied cables.

The chassis are suitable for direct mounting in a standard EIA 19" rack.

19" Rack Installation

Dimensions (HWD)

SPECIFICATIONS

Capacity

12.0" x 19.0" x 5.25"

(30.48 cm x 48.26 cm x 13.34 cm)

7 Local Rail Modules Spaces

2 Power Supplies

1 Interface Module

INSTALLATION

Mount the chassis assembly on the six #6-32 studs at the rear of the cabinet. Secure the chassis to the cabinet with the washers and nuts provided. An 11/32" nut driver simplifies chassis installation.

If a primary or booster power supply is used with this chassis, mount the heat sink on the four threaded stand-offs under the rails, then secure the

PC board to the four threaded stand-offs.

Connect the DC power cable (P/N 250187) to connector J2 on the power supply. For the 3-PPS, connect the 16 pin data ribbon cable (P/N 250188) to connector P3 on the power supply. For the 3-BPS, connect a 14 pin data ribbon cable (P/N 250189) to connector P3 on the power supply.

Route both cables up through the rails for later connection to the power supply/booster monitor module.

Chassis Power and Data Cables

When more than one chassis is installed within a single cabinet, the chassis power and data circuits must be interconnected. The chassis has four data connectors and four power connectors. The 3-CHAS7 has two power (J8 AIN and J11 AOUT) and two data (J9 BIN and J11 BOUT) connectors on the top rail. Two power (J8 CIN and J10 COUT) and two data (J9 DIN and J11 DOUT) connectors are on the bottom rail, as shown below.

3-CHAS7

Top Rail J8 AIN J9 BIN

J8

J10

J9

J11

J8

J10

J9

J11

J10 AOUT

J11 BOUT

J8

J10

J9

J11

Bottom Rail

J8 CIN J9 DIN

J8

J10

J9

J11

[3CHAS7.CDR]

[3RAILCN1.CDR] J10 COUT

J11 DOUT

Installation instructions are continued on following two pages.

INSTALLATION SHEET:

3-CHAS7

Seven Local Rail Module Chassis

INSTALLATION SHEET P/N: 270484 FILE NAME: 270484.CDR

REVISION LEVEL: 2.0


DATE: 06/14/99



SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075




Chassis #1

J8

J10

J9

J11

Top Rail

Bottom Rail

J8

J10

J9

J11

INSTALLATION

(continued)

The figure on the left shows three 3-CHAS7 chassises in a common cabinet. Connect the power and data cables as follows:

1. Connect a top rail power cable (3 pin connector) to connector J10

AOUT on the top rail of chassis #1. Route the cable down to chassis

#2, and connect to J8 AIN on the chassis #2 top rail.

2. Connect a top rail data cable (6 pin ribbon cable connector) to connector J11 BOUT on the top rail of chassis #1. Route the cable down to chassis #2 and connect to J9 BIN on the chassis #2 top rail.

3. Connect a bottom rail power cable (4 pin connector) to connector J10

COUT on the bottom rail of chassis #1. Route the cable down to chassis #2 and connect to J8 CIN on the chassis #2 bottom rail.

Top Rail Power Cable

P/N 250191

Top Rail Data Cable

P/N 250190

4. Connect a bottom rail data cable (6 pin ribbon cable connector) to connector J11 DOUT on the bottom rail of chassis #1. Route the cable down to chassis #2 and connect to J9 DIN on the chassis #2 bottom rail.

5. Repeat this process between chassis #2 and chassis #3.

Bottom Rail Power Cable

P/N 250192

Bottom Rail Data Cable

P/N 250190

NOTE:

The chassis containing the 3-CPU1 Central Processor can only have chassis power and data connections made to connectors J10

AOUT and J11 BOUT on the top rail and J10 COUT and J11 DOUT on the bottom rail. The chassis containing the 3-CPU can never have connections coming into connectors J8 AIN, J9 BIN, J8 CIN or J9 DIN.

Chassis #2

J8

J10

J9

J11

Top Rail

Bottom Rail

J8

J10

J9

J11

Chassis #3

J8

J10

J9

J11

Top Rail


P/N 250191

Top Rail Data Cable

P/N 250190


P/N 250192


P/N 250190

Bottom Rail

J8

J10

J9

J11

[3RAILCN2.CDR]

P/N: 270484 REV: 2.0 Page 2 of 3


INSTALLATION

(continued)

Chassis #1

Top Rail

Bottom Rail

J8

J10

J9

J11

J8

J10

J9

J11

Chassis #2

Top Rail

Bottom Rail

J8

J10

J9

J11

J8

J10

J9

J11

2

1

4

3

1

2

2

1

3

4

J2 J3

J4

AIN

AOUT

CIN

J5

J6

DIN

J7

BOUT

J1 J1 To Audio

Source Unit

Rail

Chassis

Interface

Card

The figure to the left shows an Audio Source Unit (ASU) and two 3-

CHAS7 chassis in a common cabinet. The ASU unit is connected to the two rails using a Rail Chassis Interface Card. The Rail Chassis Interface

Card is mounted below the rails in the 1/2 footprint IRC-3 module space of the ASU unit chassis.

In this example, the ASU can be either the top or middle chassis.

Connect the power and data cables as follows:

1. Connect the top rail power cable (3 pin connector) to connector J10

AOUT on the top rail of chassis #1. Route the cable down to the Rail

Chassis Interface Card and connect to J28 AIN.

2. Connect the top rail data cable (4 pin connector) to connector J11

COUT on the top on bottom rail of chassis #1. Route the cable down to the Rail Chassis Interface Card and connect to J4 BIN.

3. Connect the bottom rail power cable (4 pin connector) to connector

J10 COUT on the bottom rail of chassis #1. Route the cable down to the Rail Chassis Interface Card and connect to J3 CIN.

4. Connect the bottom rail data cable (6 pin ribbon cable connector) to connector J11 DOUT on the bottom rail of chassis #1. Route the cable down to the Rail Chassis Interface Card and connect to J6 DIN.

5. Connect a top rail power data cable to connector J5 AOUT on upper left side of the Rail Chassis Interface Card. Route the cable up to connector J8 AIN on the top rail of chassis #2.

6. Connect a top rail data cable to connector J7 BOUT on the upper right side of the Rail Chassis Interface Card. Route the cable up to connector J9 BIN on the top rail of chassis #2.

7. Connect a bottom rail power cable to connector J8 COUT on the left center of the Rail Chassis Interface Card. Route the cable up to connector J8 CIN on the bottom rail of chassis #2.

8. Connect a bottom rail data cable to connector J9 DOUT on the right center of the Rail Chassis Interface Card. Route the cable up to connector J9 DIN on the bottom rail of chassis #2.

COUT DOUT

J8 J9

Chassis #3

1

J8

J10

J9

J11

Top Rail

Bottom Rail

3

J8

J10

J9

J11

4

2

Rail Expansion Card mounted under chassis with Audio Source Unit

1

2

LEGEND


P/N 250191

Top Rail Data Cable

P/N 250190

3

4


P/N 250192


P/N 250190

[3RAILCN3.CDR]

P/N: 270484 REV: 2.0 Page 3 of 3




3-CPU1 Central Processor Module

The 3-CPU1 Central Processor module is the control element for all other rail modules and contro/display modules installed within an enclosure. The 3-CPU1 processes all information from modules installed within the cabinet as well as data received from other panels over the network data riser.

The 3-CPU1 has a 16-bit microprocessor and 1 MB of RAM and 1 MB of non-volatile memory. An internal calendar/clock with leap year function provides date/time event stamping and initiates timed events. The 3-CPU1 automatically identifies and supervises all modules installed on the rail chassis and has an integral watchdog to identify both hardware and software faults. The module has Form-C common alarm, trouble and supervisory relay contacts that operate whenever any alarm, supervisory, or fault condition is detected on the network.

The 3-CPU1 communicates with other CPU1 modules on the network over an RS-485 or fiber optic network data circuit.

Class A or B wiring configuration may be used for the network data circuit and digital audio circuits. An optically isolated RS-

232 port is provided for data upload/download and system maintenance. An optional optically isolated RS-232 port card is available to support a printer or an external command system.

The 3-CPU1 also provides the command and control functions for the 8-channel audio subsystem installed on the rail chassis.

The 3-CPU1 occupies the two left-most positions on the chassis assembly (logical address 0). In this position it rail functions as the local bus master and supervises all traffic on the rail bus and implements ground fault detection.

The controller is secured to the rail chassis using snap rivet fasteners. All field wiring connections to the 3-CPU1 module are made via plug-in connectors that permit termination of field wiring without removing the module from the enclosure.

All external connections are power-limited and transient protected. The plug-in connectors and snap rivet mounting also facilitate rapid remove and replace troubleshooting. The

3-CPU1 module panel provides support brackets for mounting the 3-LCD displayor a protective cover plate.

3-LCD

Power

Reset

Test

Alarm

Silence

CPU

Fail

Gnd

Fault

Disable

Panel

Silence

Drill

Alarm Supvr

1

4

7

2

5

8

0

3

6

9

Trouble Monitor

Previous

Message

Next

Details

Command

Menus

3-CPU1

N

C

C

TROUBLE

N

O

N

O

C N

A

ALARM

N

C

N

O

C

SUP

N

C

TB1

3-LCD Main LCD Display for the 3-CPU1

The 3-LCD Display provides the operator interface for the network. The 3-LCD mounts on the 3-CPU1 panel support brackets and is connected to the module with a ribbon cable.

Only one 3-LCD Display is required to provide point of control for the entire network. Additional displays may be added to any3-CPU1 module located throughout the network, providing an additional point of control and/or annunciation.

The display provides a 64 by 128-pixel back-lit liquid crystal display for displaying text. LEDs are provided for: power, test,

CPU fail, ground fault and disable functions. Switches with integral LED feedback are provided for reset, trouble silence, alarm silence, and drill functions. Message queue select switches with integral LEDs are provided for the alarm, supervisory, trouble, and monitor message queues. Next and

Previous message queue switches scroll through the selected message queue. The display is also equipped with a 10-digit numeric key pad with enter and delete keys.

J1

A

+

NETWORK

OUT

A

-

B

+

IN

B

+

AUDIO

A IN

-

AUDIO

A OUT

+ -

AUDIO

B IN

+ -

AUDIO

B OUT

+ -

R

X

1

T

X

1

R

T

S

1

C

O

M

1

R

X

2

T

X

2

R

T

S

2

C

O

M

2

Note: 3-CPU1 Boot and Application code must be version 1.33 or greater

INSTALLATION SHEET:

3-CPU1 Central Processor Module &

3-LCD Main LCD Display for 3-CPU1



REVISION LEVEL: 2.0

DATE: 26OCT99





CORPORATION


6411 Parkland Drive

Sarasota, FL 34243

625 6th Street East


SPECIFICATIONS

3-CPU1 Central Processor Module

Processor:

Memory:

16-bit, RISC

1 MB RAM - volatile static

1 MB Flash - non-volatile

32K EEPROM

Installation: Occupies first 2 spaces on rail chassis

Internal RS-232 Serial Port: Isolated, Class B

Connector, RJ-11

Common Control Relays: 3 Form C relays rated at 24 Vdc @ 1A for alarm, supervisory, and trouble


Temperature:

Humidity:

32 to 120 °F (0 to 49 °C)


Power Requirements

Standby Current: 100 mA

Alarm Current: 110 mA

3-LCD Display for 3-CPU1:

Installation: Plugs into connector J1 on 3-CPU1 module.

Mounts on the front of the 3-CPU1 module.

LCD Display:

Indicators:

Power

CPU Failure

Test

Ground Fault

Disable

Reset

Trouble Silence

Alarm Silence

Drill

Alarm

Supervisory

Trouble

Monitor

64 x 128 pixels, back-lit liquid crystal

Green LED

Yellow LED

Yellow LED

Yellow LED

Yellow LED

Yellow LED, integrated with Reset switch

Yellow LED, integrated with Trouble Silence switch

Yellow LED, integrated with Alarm Silence switch

Yellow LED, integrated with Drill switch

Red LED

Yellow LED

Yellow LED

Yellow LED

Operator Controls:

Reset Switch

Alarm Silence Switch

Trouble Silence Switch

Drill Switch

10-digit keypad w/ Enter and Delete keys

Message queue scroll switches

Custom function switch


Temperature: 32 to 120 °F (0 to 49 °C)

Humidity: 93% RH, non-condensing

Power Requirements

Standby Current

Alarm Current

53 mA

53 mA

INSTALLATION

1.

Install the 3-LCD display module (if required).

• Remove the blank front panels from the support brackets on the 3-CPU1.

• Connect the ribbon cable on the 3-LCD to J1 on the 3-CPU1. The colored edge is pin 1.

• Connect the ground cable on the 3-LCD to the 2-pin header on the 3-CPU1. The

2-pin header is located just above the

Network B terminals on TB2.

• Snap the 3-LCD onto the left mounting brackets provided on the 3-LCD.

2.

Install any 3-CPU1 option cards, if required. Refer to the respective installation sheets for the option card being installed.

3.

Slide the 3-CPU1 into the first two rail slots on the rail chassis assembly. Be careful to line the option cards into the card guides.

4.

Gently push the 3-CPU1 until it is firmly seated into the rail connectors.

5.

Secure the module to the rail by pushing the top and bottom snap rivet fasteners until they lock in place.

6.

Connect the field wiring.

J1

Primary power supply

Primary power supply monitor

N

O

C N

C

TROUBLE

N

O

C

ALARM

N

A

N

C

N

O

C

SUP

N

C

TB1

A

+

NETWORK

OUT IN

A

-

B

+

B

+

AUDIO

A IN

-

AUDIO

A OUT

+ +

AUDIO

B IN

-

AUDIO

B OUT

+ -

R

X

1

T

X

1

T

S

1

C

O

M

1

R

X

2

T

X

2

T

S

2

C

O

M

2

3-LCD 3-CPU1

P/N: 387465 REV: 2.0 Page 2 of 5


FIELD WIRING CONNECTIONS

Network data riser connections

A 3-CPU1 equipped with a 3-RS485A or 3-RS485B card can communicate with other similarly equipped CPU modules by way of the network data riser. TB2 on the 3-CPU1 provides the terminal connections for connecting to the network data riser.

Connect the network data riser to the 3-CPU1 as shown. The

NETWORK B terminals provide an isolated connection. The

NETWORK A terminals are not isolated.

Notes

• All network data riser wiring is supervised and power-limited.

• When connecting the network wiring, always wire the isolated terminals on one CPU module to the non-isolated terminals of another.

• On Class B network data risers, the panel that does not have wires connected to the Network A terminals should be designated as the service panel and located accordingly.

From NETWORK B+ on previous CPU module

From NETWORK Bon previous CPU module

3-CPU1

TB2

NETWORK

A

OUT

A B

IN

B

AUDIO

A IN

Isolated terminals

To NETWORK A+ next CPU module on

To NETWORK Anext CPU module on

Typical wiring

First panel on Class B network

Last panel on Class B network

3-CPU1

TB2

NETWORK

A

OUT

A B

IN

B

AUDIO

A IN

3-CPU1

TB2

NETWORK

A

OUT

A B

IN

B

AUDIO

A IN

3-CPU1

TB2

NETWORK

A

OUT

A B

IN

B

AUDIO

A IN

Make this the service panel

Figure-1: Class B network data riser wiring (requires 3-RS485A or 3-RS485B)

3-CPU1

TB2

A

NETWORK

OUT

A B

IN

B

AUDIO

A IN

3-CPU1

TB2

A

NETWORK

OUT

A B

IN

B

AUDIO

A IN

3-CPU1

TB2

A

NETWORK

OUT

A B

IN

B

AUDIO

A IN

Figure-2: Class A network data riser wiring (requires 3-RS485A or 3-RS485B)

P/N: 387465 REV: 2.0 Page 3 of 5



Network audio riser connections

A 3-CPU1 equipped with a 3-RS485A or 3-RS485B card can distribute audio messages to other similarly equipped 3-CPU1 modules by way of the network audio riser. TB2 on the 3-CPU1 provides the terminal connections for connecting to the network audio riser.

Connect the network audio riser to the 3-CPU1 as shown. The

AUDIO IN terminals provide an isolated connection. The AUDIO

OUT terminals are not isolated.

Notes

• All network audio riser wiring is supervised and power-limited.

• When connecting the network wiring, always wire the isolated terminals on one CPU module to the non-isolated terminals of another.

3-CPU1

TB2

AUDIO

A IN

AUDIO

A OUT

AUDIO

B IN

AUDIO

B OUT

From

AUDIO DATA PRIMARY on 3-ASU

Figure-3: 3-CPU1 to 3-ASU wiring for single panel audio applications (no RS-485 card required)

3-CPU1

TB2

AUDIO

A IN

AUDIO

A OUT

AUDIO

B IN

AUDIO

B OUT

3-CPU1

TB2

AUDIO

A IN

AUDIO

A OUT

AUDIO

B IN

AUDIO

B OUT

3-CPU1

TB2

AUDIO

A IN

AUDIO

A OUT

AUDIO

B IN

AUDIO

B OUT

3-CPU1

TB2

AUDIO

A IN

AUDIO

A OUT

AUDIO

B IN

AUDIO

B OUT

[AUDIORISER1.CDR]

From

AUDIO DATA PRIMARY on 3-ASU

Figure-4: Typical Class B network audio riser wiring (requires a 3-RS485A or 3-RS485B card)

3-CPU1

TB2

AUDIO

A IN

AUDIO

A OUT

AUDIO

B IN

AUDIO

B OUT

3-CPU1

TB2

AUDIO

A IN

AUDIO

A OUT

AUDIO

B IN

AUDIO

B OUT

3-CPU1

TB2

AUDIO

A IN

AUDIO

A OUT

AUDIO

B IN

AUDIO

B OUT

3-CPU1

TB2

AUDIO

A IN

AUDIO

A OUT

AUDIO

B IN

AUDIO

B OUT

From

AUDIO DATA PRIMARY connections on 3-ASU

[AUDIORISER2.CDR]

Figure-5: Typical Class A network audio riser wiring (requires a 3-RS485A card)

P/N: 387465 REV: 2.0 Page 4 of 5



System

Trouble relay

System

Alarm relay

System

Supervisory relay

Common relay connections

The 3-CPU1 provides three Form C relays that can be used to activate a circuit when any alarm, trouble, or supervisory point in the system activates.

The connector pin designations reflect the state of the relay contacts while the panel is operating in its standy mode (all conditions normal). The trouble relay contacts also switch on loss of power.

Note:

All common relay wiring is power-limited when connected to a powerlimited source.

N

C

C N

O

TROUBLE

TB1

N

O

C N N

A

C

ALARM

N

O

C

SUP

N

C

3-CPU1

Figure-6: Common relay wiring

RS-232 serial port connections

A 3-CPU1 equipped with a 3-RS232 card can connect to ancillary devices that use RS-232 data communication. TB2 on the 3-

CPU1 provides the terminal connections for connecting to the 3-

RS232 devices.

The 3-RS232 card provides two independent ports for connecting serial devices.

Note:

All serial port wiring is power-limited and not supervised.

3-CPU1

R

X

1

T

X

1

R

T

S

1

C

O

M

1

R

X

2

T

X

2

TB2

R

T

S

2

C

O

M

2

3-CPU1

R

X

1

T

X

1

R

T

S

1

C

O

M

1

R

X

2

T

X

2

TB2

R

T

S

2

C

O

M

2

3-CPU1

R

X

1

T

X

1

R

T

S

1

C

O

M

1

R

X

2

T

X

2

TB2

R

T

S

2

C

O

M

2

3-CPU1

R

X

1

T

X

1

R

T

S

1

C

O

M

1

R

X

2

T

X

2

TB2

R

T

S

2

C

O

M

2

To COM terminal on listed equipment

To RxD terminal on listed equipment

To TxD terminal on listed equipment

DB25 male connector rear view

DB9 female connector rear view

Figure-7: Serial port wiring (requires a 3-RS232 card)

P/N: 387465 REV: 2.0 Page 5 of 5


DB25 female connector rear view



The 3-FIB and 3-FIBA fiber optic communications interface modules are used to connect two 3-CPU1 panel controllers together.

The 3-FIB module provides two supervised Class B (Style 4) fiber optic circuits; one for network data communications and the other for network audio. The 3-FIBA module provides two fiber optic circuits for Class B (Style 4) or Class A (Style 7) network data communications and two fiber optic circuits for

Class B (Style 4) or Class A (Style 7) network audio communications.

Note:

The 3-FIBA does not provide Class A audio when used with a 3-CPU panel controller module. The 3-FIBA only provides

Class A audio when used with a 3-CPU1.

Each fiber optic circuit consists of two 62.5/125 or 100/140 multimode fiber optic cables. The 3-FIB/3-FIBA also supports copper wire connections so the network data and audio communications format can easily be changed to and from copper and optical fiber, as job conditions require.

The fiber optic interface module consists of two cards. The electronics card plugs into the rear of the 3-CPU1 panel controller. The electronics card is connected to the fiber card by a ribbon cable. The fiber card mounts below the 3-CHAS7 chassis. The fiber card provides type ST fiber optic connectors and a secondary power option, permitting communications to flow through the module, even with panel power disconnected.

The interface receives and re-transmits network and audio data information. This permits a fiber optic budget of 14dB between any two interfaces. In the event a panel needs to be powered down for service, a 24V battery can be connected to the module to maintain network and audio communications during servicing.

SPECIFICATIONS

Installation

Connector J2 of 3-CPU1. Fiber card mounts on bracket under 3-CHAS7 chassis or on a 3-MPFIB bracket in the 3-CAB5 enclosure.

Fiber Optics (network and audio)

Budget 14dB between 2 interfaces

Cable Type

Connectors

62.5/125 or 100/140 multimode

Type ST

Network Data Circuit

Circuit Configuration

Data Rate

Isolation

Class B (Style 4) or Class A (Style 7)

9600, 19.2K, 38.4K

From "previous" 3-CPU1 using copper, total isolation using fiber optics.

Digitized Audio Data Circuit

Circuit Configuration

Data Rate

Isolation

Class B (Style 4)

Class A (Style 7) only available on

3-FIBA.

327 KB

From "previous" 3-CPU1 using copper, total isolation using fiber optics.

Copper Wired Network Data Circuit Segment

Circuit Length

Circuit Resistance

5,000 ft (1,524 m) max. between any three panels

90

W

, max.

Circuit Capacitance

Wire Type

Copper Wired Audio Data Circuit

Circuit Length

Circuit Resistance

Circuit Capacitance

5,000 ft (1,524 m) max. between any three panels

90

W

, max.

m

(includes shield capacitance, if required)

Wire Type

Current Rating

Standby

Alarm

105 mA (both models)

105 mA (3-FIB)

110 mA (3-FIBA)

WARNINGS

This product contains components which are sensitive to static electricity. Failure to follow proper handling procedures to prevent damage from electrostatic discharge may result in equipment failure.

NOTES

1. All wiring and fiber optic cable are supervised.

2. All wiring is power limited.

P6

P1

P5

P2

3-FIB/ 3-FIB A

NORM TEST

3-FIB/A Interface Card

JP1

P8

P3

P7

P4

TB1

Note: P7 and P4 on 3-FIBA only

FIBER TESTING

To test the fiber optic connection, place JP1 in the TEST position.

The 3-FIB/3-FIBA will transmit a constant signal which can be used for fiber optic budget measurements and troubleshooting.

Return JP1 to the NORM position when testing is finished.

INSTALLATION SHEET:

3-FIB/3-FIBA

Fiber Optic Communications

Interface Module


REVISION LEVEL: 2.0

DATE: 29JAN99



CORPORATION





6411 Parkland Drive

Sarasota, FL 34243

USA

625 6th Street East

Owen Sound, Ontario

Canada N4K 5P8



Refer to Figure 2. Connect one end of the ribbon cable (4) to connector J2 on the 3-FIB/A electronics card (2) using the end of the ribbon cable which allows the cable to exit at a right angle to the board as shown in the inset in Figure 1. Install the 3-FIB/A electronics card in J2 of the 3CPU1 (1). The card should be firmly seated in its connector, then secured to the 3-CPU1 controller board by pressing the snap rivet (3) on the front side of the controller. Route the ribbon cable to the bottom of the chassis.

To install the 3-FIB/A in a 3-CHAS7, mount the 3-FIB/A interface card (5) on its mounting bracket (6), on the four standoffs (7) provided. Connect the free end of the ribbon cable from J2 of the 3-CPU1 to J1 on the 3-FIB/A interface card. Place jumper JP1 in the NORM (normal) position.

Refer to Figure 3. Mount the bracket (2) on the two board mounting studs (1) located at the bottom of the chassis. The top of the bracket fits in the slot at the bottom of the lower rail extrusion (3), as detailed in the inset.

To install the 3-FIB/A in a CAB5 enclosure, snap the 3-FIB/A interface card (5) on the 3-MPFIB mounting bracket (8) studs. Connect the free end of the ribbon cable from

J2 of the 3-CPU1 to J1 on the 3-FIB/A interface card. Place jumper JP1 in the NORM (normal) position. Mount the bracket (8) on the two interface mount studs located on the right side of the CAB5 enclosure, under the rails.

Figure 1

5

Figure 2

6

J1

7

4

3-FIB/A

Electronics Card

1

J2

2

J2

3-FIB/A

Electronics Card

3

J2

3FIB3.CDR

4

P6

P1

P5

P2

5

NORM TEST

JP1

3-FIB/A

Interface Card

P8

P3

P7

P4

TB1

4

6

8

5

3-FIB/A

Interface Card

A IN NET

A OUT NET

B IN NET

B OUT NET

P5

P2

P6

P1

NORM TEST

JP1

3-FIB/A Interface Card

TB1

P7

P4

P8

P3

A IN AUDIO

A OUT AUDIO

B IN AUDIO

(3-FIB/A only)

B OUT AUDIO

(3-FIB/A only)

Sides

3

3-CPU1 side view

5

4

J1

8

3-CHAS7 - Front View Side View

Figure 3

CAB5

J9

J8

J10

J11

3-MPFIB

Mounting

Bracket

8

5

3-FIB/A

Ingerface

Card 3-PPS(/230)

3-PPS(/230)

Interface

Card

Footprint

J8

J9

J11

J10

J9

J8

J10

J11

3

[3fibmtg1.CDR]

1

2

3

2

P/N: 387333 REV: 2.0 Page 2 of 4


3-CPU1 with 3-FIB or

3-CPU1 with 3-FIBA

20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

Fiber Optic

Network Data Riser



20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

P5

P2

P6

P1

P7

P4

P8

P3

INTERCONNECTIONS

3-CPU1 with 3-FIB/A

20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

P6

P1

P5

P2

P8

P3

P7

P4

Fiber Optic


Fiber Optic

Audio Data Riser


20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

P5

P2

P6

P1

P7

P4

P8

P3

P5

P2

P6

P1

P7

P4

P8

P3



20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

P5

P2

P6

P1

P7

P4

P8

P3

Fiber Optic




20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

P6

P1

P5

P2

P8

P3

P7

P4

From 3-ASU Primary Audio Data

Figure-4A: 3-FIB(/A) Class B Network and Audio

Fiber Optic Connections

To next panel

3-CPU1 module

3-CPU1 with 3-FIB or 3-CPU1 with 3-FIBA

20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

Fiber Optic



20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

P5

P2

P6

P1

P5

P2

P6

P1

P7

P4

P8

P3

P7

P4

P8

P3


20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

P6

P1

P5

P2

P8

P3

P7

P4

Maintain physical separation or

2 hour fire rating


20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

P6

P1

P5

P2

P8

P3

P7

P4

From 3-ASU Primary Audio Data

Figure-4B: 3-CPU1 Class A Network and Audio

Fiber Optic Connections


20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

P5

P2

P6

P1

P7

P4

P8

P3

Copper Wire


Fiber Optic



20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

P6

P1

P5

P2

P8

P3

P7

P4

Fiber Optic



20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

P5

P2

P6

P1

P7

P4

P8

P3

Fiber Optic



20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

P6

P1

P5

P2

P8

P3

P7

P4

Maintain physical separation or

2 hour fire rating


20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

Copper Wire


Copper Wire


20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

P5

P2

P6

P1

P7

P4

P8

P3

3-CPU1

3-CPU1

20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

From previous panel

3-CPU1 module

Figure-4C: Class B Hybrid Fiber Optic/Copper Wire

Network and Audio Connections

From 3-ASU

Primary Audio

Data


Figure-4D: 3-CPU1 Hybrid Fiber Optic/Copper Wire

Network and Class A Fiber Optic/Copper Wire

Audio Connections

P/N: 387333 REV: 2.0 Page 3 of 4

P/N: 387333 REV: 2.0 Page 4 of 4



The Traditional Zone module provides eight Class B (Style B) traditional direct connect Initiating Device Circuits (IDC) for compatible 2-wire smoke detectors and dry contact initiating devices. Four of the eight IDCs may be converted to Class B

(Style Y) Notification Appliance Circuits (NAC). Each pair of

NAC circuits may be configured to provide a 24 VDC or signals from an external source for audio and telephone applications.

INSTALLATION

If a Control/LED Display is required on this module, mount it in the recess on the front of the module.

Secure the display to the module with the four supplied plastic rivets. Connect the display ribbon cable (P/N 250186) from connector J1 on the display to connector P1 on the module.

Each IDC may be set for latching/non-latching operation and verified/non-verified operation. Each IDC can support up to

30 model 6270B photoelectric smoke detectors or 50 model

6250B ionization detectors. Each NAC is rated at 24 VDC @

3.5 A or 70 Vrms @ 100 W. 24 VDC power for the notification appliances is available directly from the rail chassis. NOTE:

Each NAC pair is limited to a total of 3.5 A per two circuits.

When the rail chassis is used as the 24 VDC source, the module is limited to a 7 A total current draw. Input terminals are provided to supply the external signal source.

The 3-IDC8/4 has four dedicated Class B Initiating Device Circuits

(IDCs) labeled IDC3 & IDC4, and IDC7& IDC8. The module also has two pairs of configurable Class B circuits. IDC/NAC1/2 and

IDC/NAC5/6 are configurable as either two Initiating Device

Circuits or two Notification Appliance circuits (NACs).

When configured as NACs, circuits IDC/NAC1 and IDC/NAC2 share a common signal source.

When configured as NACs, circuits

IDC/NAC5 and IDC/NAC6 share a common signal source. Two jumpers on the module select the signal source for each pair of

NACs. Set jumpers JP1, JP2, JP3, & JP4, then install the module on the rail. The jumpers have no effect when IDC/NAC circuits are used as input circuits.

The Traditional Zone module requires one connection on the rail chassis and is secured to the assembly using snap rivet fasteners. All field wiring connections to the Traditional Zone module are made via plug-in connectors, permitting termination of field wiring without the module installed in the enclosure. The plug-in connectors and snap rivet mounting also facilitate rapid remove and replace troubleshooting without the use of tools. The module features a hinged front panel for mounting displays or a blank protective faceplate.

Before connecting the Traditional I/O Zone Module to the field wiring, test the field wiring. When a circuit checks out properly, connect it to the appropriate terminals. Polarity for NAC circuits is indicated for normal monitoring of the circuit's electrical integrity.

TB1 and TB2 are removable for ease of wiring. All wiring is power limited and should be routed through the notches at the right front of the chassis.

Close the module display door. Latch the door by sliding the upper latch up and the lower latch down.

SPECIFICATIONS

Installation

Module Configuration

1LRM space on the rail chassis

8 Initiating Device Circuits, 4 of which are convertible to

Notification Appliance Circuits

3-IDC8/4

Initiating Device Circuit (IDC)

Wiring Configuration

Detector Voltage

Short Circuit Current

Circuit Resistance

Capacitance

EOL Resistor

Detector Load

Class B (Style B)

16.23 to 25.4 Vdc, Max. ripple

400 mV

75.9mA Max.

50

W

Max.

100 F Max.

4.7K

m

W

Refer to compatibility listings in the EST3 Installation and

Service Manual (P/N 270380)

RX TX

TB1

2

3

JP1

1

JP2

1

2

3

1

2

3

JP3

1

2

3

JP4

Notification Appliance Circuit (NAC)

Wiring Configuration Class B (Style Y)

Voltage

Current

Power

24 Vdc Nominal, 70 Vrms Max.

3.5A @ 24 Vdc

EOL Resistor

60 W @ 25 Vrms

100 W @ 70 Vrms

15 K

W

TB2

Maximum Wire Size

Termination

2

12 AWG (2.5 mm )



Standby

Alarm


(does not include LED/Switch module on NAC)

50 mA @ 24 Vdc

330 mA @ 24 Vdc

Temperature

Humidity

32°F (0°C) to 120°F (49°C)


INSTALLATION SHEET:

3-IDC8/4

Traditional Zone I/O Module


REVISION LEVEL: 2.0

DATE: 12/17/98






SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075



WIRING

1 4

2 3

UL/ULC Listed

4.7K

W

EOL

B401B

Base

6251B-001A

Base

INITIATING DEVICE CIRCUIT (IDC)

Connect to IDC 3, 4, 7, or 8

IDC/NAC 1, 2, 5, or 6

See installation manual for additional compatible devices

DC VOLTS

O 24

-

+

-

+

-

+

-

+

-

+ +

-

UL/ULC Listed

15K

W

EOL

NOTIFICATION APPLIANCE CIRCUIT (NAC)

Connect to IDC/NAC 1, 2, 5, or 6


NOTE

WHEN WIRING MODULE FIELD WIRING PLUG,

SCALLOPED EDGE MUST FACE DOWN

AND TERMINAL CLAMP SCREWS FACE UP.

PINS ARE NUMBERED RIGHT T0 LEFT.

10 9 8 7 6 5 4 3 2 1

1 2 3 4 5 6 7 8 9 10

To TB1 on Module

TB1

Circuits

IDC/NAC 1/2

IDC/NAC 5/6

JUMPER SETUP

Signal Source

External via Terminals Internal 24 VDC

(3.5A max. per NAC pair)

JP1 to 1 & 2

JP2 to 1 & 2

JP1 to 2 & 3

JP2 to 2 & 3

JP3 to 2 & 3

JP4 to 2 & 3

JP3 to 1 & 2

JP4 to 1 & 2

RX TX

2

3

JP1 JP2

1

1

2

3

1

2

3

JP3

3

JP4

1

2

TB2

10 9 8 7 6 5 4 3 2 1

Wiring Notes

1.

For maximum wire resistance, refer to the appendix.

2.

Maximum #12 AWG (2.5 mm ) wire; minimum #18 AWG (0.75

3.

Shields (if used) must be continuous and free from Earth Ground.

4.

IDC/NACs 1 & 2 share the same input source. Set both JP1 & JP2 to 1/2 for the external source (TB1-9 & 10). Set JP1 & JP2 to 2/3 for the internal 24 VDC source. NOTE: There is a 3.5 amp total limit for both NAC1 and NAC2. External sources must be power limited.

5.

IDC/NACs 5 & 6 share the same input source. Set both JP3 & JP4 to 2/3 for the external source (TB2-1 & 2). Set JP3 & JP4 to 1/2 for the internal 24 VDC source. NOTE: There is a 3.5 amp total limit for both NAC5 and NAC6. External sources must be power limited.

6. All wiring is supervised and power limited.

7. Polarity shown in supervisory mode.

P/N: 270492 REV: 2.0 Page 2 of 2



The 3-LDSM LED Display Support Local Rail Module provides the circuitry required to operate a Control/LED display when the cabinet does not have enough modules installed on a rail chassis to support the number of displays required.

SPECIFICATIONS

Installation

1 LRM space


32°F to 120°F (0°C to 49°C)


INSTALLATION

1.Mount the Control/LED Display in the recess on the front of the module.

2.Secure the display to the module with the four supplied plastic rivets.

3.Connect the display ribbon cable (P/N 250186) from connector J1 on the display to connector J1 on the module.

4.Install the module on the rail.

5.Close the module display door. Latch the door by sliding the upper latch down , and the lower latch up.

3-LDSM

TX RX

TX RX


J1

[3LDSM.CDR]

DC VOLTS

O 24

INSTALLATION SHEET:

3-LDSM

LED Display Support Local Rail Module


REVISION LEVEL: 2.0


DATE: 06/14/99



SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075






SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075




P3

The Modem Communicator (MODCOM) is designed with modem and dialer capabilities. The MODCOM is used for downloading information from remote sites.

The MODCOM is designed with dialer communication capabilities. It sends alarm, supervisory, and trouble information to a remote site using one or two telephone lines

(two per NFPA 72). This information can be reported in dual or split format for sending to any desired receiver.

The MODCOMP is designed with pager interface communication capabilities. Information is sent to remote sites like the MODCOM, but can also be sent to individual predefined pagers.

Multiple MODCOMs can be used in a cabinet and in a network environment. Every 24 hours, the MODCOM performs an automatic test call to verify communications between the fire alarm panel and the Central Monitoring Station (CMS).

Specifications

All MODCOMs

Input power: 60 mA (supervisory), 95 mA (active)

Mounting: One expansion slot

Phone line: One/two loop start line on public switched telephone network, pulse, or DTMF dialing. (Party, ground start, and PBX lines are not acceptable.)

Wall connector: Standard RJ31X or RJ38X phone jack

Line supervision

Trouble when: On-hook line voltage < 10 V

Off-hook current < 10 mA

Telco compliance: Communications Canada CS-03,

FCC/CFR 47 Part 68



Humidity: 0 to 93% RH (Non-condensing)

FCC registration number: EDWUSA-47115-AL-E

3-MODCOM, 3-MODCOMP

Modem Communicator

3-MODCOM

Modem: V.32 bis 14.4 K baud

Dialer communication protocols

3/1, 4/2 format: 20 pulse/round 3/1 and 4/2 double round

Contact ID: DTMF format

SIA DCS: 300 baud

Dialing retries: Programmable

CMS telephone numbers: 80, 25-digit numbers

3-MODCOMP

All 3-MODCOM specifications apply, plus the following.

Pager interface communication protocol

TAP: Telelocator Alphanumeric Protocol for pagers


1.

Install a display faceplate in the recess on the front of the module if needed. Refer to the Control/LED Displays installation sheet P/N 270493 for more information.

2.

Mount the MODCOM in one space on the rail chassis.

3.

Connect phone lines to Line 1 and Line 2 as indicated on the wiring diagram on this sheet.

WARNINGS

1.

Remove AC and battery power before installing or removing option modules.

2.

Components in this system are static sensitive. Discharge static buildup on your body before handling.

3.

The MODCOM does not place calls or monitor the panel or phone line during the programming process.

4.

When programming emergency numbers and/or making test calls to emergency numbers: a.

Remain on the line and briefly explain to the dispatcher the reason for the call.

b.

Perform such activities in the off-peak hours, such as early morning or late evenings.

5.

It is up to the installer to verify DACT/receiver compatibility at least once per year.

Installation Sheet 04SEP01 P/N: 387476 REV: 1.0

1 / 2

Wiring diagram

SURGE

PROTECTOR

RING

(RED)

YELLOW

BLACK

PREMISES

PHONES

3

4

2

1

5

6

8

7

TIP

(GREEN)

RJ31X

8 PIN MODULAR

CONNECTOR FOR

PHONE LINE #1

TO PHONE LINE #2

(WIRED SAME AS

PHONE LINE #1)

3

4

2

1

5

6

8

7

RJ31X

8 PIN MODULAR

CONNECTOR FOR

PHONE LINE #2

NO T-TAPS

PERMITTED

Notes

[1] Connect J20 and J21 to RJ31X or RJ38X

(CA31A or CA38A in Canada) telephone jacks installed by an authorized telephone company representative. Jacks must be installed within 5 ft. (1.5 m) of the panel.

[2] Supervised and nonpower-limited.

[3] Install the provided Ferrite clamps as shown. The clamps must be mounted on the lines as they exit the cabinet.

J20

[1]

J21

MODCOM

(FRONT VIEW)

FERRITE

CLAMPS

[3]

7 FT

(2.13 M)

[2]

FCC Information

1.

2.

3.

4.

5.

6.

7.

8.

The dialer complies with Part 68 of the FCC rules. The dialer's FCC certification number and Ringer Equivalence Number (REN) must be seen from the front. This information must be provided to the telephone company if requested.

An FCC compliant telephone cord and modular plug cord is supplied with the dialer. The dialer is designed to be connected to the telephone network using the supplied cord and an RJ31X or RJ38X jack, which must also comply with FCC Part 68 rules.

The REN is used to determine the quantity of devices, which may be connected to the telephone line. Excessive RENs on the telephone line may result in the devices not ringing in response to an incoming call. In most, but not all areas, the sum of RENs should not exceed five (5). To be certain of the number of devices that may be connected to a line as determined by the total RENs, contact the local telephone company.

If the dialer causes harm to the telephone network, the telephone company will notify you an advance that temporary discontinuance of service may be required. If advance notice is not practical, the telephone company will notify you as soon as possible. You will also be advised of your right to file a complaint with the FCC, if you believe it is necessary.

The telephone company may make changes in its facilities, equipment, operations, or procedures that could affect the operation of the dialer. If this happens, the telephone company will provide advance notice in order for you to make necessary modifications to maintain uninterrupted service.

If trouble is experienced with the dialer, for repair or warranty information, contact GS Building Systems Corp., 6411 Parkland Drive, Sarasota, Florida

34243 USA. If the dialer is causing harm to the telephone network, the telephone company may request you disconnect the dialer until the problem is resolved.

No repairs may be performed on the dialer by the user.

The dialer can not be used on public coin phones or party line service provided by the telephone company.

P/N: 387476 REV: 1.0

04SEP01

Industry Canada Information

NOTICE: The Industry Canada label identifies certified equipment. This certification means that the equipment meets certain telecommunications network protective, operational, and safety requirements as prescribed in the appropriate Terminal Equipment Technical Requirements document(s). The

Industry Canada does not guarantee the equipment will operate to the user's satisfaction.

Before installing this equipment, users should ensure that it is permissible to be connected to the facilities of the local telecommunications company. The equipment must also be installed using an acceptable method of connection. The customer should be aware that compliance with the above conditions may not prevent degradation of service in some situations.

Repairs to certified equipment should be coordinated by a representative designated by the supplier. Any repairs or alterations made by the user to this equipment, or equipment malfunctions, may give the telecommunications company cause to request the user to disconnect the equipment.

Users should ensure for their own protection that the electrical ground connections of the power utility, telephone lines, and internal metallic water pipe system, if present, are connected together. This precaution may be particularly important in rural areas.

Caution: Users should not attempt to make connections themselves, but should contact the appropriate electric inspection authority, or electrician, as appropriate.

NOTICE: The Load Number (LN) assigned to each terminal device provides an indication of the maximum number of terminals allowed to be connected to a telephone interface. The termination on an interface may consist of any combination of devices subject only to the requirement that the sum of the Load

Numbers of all devices does not exceed 5.

Installation Sheet

3-MODCOM, 3-MODCOMP - Modem Communicator


SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075




TB1

Network

A Side

Network

JP1

B Side

1

3

The NSHM short haul modems provide long distance network communication between nodes, typically using existing telephone conductors.

The NSHM1 provides a single short haul modem and converts the signal to RS-485 format for network connections to additional network nodes. The NSHM2 provides two short haul modems for use when two short haul modems are required for connections to additional network nodes.

Notes

1.

Because short haul modems are not compatible with RS-485 connections, two modems must be used; one connected to each panel.

2.

A Ground Fault Detector (model GFD) must be used with this product.

Each short haul modem circuit consists of one or two pairs of twisted pair cable. Network wiring can be installed as Class A or Class B, depending on the installation.

The NSHM1 also supports RS-485 connections. This permits network data communications format changes from short haul modem connection to RS-485 and from RS-485 to a short haul modem connection.

The short haul modems provide a network connection test, making the use of a separate signal source unnecessary. This reduces setup and troubleshooting time.

Note: The short haul modems do not transmit digitized audio signals between nodes, and they do not support annunciator panels. The

NSHM does support network audio over RS-485 connections at the

CPU1.

•

•

•

•

•

Parts list

3-NSHM1(2)

Ribbon cable

Modem(s)

Battery connection wire

3-MPFIB

Specifications

Agency listings: UL

Installation: Interface Adapter connects to J2 on the CPU1, Modem card mounts on MPFIB on CHAS7 or CAB5 enclosure

3-NSHM1(2)

Network Short Haul Modem

Network data circuit

Configuration: Class B or Class A

Data rate: 19.2 Kb, or 38.4 Kb

Isolation: Isolated from “previous” CPU1

RS-485 circuit

Circuit length: 5,000 ft (1,524 m) max. between any three panels

Circuit resistance: 90 W maximum

Circuit capacitance: 0.3 mF maximum

Wire type: Twisted pair, 18 AWG (0.75 sq mm) minimum

Test functions: Remote digital loopback (refer to the Installation and

Service manual)

Power consumption Supervisory or Alarm

NSHM1: 90 mA @ 24 Vdc,

NSHM2: 100 mA @ 24 Vdc




Short haul modem circuit maximums

19 AWG 24 AWG

Resistance

Capacitance

16.3

W/1000 ft

(53.5 W/km)

83 nF/mi

[15.72 pF/ft]

(151.6 nF/km)

51.64

W/1000 ft

(169.5 W/km)

83 nF/mi

[15.72 pF/ft]

(151.6 nF/km)

Distance

@ 38.4 Kb

@ 19.5 Kb

6 mi (9.7 km)

9 mi (14.5 km)

3.5 mi (5.6 km)

5 mi (8 km)

26 AWG

82.35

W/1000 ft

(270.2 W/km)

83 nF/mi

[15.72 pF/ft]

(151.6 nF/km)

2 mi (3.2 km)

3 mi (4.8 km)


WARNING: Power down the panel before proceeding with the installation and wiring instructions.

Step 1: Mount the MPFIB bracket

CHAS7 Installation

CAB5 Installation

3-PPS(/230)

J 8

J 1 0

J 9

J 11

J 8

J 9

J 11

J 1 0

J 9

J 8

J 1 0

J 11

Half footprint mounting space

MPFIB

Mounting

Bracket

Half footprint mounting space

MPFIB

Mounting

Bracket

Installation Sheet 30AUG01 P/N: 387596 REV: 1.0

1 / 4

Step 2: Mount the Interface Adapter to the CPU1

CPU1

J2

Interface

Adapter

J2

Snap rivet

J2

Interface

Adapter

Mounting bracket

CPU1

Snap rivet

NSHM snaps to standoffs on the MPFIB

Step 3: Set the jumper on the NSHM

Connected to

Interface Adapter

Ribbon cable

Step 6: Set up the modem

DIP switch SW1 and SW2 must be set up prior to installation. The following tables show the proper switch positions.

NSHM

Network

JP1

B Side

1

2

3

1

2

3

JP1

4-wire mode

Rear view

SW1 SW2

ON

1 2 3 4 5 6 7 8

Note: This setup configures the wiring of the modem. The jumper configures BOTH modem (DB25) connections on the NSHM.

Step 4: Connect the ribbon cable from J2 on the Interface Adapter to J1 on the NSHM

SW1

CPU1

Data rate

19.2 Kbps

38.4 KBps

Carrier

4-wire constantly

ON

J1

NSHM

(rear view)

Interface

Adapter

J2

Ribbon cable

1 2 3 4 5 6 7

On

On

On

On

On

Off

Off

Off

On

On

On

On

On

On

8

Off

SW2

1 2 3 4 5 6 7

Operation

4-wire full-duplex

Step 7: Wire the modem(s)

1.

Open the unit with a screwdriver. Do not insert the screwdriver more than 1/4 in (0.6 cm) into the enclosure.

The terminal block is located at the back of the unit.

8

Off Off Off On On On Off Off

Step 5: Mount (snap) the NSHM to the MPFIB mounting bracket

Note: The ribbon cable must be connected before completing this step.

P/N: 387596 REV: 1.0

30AUG01 Installation Sheet

3-NSHM1(2) - Network Short Haul Modem

2.

Strip and prepare wire for installation.

3.

4-Wire installation:

Note: Observe wiring polarity between modems. The G (shield) connection is optional.

Modem 1 wiring

XMT (transmit)

XMT (transmit)

RCV (receive)

RCV (receive)

Modem 2 wiring

® RCV (receive)

® RCV (receive)

® XMT (transmit)

® XMT (transmit)

}

One pair

}

One pair

4.

Place the two halves of the strain-relief assembly on both sides of the cable and press together lightly. Slide the assembly to about

2 in. (5.1 cm) from the terminal posts and press together firmly.

Step 8: Connect the modem(s)

Important

1.

When connecting the NSHM to a CPUx using the Class A

Network connection on TB2, you must connect the modem to the

Network B side on the NSHM.

2.

When connecting the NSHM to a CPUx using the Class B

Network connection on TB2, you must connect the modem to the

Network A side on the NSHM.

T o the next modem c onnected to the

Network B Side of NSHM

Modem 1

Note: Make sure the BERT and

LOOP slide switches are in the center (normal) position. If not, the modem will be in a test mode and will not function properly.

Network

A Side

TB1

NSHM

Network

JP1

B Side

1

2

3

5.

Place the modem in the bottom half of the modem case, and insert the strain-relief assembly into the slot in the bottom of the case.

6.

Insert the captive screws through the saddle washer, then insert the screw and washer through the holes in the DB25 end of the case.

7.

Attach the top of the case.

Modem 2

(if used)

To t he next modem c onnected to the

Network A Side of NSHM

Wiring diagrams

Notes

The following notes apply to all wiring diagrams in this topic.

[1] Ditek Module (#DTKD2LVLP) must be used if wiring is between buildings.

[2] Each Ditek module adds 8 ohms of resistance to the line.

[3] Ground Fault Detector (model GFD) must be used, refer to installation sheet P/N 387630.

Installation Sheet 30AUG01 P/N: 387596 REV: 1.0

3 / 4

Network B to A wiring using the NSHM1

CPUx

Note: No wiring permitted to Network

B IN connection.

TB2

Network

OUT

IN

+ -

Ribbon

Cable

Network

A Side

NSHM1

Network

B Side

From previous panel controller

TB2-NETWORK IN B+/B-

Up to 6 miles

(see Specifications)

Ditek

[1]

[2]

Network A to B wiring using the NSHM1

GFD

[3]

Ditek

[1]

[2]

CPUx

Network

A Side


A OUT connection.

TB2

Network

A

+

A

-

B

+

IN

Ribbon

Cable

NSHM1

Network

B Side


TB2-NETWORK IN A+/A-

Network wiring using the NSHM2

Ditek

[1]

[2]

GFD

[3]

CPUx

Network

A Side


A OUT connection.

TB2

Network

OUT

+ -

IN

B

Ribbon

Cable

NSHM1

Network

B Side

To next panel controller


Up to 6 miles


Ditek

[1]

[2]

CPUx


B IN connection.

TB2

Network

OUT

+ -

IN

B

Network

A Side

Ribbon

Cable

NSHM1

Network

B Side



CPUx


B IN connection.

TB2

Network

OUT

IN

+ -

Network

A Side

Ribbon

Cable

NSHM1

Network

B Side



Ditek

[1]

[2]

P/N: 387596 REV: 1.0

Ditek

[1]

[2]

GFD

[3]

Ditek

[1]

[2]

GFD

[3]

CPUx

Single Node

Network

A Side

Ribbon

Cable

NSHM2

TB2

Network

OUT IN

+ -

Network

B Side

Up to 6 miles


30AUG01

Ditek

[1]

[2]

CPUx


A OUT connection.

TB2

Network

OUT

IN

+ -

Ribbon

Cable

Network

A Side

NSHM1

Network

B Side

Up to 6 miles




Installation Sheet

3-NSHM1(2) - Network Short Haul Modem


The Off Premise Signaling module provides three independent reverse polarity circuits for transmitting alarm, supervisory, and trouble signals to compatible receivers.

Reversing a circuit's polarity indicates an active alarm condition; loss of circuit continuity indicates circuit trouble.

As an alternate to three independent circuits, the reverse polarity alarm circuit may be configured to transmit panel trouble by removing circuit continuity, when using a compatible single circuit reverse polarity receiver. A supervised local energy master box trip circuit is also provided to activate a 14.5-ohm master box trip coil. A configurable NO/NC trouble contact is provided on the module.

The 3-OPS module requires one connection on the rail chassis and is secured to the assembly using snap rivet fasteners.

All field wiring connections to the 3-OPS module are made via plug-in connectors, permitting termination of field wiring without the module installed in the enclosure. The plug-in connectors and snap rivet mounting also facilitate rapid remove and replace trouble shooting without the use of tools. The module features a hinged front panel for mounting displays or a blank protective faceplate.

TROUBLE RELAY/JUMPER SETUP

Contact Configuration

(system normal)

Closed

Jumper JP1

Setting

2/3

Open 1/2

Trouble Relay Operation:

3 circuit and local energy configurations: independant of alarm

1 circuit configuration: remains closed during alarm

INSTALLATION

1. Set jumpers as required.

2. Install a display or blank faceplate on the front of the module.

3. Mount the 3-OPS module to one connection on the rail chassis.

4. Install the provided snap rivet fasteners.

5. Install all wiring using the wiring diagram on this sheet.

SPECIFICATIONS

Installation 1 space on the rail chassis

Circuit Configuration:

Reverse Polarity 3 independent reverse polarity

Local Energy circuits for alarm, supervisory, and trouble notification

14.5-ohm coil

3-OPS

TX RX

Maximum Wire Size

Trouble Relay

Termination

NO or NC configuration rated

24 Vdc @ 1 A

Removable plug-in termination strips on module

Open Circuit Voltage 24 Vdc, nominal

Short Circuit Current 7 mA Max.

3

2

JP1

1


Standby current

Alarm current

(does not include LED/Switch module):

53 mA @ 24 Vdc

147 mA @ 24 Vdc

Operating Environment:

Temperature

Humidity

32°F (0°C) to 120°F (49°C)


INSTALLATION SHEET:

3-OPS

Off Premise Signal Module


REVISION LEVEL: 2.0

DATE: 12/17/98





CORPORATION





6411 Parkland Drive

Sarasota, FL 34243

625 6th Street East


WIRING


10

10

DC VOLTS

O 24

P/N: 270494 REV: 2.0 Page 2 of 2


10

9 INSTALL UL LISTED SECONDARY PROTECTOR,

DITECK MODEL DTK-36VLPSCP ACROSS ALL

OUTSIDE WIRING.

10

15 kohm EOL resistor required across TB1-3

& TB1-4 when 3-OPS is configured as Local

Energy Municipal Box AND NOT wired to

Municipal Circuit. Remove for all other applications.

MUNICIPAL

CIRCUIT


3-PPS/M and 3-PPS/M-230 primary power supply

The 3-PPS/M(-230) primary power supply provides the required power and related supervision functions for the panel. The supply is comprised of two major components: the power supply monitor module, model 3-

PSMON, which mounts on the rail chassis, and the heat sink assembly, model 3-PPS, which mounts on the rear of the rail chassis. The primary power supply provides filtered, regulated power to power all modules connected to the rail chassis as well as 24 Vdc for auxiliary applications.

The primary power supply is rated at 24 Vdc @ 7.0A for all outputs. Two independent, power limited, supervised 24 Vdc, 3.5 A auxiliary power outputs are provided on the primary supply. 24 Vdc auxiliary output is available on plug-in terminals on the primary power supply module. AC power and battery connections are made to fixed terminals on the heat sink assembly, remote from the panel's power limited wiring.

The primary power supply supervises the standby batteries and provides a dual rate constant current battery charger featuring automatic temperature compensation. The charger is capable of charging batteries up to 65 Ah. A battery monitor circuit disconnects the batteries from the system when battery voltage drops below acceptable limits, which prevents memory problems and a total discharge of the batteries.

The power supply checks the ac input source and initiates the automatic transfer to batteries in the event of a brownout or loss of ac power. In the event of a failure of one or more booster power supplies, the primary power supply determines its ability, along with the surviving booster supplies, to supply the load. Should the load ever exceed the ability of the primary and surviving booster supplies to meet the demand, the standby batteries are automatically switched in. The supply will transfer to battery should an overload cause its heat sink temperature to reach a high level.

The 3-PPS/M (-230) offers a comprehensive level of supervision. Dynamic battery load testing periodically disables the battery charger, loads the battery, then monitors the battery voltage over a predetermined time period. Battery failure is annunciated if the battery fails to maintain an acceptable voltage level. Load testing continues periodically, until the battery capacity is sufficient to meet the load test criteria.

The primary power supply monitor module provides the interface between the power supply and the panel making the required data and power connections to and from the rail chassis. The monitor module requires one connection on the rail chassis and is secured to the assembly using snap rivet fasteners. The module features a hinged front panel for mounting displays or a blank protective faceplate.

3-BPS/M and 3-BPS/M-230 Power Supply Booster

The 3-BPS/M(-230) power supply booster module is used to provide additional power over and above the primary power supply. Up to three additional 24 Vdc, 7.0 A power boosters may be added in each enclosure, making a total of 28A available for both internal and external applications.

The power supply booster is comprised of two major components: the booster monitor module which mounts on the rail chassis, and the heat sink assembly, which mounts on the rear of the rail chassis. Each booster provides filtered, regulated power to power all modules connected to the rail chassis as well as 24 Vdc for auxiliary applications. Each booster is rated at 24 Vdc @ 7.0 A for all outputs. Two independent, power limited, supervised 24 Vdc, 3.5 A auxiliary power outputs are provided on the booster. The power boosters share a common standby battery with the primary power supply. Each booster supervises its own connection to the battery, however, all battery charging and monitoring is done by the primary power supply. The power supply boosters share the panel's 24

Vdc electrical load with the primary power supply. In the event of a failure of a booster power supply, a trouble is annunciated, and the panel load is distributed among the operational power sources. Should the load ever exceed the ability of the operable power sources to supply the power, as in the event of an alarm, the system will automatically transfer to standby batteries.

The power supply booster monitor module provides the interface between a power supply booster and the panel, making the required data and power connections to and from the rail chassis. The booster monitor module requires one connection on the rail chassis and is secured to the assembly using snap rivet fasteners. The module features a hinged front panel for mounting displays or a blank protective faceplate.

3-PPS/M (-230) and 3-BPS/M (-230)

G

120 VAC

N H

TB1

SPECIFICATIONS

3-PPS/M (-230) and 3-BPS/M (-230)

Installation Heat sink assembly mounts behind chassis rails

Monitor module requires one module space

Power Input

Brownout Level

120 Vac, -10%, +15%, 3.0 A, 50 - 60 Hz

230 Vac, -10%, +15%, 1.5 A, 50 - 60 Hz (-230 only)

<

<

102 Vac

195 Vac (-230 only)

Outputs

Total 24 Vdc @ 7.0 A, internal and auxiliary outputs

Internal DC 24 Vdc @ 7.0 A max.

Auxiliary DC Two 24 Vdc @ 3.5 A max. ground fault and short supervised, power limited outputs

Termination

AC Input Terminals on heat sink assembly

Batteries Terminals on heat sink assembly

Internal DC Output LRM chassis rails via monitor module

Auxilary DC Output Removable plug-in terminal strips on monitor module


Temperature

Rel. Humidity

32 °F to 120 °F (0 °C to 49 °C)

93% RH non-condensing

3-PPS/M and 3-PPS/M-230 only

Battery Charging

Capacity

Type

10 - 65 Amp-hours

Temperature compensated dual rate

Supervision

Low AC

High Battery

Discharged Battery ( 18 Vdc)

Ground Fault ( 10 k )

3-BPS/M and 3-BPS/M-230 only

Supervision

Low AC

Low Battery ( < 22.5 Vdc)

W

P3

TB2

+BATTERY-

TEMP

MON

AUXILIARY POWER

1 2

+ + -

INSTALLATION SHEET:

3-PPS/M (3-PPS/M-230) Primary power supplies

3-BPS/M (3-BPS/M-230) Booster power supplies


REVISION LEVEL: 2.0

DATE: 25OCT99



CORPORATION


APPROVED BY: J.W.



6411 Parkland Drive

Sarasota, FL 34243

USA

625 6th Street East

Owen Sound, Ontario

Canada N4K 5P8



Step I. Mounting the power supply assembly:

1. Position the power supply assembly behind the rails on the rail chassis assembly.

2. Attach the power supply assembly to the 4 threaded mounting studs.

3. Screw the bottom edge of the power supply assembly to the threaded stand-offs on the rail chassis assembly.

4. Secure the top edge of the power supply assembly to the rail chassis assembly using the stand-offs provided in the hardware kit.

5. Screw the power supply cover (not shown) to the standoffs on the top edge of the power supply assembly.

Notes:

1. The primary power supply must always be mounted in the left mounting position of the chassis containing the panel controller.

2. Monitor modules for power supplies mounted in the left mounting position may only be installed in rail slot position 3. Monitor modules for power supplies mounted in the right mounting position may be installed in rail slot positions 4, 5, or 6.

#6-32 threaded stand-off

(2 places)

G

120 VAC

N H

TB1

P3

TB2

+BATTERY-

TEMP

MON

Right mounting area for installing second power supply

#6-32X3/8 pan head screw

(2 places)

#8-32 lock nut

(4 places)

J8

J10

J9

J11

G

120 VAC

N H

TB1

Caution: This product contains components that are sensitive to static electricity. Failure to follow proper handling procedures to prevent damage from electro-static discharge may result in equipment damage.

Step 2. Installing the power supply monitor module:

1. Connect the 6-wire cable harness to P6 on the power supply monitor. Push in until the connector clicks.

2. Connect the ribbon cable to J4 on the power supply monitor.

3. Align the power supply monitor to the slot 3 guide posts on the rail chassis assembly.

4. Route the 6-wire cable harness over and behind the bottom rail and connect to P2 on the primary power supply. Push in until the connector clicks.

5. Route the ribbon cable under the bottom rail and connect to P3 on the primary power supply.

6. Slide the module into the slot 3 rail connectors and lock into place using the snap rivet fasteners.

P2

P3

P3

TB2

+BATTERY-

TEMP

MON

250187

J4

P6

250189 (primary monitor module)

250188 (booster monitor module)

Step 3. Wiring the power supply:

1.

Ensure that the mains ac circuit is deenergized.

Connect the mains ac conductors to TB1 on the power supply assembly. Refer to Figure-1 on page 3.

2. Connect the standby battery conductors to TB2 on the power supply assembly. Refer to Figure-2 on page 3 .

3. If a remote battery cabinet is used, connect the temperature sensor conductor to TB2 on the primary power supply assembly. Refer to Figure-2 on page 3.

4.

Connect the 24 Vdc auxiliary power riser conductors to

TB1 on the power supply monitor module. Refer to

Figure-3 on page 4.

G

120 VAC

N

H

TB1

J8

J10

J9

J11

P3

TB2 AUXILIARY POWER

1 2

+ + -

+BATTERY-

TEMP

MON

P/N: 270495 REV: 2.0 Page 2 of 4



From dedicated mains ac power distribution (if primary power supply) or from previous power supply in same cabinet (if booster power supply)

WARNING:

High voltage levels capable of causing injury or death may be present. Precautionary measures must be taken to ensure that the mains ac circuit is deenergized and prevented from being switched on inadvertently.

Notes:

1. Install wiring in accordance with the National Electrical Code and all other local requirements.

2. Up to 4 primary or booster supplies may be connected to a single ac source circuit.

TB1

To next booster power supply in same cabinet

G

120 VAC

N H

TB1

G

230 VAC

L2 L1

TB1

Power supply assembly

TB1 terminal designations

Figure-1: Mains ac wire connections

Caution:

Disconnecting the battery from the power supply while the cabinet is deenergized may damage the battery.

Notes:

1. Each power supply shall have its own separate pair of conductors going to the battery.

2. The batteries must already be connected to the primary power supply when the cabinet is energized in order to activate the battery charging circuit.

TB2

From positive and negative terminals of cabinet battery or from battery distribution bus in remote cabinet

From temperature sensor in remote cabinet

Figure-2: Standby battery wire connections

P/N: 270495 REV: 2.0 Page 3 of 4


TB2

TEMP

BATTERY MON




AUXILIARY POWER

1 2

Monitor module


From 24 Vdc auxiliary power riser #2


Figure-3: 24 Vdc auxiliary power riser wire connections

P/N: 270495 REV: 2.0 Page 4 of 4



3-PPS/M-230-E Primary power supply

The 3-PPS/M-230-E primary power supply provides the required power and related supervision functions for the panel. The supply is comprised of three major components: the power supply monitor module, model 3-

PSMON, which mounts on the rail chassis, and the heat sink assembly, model 3-PPS, which mounts on the rear of the rail chassis, and the ac power distribution assembly. The primary power supply provides filtered, regulated power to power all modules connected to the rail chassis as well as 24 Vdc for auxiliary applications. The primary power supply is rated at

24 Vdc @ 7.0A for all outputs. Two independent, power-limited, supervised

24 Vdc, 3.5 A auxiliary power outputs are provided on the power supply monitor module . AC power and battery connections are made to fixed terminals on the heat sink assembly, remote from the panel's power limited wiring.

The primary power supply supervises the standby batteries and provides a dual rate constant current battery charger featuring automatic temperature compensation. The charger is capable of charging batteries up to 17 Ah. A battery monitor circuit disconnects the batteries from the system when battery voltage drops below acceptable limits, which prevents memory problems and a total discharge of the batteries.

The power supply checks the ac input source and initiates the automatic transfer to batteries in the event of a brownout or loss of ac power. In the event of a failure of one or more booster power supplies, the primary power supply determines its ability, along with the surviving booster supplies, to supply the load. Should the load ever exceed the ability of the primary and surviving booster supplies to meet the demand, the standby batteries are automatically switched in. The supply will transfer to battery should an overload cause its heat sink temperature to reach a high level.

The primary power supply monitor module provides the interface between the power supply and the panel making the required data and power connections to and from the rail chassis. The monitor module requires one connection on the rail chassis and is secured to the assembly using snap rivet fasteners. The module features a hinged front panel for mounting displays or a blank protective faceplate.

3-BPS/M-230-E Booster power supply

The 3-BPS/M-230-E booster power supply is used to provide additional power over and above the primary power supply. Up to three additional 24

Vdc, 7.0 A power boosters may be added in each enclosure, making a total of 28A available for both internal and external applications. The power supply booster is comprised of two major components: the booster monitor module which mounts on the rail chassis, and the heat sink assembly, which mounts on the rear of the rail chassis. Each booster provides filtered, regulated power to power all modules connected to the rail chassis as well as 24 Vdc for auxiliary applications. Each booster is rated at 24 Vdc @ 7.0

A for all outputs. Two independent, power limited, supervised 24 Vdc, 3.5 A auxiliary power outputs are provided on the booster. The power boosters share a common standby battery with the primary power supply. Each booster supervises its own connection to the battery, however, all battery charging and monitoring is done by the primary power supply. The power supply boosters share the panel's 24 Vdc electrical load with the primary power supply. In the event of a failure of a booster power supply, a trouble is annunciated, and the panel load is distributed among the operational power sources. Should the load ever exceed the ability of the operable power sources to supply the power, as in the event of an alarm, the system will automatically transfer to standby batteries.

The power supply booster monitor module provides the interface between a power supply booster and the panel, making the required data and power connections to and from the rail chassis. The booster monitor module requires one connection on the rail chassis and is secured to the assembly using snap rivet fasteners. The module features a hinged front panel for mounting displays or a blank protective faceplate.

SPECIFICATIONS

3-PPS/M-230-E and 3-BPS/M-230-E

Installation Power distribution assembly mounts behind chassis

Heat sink assembly mounts behind chassis rail

Monitor module requires one module space

Power Input

Brownout Level

230 Vac, +10%, -15%, 2.0 A, 50 Hz

< 188 Vac

Outputs

Total 24 Vdc @ 7.0 A, internal and auxiliary outputs

Internal DC 24 Vdc @ 7.0 A max.

Auxiliary DC Two 24 Vdc @ 3.5 A max. ground fault and short supervised, power limited outputs

Termination

AC Input Terminals on heat sink assembly

Batteries Terminals on heat sink assembly

Internal DC Output LRM chassis rails via monitor module

Auxilary DC Output Removable plug-in terminal strips on monitor module


Temperature

Rel. Humidity

3-PPS/M-230-E only

23 to 104 °F (-5 to 40 °C)

93% RH non-condensing

Battery Charging

Capacity

Type

10 - 17 Ah

Temperature compensated dual rate,

1.5 A/3.0 A

Supervision

Low AC

High Battery

Discharged Battery ( 18 Vdc)

Ground Fault ( 10 k )

3-BPS/M-230-E only

Supervision

Low AC

W

3-PPS/M-230-E and 3-BPS/M-230-E

E

230 VAC

N L

TB1

L N

TB1

P3

TB2

+BATTERY-

TEMP

MON

AUXILIARY POWER

1 2

TB2

L N

TB3

L N

INSTALLATION SHEET:

3-PPS/M-230-E Primary power supplies

3-BPS/M-230-E Booster power supplies


REVISION LEVEL: 1.0

DATE: 30JUN99



CORPORATION





6411 Parkland Drive

Sarasota, FL 34243

USA

625 6th Street East

Owen Sound, Ontario

Canada N4K 5P8




#6 internal tooth washer

(6 places)

A

L N

TB1

Earth ground braid

Step I. Mount the power distribution assembly.

1. Screw the power distribution assembly to the threaded stand-offs on the rail chassis assembly (see Figure-1).

2. Attach the Earth ground braid to the back box ground stud located just above the power distribution assembly

(see detail A).

Note:

The power distribution assembly must always be mounted in the rail chassis at the top of the equipment enclosure in the location shown.

Stud on equipment enclosure back box

Stud on power distribution assembly

Mains ac

Earth conductor

TB2

L N

TB3

L N

Note: Rails removed for clarity

Figure-1: Power distribution assembly mounting

To filter #1

To filter #2

A

Step 2. Mount the power supply assembly.

1. Attach the power supply assembly to the 4 threaded mounting studs

(see Figure-2) .

on the rail chassis assembly

2. Screw the bottom edge of the power supply assembly to the threaded standoffs on the rail chassis assembly.

3. Secure the top edge of the power supply assembly to the rail chassis assembly using the threaded studs and standoffs provided in the hardware kit.

Notes:

1. The primary power supply must always be mounted in the left mounting position of the chassis containing the panel controller.

2. Booster supplies, if required, may be mounted in any rail chassis, but no more than three booster supplies may exist in any one cabinet.

#6-32 threaded standoff

(2 places)

E

230 VAC

N L

TB1

L N

TB1

P3

TB2

+BATTERY-

TEMP

MON

TB2

L N

TB3

L N

Note: Rails removed for clarity


(2 places)

#8-32 lock nut

(4 places)

Figure-2: Power supply assembly mounting

P/N: 387555 REV: 1.0 Page 2 of 6



E N L

TB1

TB1

Step 3. Connect filtered ac power to the supplies.

1. Using double-insulated wire, connect the filtered ac Line and Neutral conductors to the power supplies as follows

(see Figure-3):

From

Power distribution assembly

TB2-L

TB2-N

To

Power supply assemblies 1 and 2

TB1-L

TB1-N

From

Power distribution assembly

TB3-L

TB3-N

To

Power supply assemblies 3 and 4

TB1-L

TB1-N

2. Using double-insulated wire, connect a separate earth conductor from the Earth ground lug on the power distribution assembly to TB1-E on each of the power supplies installed in the cabinet (see detail B).

3. Place flat washer on conductors then tighten with lock nut to ensure a secure mechanical connection to earth ground.

4. Secure the power supply cover to the standoffs on the top edge of the power supply.

Earth ground stud on power distribution assembly

B

P3

TB2

+BATTERY-

TEMP

MON

3 wires

To booster power supply #1



Figure-3: Filtered ac power distribution

TB2 TB3

B

To primary power supply TB1-E

To booster power supply #1 TB1-E



P/N: 387555 REV: 1.0 Page 3 of 6



Step 4. Install the power supply monitor module.

Caution: This product contains components that are sensitive to static electricity. Failure to follow proper handling procedures will result in equipment damage.

1. Connect the 6-wire cable harness to P6 on the power supply monitor (see Figure-6). Push in until the connector clicks.

2. Connect the ribbon cable to J4 on the power supply monitor.

3. Align the power supply monitor to the guide posts on slot

3 of the rail chassis assembly.

4. Route the 6-wire cable harness over and behind the bottom rail and connect to P2 on the primary power supply. Push in until the connector clicks.

5. Route the ribbon cable under the bottom rail and connect to P3 on the primary power supply.

6. Slide the module into the slot 3 rail connectors and lock into place using the snap rivet fasteners.

7. Apply a Kapton label over the rail communication LEDs.

Note:

Kapton labels are included in the hardware kit and are required for every rail module installed in the cabinet. Save labels for future use.

G

120 VAC

N

H

TB1

P2

P3

P3

TB2

+BATTERY-

TEMP

MON

250187

J4

P6

Figure-6: Cable connections

250189 (primary monitor module)

250188 (booster monitor module)

Step 5. Wire the power supply.

1.

Ensure that the mains ac circuit is deenergized.

Connect the mains ac conductors to TB1 on the power distribution assembly. Refer to Figure-7 on page 5.

2. Connect the standby battery conductors to TB2 on the power supply assembly. Refer to Figure-8 on page 5 .

3. If a remote battery cabinet is used, connect the temperature sensor conductor to TB2 on the primary power supply assembly. Refer to Figure-8 on page 5.

4.

Connect the 24 Vdc auxiliary power riser conductors to

TB1 on the power supply monitor module. Refer to

Figure-9 on page 6.

TB1

L N

TB1

J8

J10

J9

J11

P3

TB2

AUXILIARY POWER

AUXILIARY POWER

+

1

+ -

+BATTERY-

TEMP

MON

TB2

L N

TB3

L N

P/N: 387555 REV: 1.0 Page 4 of 6



Earth

Line

Neutral

From dedicated mains ac power distribution

WARNING:

High voltage levels capable of causing injury or death may be present. Precautionary measures must be taken to ensure that the mains ac circuit is deenergized and prevented from being switched on inadvertently.

Notes:

1. Install wiring in accordance with the Electrical Code and all other local requirements.

2. Up to 4 primary or booster supplies may be connected to a single mains ac source circuit.

Figure-7: Mains ac wire connections

Caution:

Disconnecting the battery from the power supply while the mains ac is deenergized may damage the battery.

Notes:

1. Each power supply shall have its own separate pair of conductors going to the battery.

2. The batteries must already be connected to the primary power supply when the cabinet is energized in order to activate the battery charging circuit.

TB2

From positive and negative terminals of cabinet battery or from battery distribution bus in remote cabinet

From temperature sensor in remote cabinet

Figure-8: Standby battery wire connections

P/N: 387555 REV: 1.0 Page 5 of 6


On primary supply only

TB2

TEMP

BATTERY MON




AUXILIARY POWER

1 2

AUXILIARY POWER

1 2

Monitor module




Figure-9: 24 Vdc auxiliary power riser wire connections

P/N: 387555 REV: 1.0 Page 6 of 6



The Remote Closet Cabinets, RCC Series, are designed for applications where viewing windows are not required, such as remote equipment closets. The RCC7R cabinet provides space for a single chassis, the RCC14R cabinet provides space for two chassis, and the RCC21R provides space for three chassis. All cabinets provide space for up to

50 amp-hour standby batteries. The backboxes are fabricated of 14 gauge steel and finished with a red textured enamel. The enclosures are designed for surface mounting. Conduit and nail knockouts, keyhole style mounting holes, and wide wiring troughs facilitate quick installation. Cabinet design facilitates separation of power limited and non-power limited circuits by locating power limited wiring toward the front of the cabinet and non-power limited wiring at the rear of the cabinet. The removable hinged doors mount on the left side of the backboxes and are secured with key locks.


1.Mount the backbox at the required location. Cabinet installation dimensions are on the back page.

A dedicated 120 VAC (for systems using model 3-PPS/M power supplies), or 230 VAC (for system using model 3-

PPS/M-230 power supplies) 50/60 Hz circuit is required for each cabinet. Install all conduit and pull all wiring into the backbox before proceeding to the next step.

2.Install the equipment chassis. Refer to chassis installation sheet for details.

3.Connect the door ground strap between the stud on the door and the backbox using the hardware provided.

PRODUCT DIAGRAM

SPECIFICATIONS

RCC7R Cabinet

Backbox and Door - Dimensions (HWD)

23.25" x 25.0" x 6.75"

(59.1 cm x 63.5 cm x 17.15 cm)

Capacity

Chassis

Battery

One chassis

Two 50 AH @ 12 Vdc

Door Finish

Red textured enamel

RCC14R Cabinet


35.47" x 25.0" x 6.75"

(90.1 cm x 63.5 cm x 17.15 cm)

Capacity

Normal Configuration

Two chassis and and two 50 AH @ 12 Vdc

Battery Cabinet Configuration

Two 3-BTS battery shelves with one 65AH @

12 Vdc battery per shelf

Door Finish

Red textured enamel

RCC21R Cabinet


47.72" x 25.0" x 6.75"

(121.2 cm x 63.5 cm x 17.15 cm)

Capacity


Three chassis and and two 50 AH @ 12 Vdc


One chassis and two 3-BTS battery shelves with one 65AH @ 12 Vdc battery per shelf

Door Finish

Red textured enamel

3-RCC14R

3-RCC7R

3-RCC21R

INSTALLATION SHEET

3-RCC Series

Remote Closet Cabinets


REVISION LEVEL: 2.0

DATE: 28MAY99



CREATED BY: M. Rimes


SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075




OUTER DOOR


L

J

K

N

M

GROUND

STRAP

I

TOP VIEW

ALL KNOCKOUTS

FOR 3/4" CONDUIT

(1.9 cm)

BACKBOX

BATTERY AREA


H

F

E

B

A

B

C

RCC7R

23.36 in

(59.3 cm)

1.25 in

(3.18 cm)

14.1 in

(35.8 cm)

RCC14R

35.61 in

(90.4 cm)

1.25 in

(3.18 cm)

14.1 in

(35.8 cm)

RCC21R

47.75 in

(121.29 cm)

1.25 in

(3.18 cm)

14.1 in

(35.8 cm)

D

E

F

23.25 in

(59.1 cm)

4.37 in

(11.1 cm)

35.47 in

(90.1 cm)

4.37 in

(11.1 cm)

47.72 in

(121.21 cm)

4.37 in

(11.1 cm)

5.5 in

(13.97 cm)

5.5 in

(13.97 cm)

5.5 in

(13.97 cm)

G

1.25 in

(3.18 cm)

1.25 in

(3.18 cm)

1.25 in

(3.18 cm)

H

5.5 in

(13.97 cm)

5.5 in

(13.97 cm)

5.5 in

(13.97 cm)

I

1.25 in

(3.18 cm)

1.25 in

(3.18 cm)

1.25 in

(3.18 cm)

J

21.44 in

(54.46 cm)

21.44 in

(54.46 cm)

21.44 in

(54.46 cm)

K

23.25 in

(59.03 cm)

23.25 in

(59.03 cm)

23.25 in

(59.03 cm)

L

25.0 in

(63.5 cm)

25.0 in

(63.5 cm)

25.0 in

(63.5 cm)

M

N

1.75 in

(4.45 cm)

3.55 in

(9.01 cm)

1.75 in

(4.45 cm)

3.55 in

(9.01 cm)

1.75 in

(4.45 cm)

3.55 in

(9.01 cm)

[3RCC21A2.CDR]

POWER LIMITED AND NON-POWER LIMITED WIRING REQUIREMENTS

Fire Alarm System wiring is classified as either

Power Limited or Non-Power Limited per NEC

Article 760. All power limited wiring must be separated from all non-power limited wiring by a minimum distance of 1/4 in (6 mm). The system enclosures and chassis assemblies are designed such that non-power limited wiring is at the left rear of the cabinet and the power limited wiring is at the front of the cabinet. When installing non-power limited wiring, use the feed through notches at the left rear of the chassis. When installing power limited wiring, use the feed through notches at the right front of the chassis.

Non-power limited wiring area

Maintain 1/4" (6 mm) between power limited and non-power limited wiring,

Power limited wiring area

Non-power limited wiring area under rail assembly


Wire

NON-POWER LIMITED

Left Rear

POWER LIMITED

Right Front


Left Side View

Battery Battery

Front View

Right Side View

P/N: 270486 REV: 2.0 Page 2 of 2



The Remote Closet Cabinets, RCC-E Series, are designed for applications where viewing windows are not required, such as remote equipment closets. The RCC7R-E cabinet provides space for a single chassis, the RCC14R-E cabinet provides space for two chassis, and the RCC21R-E provides space for three chassis. All cabinets provide space for up to 50 amp-hour standby batteries. The backboxes are fabricated of 14 gauge steel and finished with a red textured enamel. The enclosures are designed for surface mounting. Conduit and nail knockouts, keyhole style mounting holes, and wide wiring troughs facilitate quick installation. The removable hinged doors mount on the left side of the backboxes and are secured with key locks.


1.Mount the backbox at the required location. Cabinet installation dimensions are on the back page.

A dedicated 230 VAC 50/60 Hz circuit is required for each cabinet. Install all conduit and pull all wiring into the backbox before proceeding to the next step.

2.Install the equipment chassis. Refer to chassis installation sheet for details.

3.Connect the door ground strap between the stud on the door and the backbox using the hardware provided.

PRODUCT DIAGRAM

SPECIFICATIONS

RCC7R-E Cabinet


23.25" x 25.0" x 6.75"

(59.1 cm x 63.5 cm x 17.15 cm)

Capacity

Chassis

Battery

One chassis

Two 50 AH @ 12 Vdc

Door Finish

Red textured enamel

RCC14R-E Cabinet


35.47" x 25.0" x 6.75"

(90.1 cm x 63.5 cm x 17.15 cm)

Capacity


Two chassis and and two 50 AH @ 12 Vdc


Two 3-BTS battery shelves with one 65AH @

12 Vdc battery per shelf

Door Finish

Red textured enamel

RCC21R-E Cabinet


47.72" x 25.0" x 6.75"

(121.2 cm x 63.5 cm x 17.15 cm)

Capacity


Three chassis and and two 50 AH @ 12 Vdc


One chassis and two 3-BTS battery shelves with one 65AH @ 12 Vdc battery per shelf

Door Finish

Red textured enamel

3-RCC14R-E

3-RCC7R-E

3-RCC21R-E

INSTALLATION SHEET

3-RCC-E Series

Remote Closet Cabinets


REVISION LEVEL: 1.0

DATE: 28MAY99




TM

EDWARDS SYSTEMS TECHNOLOGY

6411 Parkland Drive

Sarasota, FL 34243

USA

625 6th Street East

Owen Sound, Ontario

Canada N4K 5P8


OUTER DOOR


L

K

J

N

M

GROUND

STRAP

I

TOP VIEW

ALL KNOCKOUTS

FOR 3/4" CONDUIT

(1.9 cm)

BACKBOX

BATTERY AREA


H

F

E

B

A

B

C

RCC7R-E

23.36 in

(59.3 cm)

1.25 in

(3.18 cm)

14.1 in

(35.8 cm)

RCC14R-E

35.61 in

(90.4 cm)

1.25 in

(3.18 cm)

14.1 in

(35.8 cm)

RCC21R-E

47.75 in

(121.29 cm)

1.25 in

(3.18 cm)

14.1 in

(35.8 cm)

D

E

F

23.25 in

(59.1 cm)

4.37 in

(11.1 cm)

35.47 in

(90.1 cm)

4.37 in

(11.1 cm)

47.72 in

(121.21 cm)

4.37 in

(11.1 cm)

5.5 in

(13.97 cm)

5.5 in

(13.97 cm)

5.5 in

(13.97 cm)

G

1.25 in

(3.18 cm)

1.25 in

(3.18 cm)

1.25 in

(3.18 cm)

H

5.5 in

(13.97 cm)

5.5 in

(13.97 cm)

5.5 in

(13.97 cm)

I

1.25 in

(3.18 cm)

1.25 in

(3.18 cm)

1.25 in

(3.18 cm)

J

21.44 in

(54.46 cm)

21.44 in

(54.46 cm)

21.44 in

(54.46 cm)

K

23.25 in

(59.03 cm)

23.25 in

(59.03 cm)

23.25 in

(59.03 cm)

L

25.0 in

(63.5 cm)

25.0 in

(63.5 cm)

25.0 in

(63.5 cm)

M

N

1.75 in

(4.45 cm)

3.55 in

(9.01 cm)

1.75 in

(4.45 cm)

3.55 in

(9.01 cm)

1.75 in

(4.45 cm)

3.55 in

(9.01 cm)

[3RCC21A2.CDR]

P/N: 387551 REV: 1.0 Page 2 of 2



The 3-REMICA provides remote paging capability at stations located throughout a building or campus. The 3-

REMICA can be connected to other remote microphone units to provide up to 63 stations on the paging circuit.

The 3-REMICA occupies 2 slot positions in a 2-space,

6-space or 10-space remote annunciator cabinet. When installed in a cabinet with an annunciator controller, the

3-REMICA must occupy the slot positions next to the controller.

The 3-REMICA housing assembly provides standoffs for mounting a Signature single input module when the system application requires electrical supervision. The

3-REMICA trouble relay contacts change state whenever an electrical short or open is detected on either the microphone or audio inputs, or whenever power is interrupted to the unit.

SPECIFICATIONS

Power Requirements

Voltage:

Current:

21 - 27 Vdc

52 mA

Space Requirements: 2 spaces in annunciator enclosure

Audio Output: 1 Vrms @ 400 Hz - 4 kHz

Trouble Relay Contacts

Current: 1 A @ 30 Vdc resistive

Wiring

Termination:

Size:

Resistance:

Capacitance:

All wiring connects to terminal block

14 AWG (1.5 mm ) max.

210

W max m


Temperature 32 - 120 °F (0 - 49 °C)

Humidity 93% non-condensing

WARNINGS

1. This product contains components which are sensitive to static electricity. Failure to follow proper handling procedures to prevent damage from electrostatic discharge may result in equipment failure.

2. Ensure the 24VDC riser is deenergized before making cable connections.

3-REMICA

LOCAL PAGE ACTIVE

REMOTE PAGE BUSY

TROUBLE

JUMPER SETTINGS

Jumper JP1 and JP2:

Position A: Selects ac supervision when connecting the audio output to 3-ASU.

Position B: Selects dc supervision when connecting the audio output to 3-REMICA.

FRONT SIDE


1. Remove the top module retainer bracket on the inner door of the remote annunciator enclosure.

2. Loosen the bottom module retainer bracket.

3. Insert the bottom of the 3-REMICA into the bottom module retainer bracket next to the annunciator panel controller.

4. Tilt the 3-REMICA forward until the top touches the inner door.

5. Tighten the bottom module retainer bracket.

6. Secure the top module retainer bracket to the inner door.

7. Connect the cable assembly from P3 on the annunciator panel controller to P4 on the 3-REMICA.


INSTALLATION SHEET:

3-REMICA Remote Microphone


REVISION LEVEL: 2.0

DATE: 19JAN00





SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075



FIELD WIRING

To Audio Source Unit or next Remote Microphone Unit

See Note 1

From secondary

24VDC riser

From primary

24VDC riser

KEY OUT

AUDIO OUT

AUDIO IN

From Remote Microphone

See Note 2

KEY IN

AUDIO IN

From Remote Microphone

See Note 2

KEY IN

NC

C

NO

To trouble relay interface circuit

TB1

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20

Place jumper to position A when audio output is connected to an

Audio Source Unit input.

B

A

JP2

Place jumper to position B when audio output is connected to the

Remote Microphone input.

B

A

JP2

JP1

JP1

B

A



B

A



From annunciator controller

To next annunciator strip

Notes:

1. Power-limited and supervised.

2. Terminate KEY IN input with 1.8 k

W

EOL resistor when not used.

Trouble Relay Interface Circuit

3-REMICA

TB1-19

TB1-20

47 k

W

EOL

8 7

Signature Single Input Module

(Personality Code 3)

Support standoffs for mounting Signature module

FROM

PREVIOUS

DEVICE

DATA IN (+)

DATA IN (-)

4 3 2 1

DATA OUT (+)

DATA OUT (-)

TO

NEXT

DEVICE


The 3-REMICP provides remote paging capability throughout a building or campus. Each 3-REMICP has two inputs for cascading other remote microphone units. Connecting remote microphones in this manner provides up to 63 stations on the paging circuit.

Note: Remote microphone units may not be cascaded more than 6 deep (more than 6 units in a single circuit path).

The 3-REMICP consists of a page control housing assembly and separate circuit card.

The 3-REMICP installs onto a 3-CHASS4 chassis assembly (ordered separately).

Trouble relay contacts provided on the 3-REMICP change state whenever an electrical short or open is detected on either the microphone or audio inputs, or whenever power is interrupted to the unit.

JUMPER SETTINGS

Jumper JP1 and JP2:

Position A:

Position B:

Selects ac supervision when connecting the audio output to 3-ASU.

Selects dc supervision when connecting the audio output to another remote microphone module.

WARNINGS

1.

This product contains components which are sensitive to static electricity. Failure to follow proper handling procedures to prevent damage from electrostatic discharge may result in equipment failure.

2.

Ensure the 24VDC riser is deenergized before making cable connections.

SPECIFICATIONS

Power Requirements

Voltage: 21 - 27 Vdc

Current:

Audio Output:

52 mA

1 Vrms @ 400 Hz - 4 kHz

Trouble Relay Contacts

Current: 1 A @ 30 Vdc resistive

Wiring

Termination: All wiring connects to terminal block

Size:

Resistance: 210

W max from output of last cascaded remote microphone to input of audio source unit

Capacitance:


Temperature:

Humidity:

32 - 120 °F (0 - 49 °C)

93% non-condensing

LED INDICATORS

Local page active: lights when paging microphone is keyed and no other remote microphones are keyed.

Remote page busy: lights when another remote microphone unit has control of the paging circuit.

Paging:

Trouble: lights when speaking into the microphone while the key is pressed.

lights when trouble detected with paging circuit.

3-REMICP

+

2

G

N

D

+

2

G

N

D

E

G

N

D

AUDIO KEY

OUTPUT

AUDIO

INPUT 2

KEY AUDIO

INPUT 1

KEY NC C

TROUBLE

NO


1.

On the 3-REMIC circuit card assembly, configure JP1 and JP2 for the type of supervision required.

2.

Screw the 3-REMIC circuit card to the 3-CHASS4 chassis assembly using four #6-32 X 1/2 pan head screws. See below.

3.

Connect field wiring to 3-REMIC circuit card.

4.

Connect the ribbon cable on the page control housing assembly to J1 on the 3-REMIC circuit card.

5.

Position the page control housing on the threaded studs and secure using the four washers and nuts provided.

PAGING

LOCAL

PAGE

ACTIVE

REMOTE

PAGE

BUSY

TROUBLE

Page Control Housing Assembly

3-CHASS4 chassis assembly

INSTALLATION SHEET:

3-REMIC circuit card

+

2

V

G

N

D

+

2

V

G

N

D

E

G

AUDIO

N

D

OUTPUT

KEY AUDIO

INPUT 2

KEY AUDIO

INPUT 1

KEY NC C

TROUBLE

NO

3-REMIC Assembly

3-REMICP Remote Microphone

J8

J10

J11

J9

J8

J10

J9

J11


REVISION LEVEL: 1.0

DATE: 15FEB99



CORPORATION





6411 Parkland Drive

Sarasota, FL 34243

USA

625 6th Street East

Owen Sound, Ontario

Canada N4K 5P8


FIELD WIRING

From primary 24 Vdc riser

From secondary 24 Vdc riser

3

To remote microphone

TB1-AUDIO INPUT terminals

To remote microphone

TB1-KEY INPUT terminals

4

From remote microphone

TB1-AUDIO OUTPUT terminals

From remote microphone

TB1-KEY OUTPUT terminals

2

2

+

2

4

V

TB1

G

N

D

+

2

4

V

G

N

D

E

G

N

D

AUDIO KEY

OUTPUT

AUDIO KEY

INPUT 2

AUDIO KEY

INPUT 1

NC C NO

TROUBLE

Remote microphone

To trouble relay interface circuit

Notes:

1.

All wiring supervised and power-limited.

2

3

4

Terminate KEY input terminals with 1.8 k

W

EOL resistor when not used.

Shield required when audio riser shares conduit with telephone riser.

Connect to audio source unit TB1-REMOTE MIC AUDIO and -REMOTE MIC KEY input terminals when last remote microphone unit in chain.

2

V

G

D

2

V

G

D

G

D

AUDIO

OUTPUT

KEY AUDIO

INPUT 2

KEY AUDIO

INPUT 1

KEY NC C NO

TROUBLE



B

A

JP2



B

A

JP2

A

JP1

B



A

JP1

B



From page control housing assembly

3-REMICP

TB1-19

TB1-20

47 k

W

EOL

8 7

Trouble Relay Interface Circuit

Signature Single Input Module

(Personality Code 3)

FROM

PREVIOUS

DEVICE

DATA IN (+)

DATA IN (-)

P/N: 387519 REV: 1.0 Page 2 of 2


4 3 2 1

DATA OUT (+)

DATA OUT (-)

TO

NEXT

DEVICE


1. With the wallbox securely mounted, attach the outer door to the outer door mounting studs as shown in Figure-1.

2. Attach a grounding strap from the ground strap stud on the wallbox to the outer door.

3. On semi-flush mounted wallboxes attach the inner door to the inner door mounting studs.

See Figure-2.

On surface mounted wallboxes screw the inner door to the mounting holes.

Remote annunciator cabinet wallbox

#8-32 lock nut

(2 places)

Grounding strap

Outer door

#6-32 lock nut

(4 places)

Figure-1: Typical outer door installation


The remote annunciator cabinet door assembly consists of an inner door and an outer door. The outer door has a viewing window and is secured in the closed position with a key lock. The inner door provides mounting space for the panel electronics and is secured in the closed position with a captive screw.

The line of remote annunciator cabinet door assemblies include:

Model Description

3-RLCM/D Grey door with window for the 3-LCDANN semi-flush and surface mount cabinets

3-6ANN/D Grey door with window for the 6-ANN semi-flush and surface mount cabinets

3-10ANN/D Grey door with window for the 10-ANN semi-flush and surface mount cabinets


INSTALLATION SHEET:

3-RLCM/D, 3-6ANN/D, and 3-10ANN/D

Remote Annunciator

Cabinet Doors


REVISION LEVEL: 2.0

DATE: 06DEC99





SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075




Note: Figure-2 shows how the inner door attaches to a wallbox designed for semi-flush mount applications.

Surface mount wallboxes use self-tapping screws and pre-drilled holes to attach the inner door to the wallbox.


Outer door

Inner door

#6-32 lock nut

(3 places)

Figure-2: Typical inner door installation (semi-flush mount wallbox shown)

P/N: 387310 REV 2.0 Page 2 of 2



1. With the wallbox securely mounted, attach the outer door to the outer door mounting studs as shown in Figure-1.

2. Attach a grounding strap from the ground strap stud on the wallbox to the outer door.

3. On semi-flush mounted wallboxes attach the inner door to the inner door mounting studs.

See Figure-2.

On surface mounted wallboxes screw the inner door to the mounting holes.


#8-32 lock nut

(2 places)

Grounding strap

Outer door

#6-32 lock nut

(4 places)

Figure-1: Typical outer door installation


The remote annunciator cabinet door assembly consists of an inner door and an outer door. The outer door has a viewing window and is secured in the closed position with a turn knob lock. The inner door provides mounting space for the panel electronics and is secured in the closed position with a captive screw.

The line of remote annunciator cabinet door assemblies include:

Model Description

3-RLCM/D-E Grey door with window for the 3-LCDANN-E semiflush and surface mount cabinets

3-6ANN/D-E Grey door with window for the 3-6ANN-E semi-flush and surface mount cabinets

3-10ANN/D-E Grey door with window for the 3-10ANN-E semi-flush and surface mount cabinets


INSTALLATION SHEET:

3-RLCM/D-E, 3-6ANN/D-E, and 3-10ANN/D-E

Remote Annunciator

Cabinet Doors


REVISION LEVEL: 1.0

DATE: 06DEC99





SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075




Note: Figure-2 shows how the inner door attaches to a wallbox designed for semi-flush mount applications.

Surface mount wallboxes use self-tapping screws and pre-drilled holes to attach the inner door to the wallbox.


Outer door

Inner door

#6-32 lock nut

(3 places)

Figure-2: Typical inner door installation (semi-flush mount wallbox shown)

P/N: 387553 REV 1.0 Page 2 of 2


SPECIFICATIONS PRODUCT DESCRIPTION

3-RS485B, 3-RS485A, 3-RS485R Network Communications Card

Installation:

Network Data Circuit:


Isolation:

Wire Type:

Circuit Length:

Circuit Resistance:

Circuit Capacitance:

Network Audio Circuit:


Plugs into connector J2 on the 3-CPU1

Class A (3-RS485A and 3-RS485B)

Class B (3-RS485A and 3-RS485B)

Network A port not isolated

Network B port isolated

5,000 ft (1,524 m) between any 3 panels

90

0.3

Ω

µ

, max

F, max.

Isolation:

Wire Type:

Circuit Length:

Circuit Resistance:

Circuit Capacitance:


Temperature:

Humidity:


Standby:

Alarm:

Class A (3-RS485A only)

Class B (3-RS485A and 3-RS485B)

Audio AIN and Audio BIN isolated

Audio AOUT and Audio BOUT not isolated

5,000 ft (1,524 m) between any 3 panels

90

Ω

0.09

, max

µ

F, max.

32 - 120 °F (0 - 49 °C)


55 mA

55 mA

3-RS232 Ancillary Communications Card

Installation: Plugs into connector J3 of the 3-CPU1


Circuit Type:

Baud Rate:

Class B

Two optically-isolated RS-232 serial

Max. Circuit Length:

Minimum Wire Size:

300, 1200, 2400, 4800, 9600, 19200,

38400

50 ft (15.2 m)


Temperature:

Humidity:


Standby:

Alarm:

32 - 120 °F (0 - 49 °C)


48 mA

48 mA

3-RS485B, 3-RS485A, 3-RS485R Network Communications Card

The 3-RS485B, 3-RS485A, and 3-RS485R gives a panel the ability to to network to other panels. Each card provides two independent RS-

485 circuits; one for network data communications, and one for digital audio communications. See Specifications.

Do not use a 3-RS485A card with a 3-CPU module. This will cause network system troubles. Use the 3-RS485A card only with a 3-CPU1 module.

The 3-RS485R is a direct service replacement for older 3-RS485 assemblies (P/N 240626 and P/N 240971). Failure to replace these assemblies with the 3-RS485R may result in system audio troubles.

3-RS232 Ancillary Communications Card

The 3-RS232 Ancillary Communications card gives a panel the ability to connect to serial devices such as printers, modems, and external command and control equipment. The 3-RS232 card provides two RS-

232 serial ports.

WARNINGS

1.

This product contains components that are sensitive to static electricity. Failure to follow proper handling procedures may cause equipment damage.

2.


OPTION CARDS

3-RS232

CARD

3-RS485A/B/R

CARD


1. Plug the option card into the appropriate connector on the back side of the 3-CPU1 (see figure on page 2 of this installation sheet).

The card should be firmly seated in its connector.

2. Secure the card to the 3-CPU1 with the provided #6-32 screw and nut.

3. Plug the 3-CPU1 into the rail chassis assembly.

4. Connect the field wiring. Refer to installation sheet P/N 387465.

INSTALLATION SHEET:

Option cards

3-RS485(A/B/R) Network communications card

3-RS232 Ancillary communications card


REVISION LEVEL: 5.0

DATE: 22JAN01





SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075





3-RS232

CARD

J4A

J4B

J3 J2

3-RS485A/B

CARD

3-CPU1

Rear view

P/N 270489 REV 5.0 Page 2 of 2


3-SAC

Security Access Control Module

Product description Installation instructions

1.

Install a display faceplate in the recess on the front of the module if needed. Refer to the Control/LED Displays installation sheet P/N 270493 for more information.

2.

Mount the 3-SAC in one space on the rail chassis.

3.

Connect all SAC Bus wiring to TB2. TB2 is removable for ease of wiring. All wiring is power-limited and should be routed through the notches at the right front of the chassis.

4.

Close the module display door. Latch the door by sliding the upper latch up and the lower latch down.

Note: TB1 is not used.

Wiring diagrams

Class A wiring

The 3-SAC is a high-speed module used to support Card

Reader Controller modules and Keypad Display modules. The

3-SAC is capable of Class A and Class B configuration and occupies one rail module space.

The 3-SAC module can support a maximum of 62 CRCs or

KPDISPs. Events are passed to the 3-SAC module, then passed to the 3-CPU1 for alarm processing.

Specifications

Mounting: One expansion slot

Device support

Class A: 30 devices

Class B: 62 devices (31 per loop)


SAC bus wiring

Type: unshielded, twisted pair, > 6 twists per foot

Maximum run from 3-SAC: 4,000 ft (1,220 m) @ 25 pF/ft

Maximum total capacitance: 0.1 mF

Maximum total resistance: 52 W

Maximum voltage: 10 Vdc

Maximum current: 250 mA

Current requirements (does not include LED/Switch module)

Standby/Alarm: 40 mA @ 24 Vdc




4

3-SAC

SAC bus SAC bus

A A B B

+ +

TB2

1

[3]

[1] [2]

CRC

Keypad

Display

Ferrite clamps

[4]

Class B wiring

4

3-SAC

SAC bus

A A

+

SAC bus

B B

+

TB2

1

[3]

[1] [2]

CRC

[1] [2]

Keypad

Display

CRC

Keypad

Display

Ferrite clamps

[4]

CRC

CRC

CRC

W

EOL resistors

WARNINGS

1.

Remove AC and battery power before installing or removing option modules.

2.

Components in this system are static sensitive. Discharge static buildup on your body before handling.

Installation Sheet

Notes

[1] Refer to device installation sheets for proper wiring.

[2] Maximum of 30 devices for Class A, 62 devices

(31 per loop) for Class B.

[3] Security Access Control Bus.

[4] Install the provided ferrite clamps as shown. The clamps must be mounted on the lines as they exit the cabinet.

5.

Up to 4,000 ft @ 25 pF/ft (1,220 m). All wiring is powerlimited and supervised.

26OCT01 P/N: 387624 REV: 1.0

1 / 1



The 3-SSDC module provides one Class A or Class B

Signature data circuit for Signature Series detectors and modules. The module also provides a connection for powering conventional 2-wire smoke detector circuits on

Signature Series modules.

Note: Adding a second 3-SDC card to a 3-SSDC

converts the 3-SSDC into a 3-SDDC and requires that you redefine it as such in the project database.

The 3-SSDC module supports the full complement of

Signature diagnostic features including mapping. The module features a hinged front panel for mounting displays or a blank protective faceplate.

The 3-SDDC module provides all the features of the 3-

SSDC plus support for a second Signature data circuit.

All field wiring connections are made via plug-in connectors that permit termination of field wiring without the module installed in the enclosure. The plug-in connectors and snap rivet mounting also facilitate rapid troubleshooting without the use of tools.


1. Connect the 3-SDC card(s) to the appropriate connectors on the back side of the rail module assembly. See Figure-1.

Note: If the height of the DC to DC convertor on a 3-

SDC card prevents you from adding it to Circuit 2 on a 3-SSDC module then move the 3-SDC in Circuit 1 to Circuit 2 and install the new 3-SDC in Circuit 1.

2. If a control/display module is required, install it at this time. Refer to the instructions provided with the control/display module.

3. Carefully plug the filter board(s) into the connector(s) on the rail module and install the module on the rail.

4. Before connecting the field wiring, test the field wiring for opens or shorts.

When a circuit checks out properly, connect it to the appropriate terminals as shown in the diagram on the next page. Polarity is indicated for normal monitoring of the circuit's electrical integrity.

WARNINGS

This product contains components that are sensitive to static electricity. Failure to follow proper handling procedures may result in equipment damage.


Do not flex the filter card or exert excessive pressure on the field wiring connectors when installing the filter card.

Do not connect field wiring or connect/disconnect the terminal block without supporting the back edge of the filter card to avoid flexing the filter card.

PRODUCT DIAGRAM

B B

SIGA1

S

H

A

SIGA1

A S

M

P

W

K R

1

B B

SIGA1

Filter card

(P/N 130396)

3-SDC

SPECIFICATIONS

SIGA2

B B

S

M

K

2

P

W

R

SIGA2

A A S

H

SIGA2

B B

Signature Controller module

Installation:

1 LRM space on rail chassis

Module Configuration:

3-SSDC:1 Signature Data Circuit

3-SDDC: 2 Signature Data Circuits

Smoke Power:

Maximum Wire Size:

Termination:

24 Vdc @ 85 mA

2

12 AWG (1.5 mm )


Operating Environment: 82 - 120 °F (0 - 49 °C)


Circuit Configuration:

Class B (Style 4) or Class A (Style 6)

Circuit Capacity:

125 Signature Series detectors and

125 Signature Series modules per

Circuit Resistance:

Circuit Capacitance:

Current Requirements

circuit.

79

Ω

, max.

0.33

µ

F, max

Standby: 3-SSDC: 158 mA 3-SDDC: 242 mA

Alarm:

INSTALLATION SHEET

3-SSDC, 3-SDDC Signature

Controller modules and

3-SDC Signature Data Circuit card


REVISION LEVEL: 3.0

DATE: 28SEP00





SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075




WIRING DIAGRAM

3-SDDC only

Circuit 2

B B

SIGA2

S

M

K

P

W

R

2

A A

SIGA2

S

H

B B

SIGA2

[2]


To 2-wire smoke detector circuit

To 2-wire smoke detector circuit


[2]

B B

SIGA1

Circuit 1

S

H

A A

SIGA1

S

M

K

P

W

R

1

B B

SIGA1

3-SSDC and 3-SDDC

Notes

1. All wiring supervised and powerlimited.

2. Shield, if used, must be continuous and free from earth ground.

INSTALLATION INSTRUCTIONS (CONT.)

Circuit 1

Press here to connect filter card to the rail module

Circuit 2

3-SDC card for

Circuit 2

Support filter card here when installing

removable terminal block

Top view

3-SDC card for

Circuit 1 3-SDC card installation

Note: If the height of the DC to DC convertor on a 3-SDC card prevents you from adding it to Circuit 2 on a 3-SSDC module then move the 3-SDC in Circuit 1 to Circuit 2 and install the new 3-SDC in Circuit 1.

Figure-1: Filter card and 3-SDC card installation

P/N: 270491 REV: 3.0 Page 2 of 2



Tamper switches are used to detect an open cabinet door. Three models are available:

• the 3-TAMP5 for the CAB5

• the 3-TAMP for the CAB series of equipment enclosures

• the 3-TAMPRCC for the RCC series of equipment enclosures

Two end-of-line resistors are soldered to the switch terminal connections. Use the 4.7

k

W resistor when connecting to a

Use the 47 k

W

IDC8/4 initiating device circuit module.

end-of-line resistor when connecting to a

Signature input signal module.

The tamper switch plunger can be extended to place the switch in its bypass position and make it appear that the cabinet door is closed.


1. Mount the tamper switch to the cabinet (see below).

2. Do one of the following:

• If the tamper switch is being connected to a IDC8/4 initiating device circuit module, cut out the 47 k

W end-of-line resistor.

• If the tamper switch is being connected to a

Signature input signal module, cut out the 4.7 k

W resistor.

3. Wire the tamper switch to the initiating device circuit.

FIELD WIRING

4.7 k

W

EOL

(Yellow-Violet-Red)

NO

NC

COM

47 k

W

EOL

(Yellow-Violet-Orange)

To initiating device circuit +/- inputs

3-TAMP

PRODUCT DIAGRAM

3-TAMP5

3-TAMPRCC

Pull for bypass operation

INSTALLATION SHEET

3-TAMP, 3-TAMP5, 3-TAMPRCC

Cabinet Tamper Switches

#8 flat washer

(2 places)

#8 lock washer

(2 places)

#8-32 nut

(2 places)

Figure-1: Tamper switches mount to the top or side of their respective cabinets and are secured using hardware provided in the hardware kit. This figure shows the installation of a 3-TAMP.


REVISION LEVEL: 2.0

DATE: 17NOV99


APPROVED BY: B. Shivers



SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075






The model 3-ZA20A/B and 3-ZA40A/B audio amplifiers demultiplex the 8 multiplexed audio signals on the network audio riser. Under command of the network, 1 of the 8 available signals is distributed over the speaker circuit. Command and control signals for the amplifier are sent and received via the network data riser in response to network programming.

Amplifers are in 20- and 40-Watt, Class A and Class B versions.

Supervised, power-limited 25 Vrms or 70 Vrms outputs are available on both versions. Amplifiers use a Class D switch mode design to provide better than 80% efficiency. Each amplifier's output is directly wired to a single speaker zone.

Each amplifier has a 1 kHz temporal (3-3-3) tone generator for use as an evacuation signal in the event of a fault with the network audio circuit. A standby amplifier may be configured for automatic replacement of any online amplifier configuration, in the event of an online amplifier failure.

The standby amplifier must be the same wattage as the largest amplifier within the enclosure. The amplifiers draw power from the primary and booster power supplies which must be sized according to the enclosure electrical load.

Each amplifier is also provided with an independently controlled supervised, power limited 24 VDC Notification Appliance Circuit (NAC) rated at 3.5 A. This facilitates the addition of visual notification appliances to audio notification circuits.

Each amplifier requires one LRM space on the rail chassis and is secured to the assembly using snap rivet fasteners. All field wiring connections to the amplifier module are made via plug-in connectors, permitting termination of field wiring without the module installed in the enclosure.

SPECIFICATIONS

Installation:

Frequency Response:

Harmonic Distortion:

Audio Circuit:


3-ZA20B/40B

3-ZA20A/40A

EOL Resistor

Outputs:

3-ZA20A/20B

3-ZA40A/40B

Current Rating

Standby

Alarm

24 Vdc NAC Circuit:


3-ZA20B/40B

3-ZA20A/40A

Voltage

Current

EOL Resistor

Termination

Maximum Wire Size

Backup Tone


Temperature

Humidity

1 rail chassis slot position

400 Hz to 4 kHz at -3 dB

< 7%

Class B (Style Y)

Class A (Style Z) or Class B (Style Y)

15 k

W

(internal on 3-ZA20A/40A)

20 watts @ 25 Vrms or 70 Vrms


35 mA (all models)

1.25 A (3-ZA20A/20B)

2.30 A (3-ZA40A/40B)

Class B (Style Y)

Class A (Style Z) or

24 Vdc nominal

Class B (Style Y)

3.5 A

15 k

W

(internal on 3-ZA20A/40A)

Removable plug-in terminal strips

1 kHz temporal (3-3-3)

32 - 120 °F (0 - 49 °C)


WARNINGS

1. This product contains components that are sensitive to static electricity. Failure to follow proper handling procedures may cause equipment failure.

2. Rail modules should not be plugged into the rail chassis assembly while 24 Vdc is present on the rail. Failure to remove 24 Vdc may damage the equipment.

3. Operating the amplifier at an output greater than that required by the speaker may overdrive the speaker circuit and result in damage to the equipment.

3-ZA20A/B, 3-ZA40A/B

UNUSED UNUSED UNUSED

24VDC

NAC/B

+ -

UNUSED

TB1

Audio power module subassembly

Audio amp transformer subassembly

25Vrms 70Vrms

Configuration jumper

J4

J3


Output gain adjust

1. If the panel is already in service, disconnect the storage battery then deenergize the mains ac circuit supplying power to the panel.

2. Set jumpers JP1 and JP2 on the audio power module subassembly for 25 or 70 Vrms, depending on the input required by the circuit speakers.

audio

JP1

25 Vrms 2 to 3

JP2

2 to 3

70 Vrms 1 to 2 1 to 2

3. Set the jumper on the audio amp transformer subassembly for 25 or

70 Vrms, depending on the input required by the audio circuit speakers.

4. Slide the amplifier module into the required rail chassis slot position.

5. Gently push the zone amplifier module into the connectors to ensure good contact.

6. Secure the zone amplifier module to the rail by pushing in the top and bottom snap rivet fasteners.

7. Connect the field wiring.

Note:

The gain control pot may be adjusted later for desired output level. Fully CCW is maximum gain and fully CW is minimum gain.


-

BACK-UP

+ +

JP1

JP2

S

NAC/A

+ S

NAC/B

TB2

+

Front view

INSTALLATION SHEET:

Configuration jumpers

Rear view

3-ZA20A, 3-ZA20 B, 3-ZA40A , 3-ZA40

Zoned Audio Amplifiers

B


REVISION LEVEL: 2.0

DATE: 05FEB00


APPROVED BY: E. Onstine



SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075



3-ZAxx

BACK-UP

S

NAC/A

S

TB2

NAC/B

4 5

FIELD WIRING

Notes:

1.


2

Install listed 15k ohm EOL resistor on last device as Class B (Style Y) riser.

only when wired

3.

Polarity designations on connector indicate output signal polarity for circuit supervision. The p olarity reverses in an alarm condition.

4

Shield required when audio riser and telephone riser share the same conduit.

5

Twisted pair not required only when audio circuit riser shares conduit exclusively with 24 Vdc riser or in conduit by itself.

6.

A maximum of 10 SIGA-CC1s or SIGA-CC2s may be installed on the speaker circuit.

S S

UL/ULC

LISTED

EOL

2

Class A (Style Z)

Figure-1: Typical 25 or 70 Vrms notification appliance circuit wiring

UL/ULC

LISTED

EOL

2

Class A (Style Z)

NOT

USED

NOT

USED

NOT

USED

24VDC

NAC/B

24VDC

NAC/A

TB1

3-ZAxx

Figure-2: Typical 24 Vdc notification appliance circuit wiring

P/N: 387463 REV: 2.0 Page 2 of 3


Backup amplifier

3-ZAxx

BACK-UP

S

NAC/A

S

TB2

NAC/B

FIELD WIRING

First amplifier on circuit Second amplifier on circuit Last amplifier on circuit

3-ZAxx

BACK-UP

S

NAC/A

S

TB2

NAC/B

3-ZAxx

BACK-UP

S

NAC/A

S

TB2

NAC/B

3-ZAxx

BACK-UP

S

NAC/A

S

TB2

NAC/B

Notes:

1.


2.

Backup amplifier must be rated greater than or equal to the other amplifiers to which it is connected and be installed in the same enclosure.

3.

Backup amplifier wiring must be rated greater than or equal to field wiring used on amplifiers connected to the backup amplifier.

Figure-3: Typical backup amplifier wiring

3-ZAxx

BACK-UP

S

NAC/A

S

TB2

NAC/B

3-ZAxx

BACK-UP

S

NAC/A

S

TB2

NAC/B

Warning: 3-ZAxx amplifiers must be configured for 25 Vrms output.

Class A only

TB1

UL/ULC listed 15 k

W

EOL for Class B circuits only

CH1 In

CH1 Out

SIGA-AAxx

Class A only

CH2 Out

Notes

1. Configure the 3-ZAxx audio amplifiers for 25 Vrms.

2. A maximum of 16 SIGA-AAxx audio amplifiers may be connected to the output of a single 3-ZAxx audio amplifier.

3. Shield required when the audio riser wiring shares the same conduit as the telephone riser.

UL/ULC listed 15 k

W

EOL for Class B circuits only

CH2 In

From Signature controller or previous Signature device

To next

Signature device

Figure-4: Typical wiring connecting to SIGA-AAxx audio amplifier

TB3

P/N: 387463 REV: 2.0 Page 3 of 3



PRODUCT DESCRIPTION SPECIFICATIONS

The 3-ZA90 zoned audio amplifier module is a key component in an emergency communication system that consists of audible notification appliances (speakers only).

The 3-ZA90 provides the following:

• 90 watts of power

• standard output line levels of 25 Vrms or 70 Vrms

• a 1 kHz temporal (3-3-3) tone to use as an evacuation signal in the event of a fault in the audible notification appliance circuit

In addition, the 3-ZA90 provides connections and mounting brackets for two control/display modules.

The 3-ZA90 zoned audio amplifier module requires two

Space Requirements: 2 rail spaces

Frequency Response: 400 Hz - 4 kHz at -3 dB

Harmonic Distortion: < 7%

Audio Circuit

Input: 8-channel, multiplexed digitized audio

Wiring: Class B (Style Y) or Class A (Style Z)

Output: 90 W at 25 or 70 Vrms

EOL resistor: 15 k

Ω

Wiring

Termination: Wiring connects to removable terminal block

Max wire size: 12 AWG (2.5 mm sq)

Note: Refer to the Installation and Service Manual for maximum allowable wire lengths.


Temperature: 32 - 120 °F (0 - 49 °C)


Current ratings

Standby: 35 mA

Alarm: 4.6 A

JUMPER SETTINGS

JP1: Selects the amplifier signal output voltage.

JP2: Selects the amplifier output voltage configuration to report to the panel controller.

Note: JP1 and JP2 must be set for the same output voltage.


Installing the amplifier

1. Remove all power from the panel.

2. Set configuration jumpers as required.

3. Slide the module into the required rail/slot position.

4. Gently push the module into the connectors to ensure good contacts.

5. Secure the module to the chassis by pushing in all four fasteners.

6. Connect field wiring.

Adjusting the amplifier output levels

You must adjust the output level of all zoned amplifier modules in the cabinet using a specific input signal. Failure to do so can result in damage to the amplifiers.

Refer to the Installation and Service Manual and use the procedure described in the topic

Adjusting amplifier output levels.

Notes

1. This product should only be installed in a CHAS7 containing a primary or booster power supply.

2. Do not use the gain control pot to adjust output level except when calibrating the amplifier as described in the

Installation and Service Manual. Doing so can damage the amplifier.

3. When using Signature Series CC1 or CC2 modules to switch amplifier output branch circuits, a maximum of 10 modules may be connected to the output of an amplifier.

1. This product contains components which are sensitive to static electricity. Failure to follow proper handling procedures to prevent damage from electrostatic discharge may result in equipment failure.

2. Ensure that all power is removed from the panel before plugging unit into rail chassis assembly.

PRODUCT DIAGRAM

Ribbon cable connector for left control/display module

INSTALLATION SHEET:

Mounting brackets

JP1

WARNINGS

JP2

Mounting brackets

Mounting brackets

Mounting brackets

-

BACK-UP

+ +

NAC/A

+

NAC/B

+

Ribbon cable connector for right control/display module

Gain control

3-ZA90 Zoned Audio Amplifier


REVISION LEVEL: 4.0

DATE: 31JAN01


APPROVED BY: S. Moiseev

CREATED BY: D.Chinell


SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075




FIELD WIRING

Zone Audio Amplifier

TB1

-

BACK-UP

+ +

S

NAC/A

+

S

NAC/B

+

[4] [6]

S

Notes

[1] All wiring supervised and power-limited.

[2] Install listed 15 k

Ω

EOL resistor on last device only when wired as

Class B (Style Y) riser.

[3] Polarity of signal circuit shown in supervisory state.

[4] Shield required when audio riser shares same conduit as telephone riser.

[5] Electrical supervision requires wire runs to be broken at each device. Do not loop signal wires around device terminals.

[6] Twisted pair not required when audio circuit riser shares conduit exclusively with 24 Vdc NAC riser.

Class B (Style Y)

S

UL/ULC

LISTED

EOL

[2]

Class A (Style Z)

Figure 1: Typical notification appliance circuit wiring

Backup Amplifier

TB1

-

BACK-UP

+ +

S

NAC/A

+

S

NAC/B

+

First zone amplifier on circuit

TB1

-

BACK-UP

+ +

S

NAC/A

+

NAC/B

S

+

Last zone amplifier on circuit

TB1

-

BACK-UP

+ +

NAC/A

S

+

S

NAC/B

+

Figure 2: Backup amplifier wiring

Notes

[1] All wiring supervised and power-limited.

[2] Backup amplifier must be rated greater than or equal to the other amplifiers to which it is connected and be installed in the same enclosure.

[3] Backup amplifier wiring must be rated greater than or equal to field wiring used on amplifiers connected to the backup amplifier.


The 6ANN/B(-S) and the 10ANN/B(-S) are wallboxes constructed of 16 guage steel with a textured, gray enamel finish. The wallboxes house remote annunciator CPUs and optional modules that interface with other network components.

6ANN/B(-S)

The following models identify the same wallbox:

Model Mounting

6ANN/B

6ANN/B-S

Surface

Semi-flush

10ANN/B(-S)

The following models identify the same wallbox:

Model Mounting

10ANN/B

10ANN/B-S

Surface

Semi-flush

WIRE ROUTING

If a nonpower-limited source feeds the 2-CPU relay contacts, the wiring must remain within this area. All other wiring shall be powerlimited.

Typical knockout

2-CPU

Optional module

Typical knockout

2-CPU

Optional module

DIMENSIONS

6ANN/B(-S)

Semi-flush

14.48 in (36.78 cm)

2.75 in (6.99 cm)

16.1 in (40.9 cm)

Earth ground connection

See Detail.

1

3

6

13.19 in

(33.5 cm)

12.1 in

(30.7 cm)

Detail

Surface mount

16.1 in (40.9 cm)

4

5

6

1

2

3

Ground Strap

Wallbox

Ground Lug

Typical Knockout

Earth Ground Wire

Outer Door

3

6

1

2

3

4

5

2.75 in (7.0 cm)

13.19 in

(33.5 cm)


INSTALLATION SHEET:

6ANN/B(-S) and 10ANN/B(-S)

Remote Annunciator Cabinet Wallboxes


REVISION LEVEL: 1.0

DATE: 07DEC99



CREATED BY: B. Graham


SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075



4

5

2

3

10ANN/B(-S)

Semi-flush

23.86 in (60.60 cm)

25.47 in (64.7 cm)

DIMENSIONS

2.75 in (6.99 cm)

13.19 in (33.5 cm)

12.1 in (30.73 cm)

Surface mount

2.75 in (7.0 cm)

25.47 in (64.7 cm)

13.19 in (33.5 cm)

All conduit knockouts support 3/4 inch (1.9 cm) conduit.


ATCK

Attack Kit for RCC7R Cabinet

7. Place the ATCK cover onto the cabinet and lock the four key locks.

8. Using the fourteen 10-32 screws provided, attach the cover. Make sure to observe proper placement of the one-inch and two-inch screws. (See Figure 1.)

2 in 1 in 2 in

2 in

2 in

2 in

2 in

Key hole locks

2 in 2 in

For some security applications, the RCC7R cabinet requires an attack-proof kit. The ATCK provides a twominute attack delay time.

The ATCK lets you replace the standard, hinged outer door with a steel cover that has no window. The cover attaches to the RCC7R with hardened steel screws and front corner locks.

The ATCK also includes special knockout plugs that secure unused knockouts.

Specifications

Size: 23.65 x 25.85 x 3.86 in (60.07 x 65.66 x 9.80 cm)

Material: 14 gauge steel

Finish: Red textured enamel

Key locks: 4

Screws:

10-32 x 1 in machine screws: 4

10-32 x 2 in machine screws: 10

Compatible with 3-RCC7R cabinet only


1. Disconnect all power before installing.

2. Remove the existing door from the cabinet.

3. Place the ATCK cover over the cabinet and lock the four key locks. The key locks hold the cover in place.

4. Use the ATCK cover as a template to mark screw holes on all sides of the cabinet (fourteen holes).

(Newer cabinets include the screw holes.)

5. Remove the cover and drill all marked holes with a

1/4-inch drill bit.

6. Remove any unused knockouts and insert knockout plugs. (See Figure 2.)

2 in

1 in

Figure 1: Screw locations

1 in

Figure 2: Knockout plug

1 in

Remove unused knockout and insert knockout plug.

2 in

Warnings

Disconnect all power before installing or drilling holes.

When drilling holes into the cabinet, make sure not to drill into any existing wires or hardware.

Installation Sheet 26OCT01 P/N: 3100142 REV: 1.0

1 / 1



The Control/LED Displays provide additional operator interface capability for the EST3 network as individual, designer assignable LEDs and touch-pad switches.

Control/LED displays mount any module's hinged front panel, except for the 3-CPU module. All Control/LED displays are compatible with the lamp test function.

LED Display, model 3-24x LED, provides 24 LEDs.

Adjacent to each LED is a slip-in label for LED function identification. A typical application is zone annunciation.

Control/LED Display, models 3-12/SG, 3-12/SR, and

3-12/SY provide 12 LEDs, each grouped with one switch.

Adjacent to each LED/Switch is a slip-in label for

LED/Switch function identification. A typical application is monitoring and control of auxiliary systems.

Control/LED Display, models 3-12/S1GY, 3-12/S1RY,

3-12/S2Y provide 24 LEDs. Each pair of LEDs is grouped with one switch. Adjacent to each LED/Switch group is a slip-in label for LED/Switch function identification. A typical application is monitoring and control of auxiliary systems.

Control/LED Display, model 3-6/3S1G2Y and

3-6/3S1GYR provide 18 LEDs. Each triad of LEDs is grouped with three software interlocked switches.

Adjacent to each LED/Switch group is a slip-in label for

LED/Switch function identification. A typical application is "Hand-Off-Auto" HVAC control.

A blank faceplate is supplied with each module when no display is used.

INSTALLATION

Fill out identification label and insert it between the front membrane and the circuit board. Mount the display in the recess on the front of the module. Secure the display to the module with the four supplied plastic rivets.

Connect the display ribbon cable (P/N 250186) between connector P1 on the display and connector P1 on the module. No other wiring is required.


DC VOLTS

O 24

2 mount faceplate

1 insert id label

Display

Installation

Label

2ND

FL

2ND

2N

W

3R

NOR FL

TH

3RD

FL

3RD

FL

W

D

FL

1ST

FL

1S

T

1ST

EAST

FL

1ST

W

2ND

3 connect ribbon cable

Ribbon Cable

P/N 250186

Faceplate connector on module

Connector pins on rear of faceplate

SPECIFICATIONS

CONTROL/LED DISPLAYS

Model

3-24R

3-24Y

3-24G

3-12RY

3-12SG

LED Configuration

24 Red

24 Yellow

24 Green

12 Red-over-Yellow pairs

12 Green

Switch

Config.

None

None

None

None

12

3-12SR

3-12SY

12 Red

12 Yellow

12

12

3-12/S1GY

3-12/S1RY

3-12/S2Y

12 Green-over-Yellow pairs 12

12 Red-over-Yellow pairs 12

24 Yellow

3-6/3S1G2Y 6 Green-over-Yellow-over-

12

6 triads Yellow triads

3-6/3S1GYR 6 Green-over-Yellow-over-

Red triads 6 triads

Current Requirements:

Standby current 2.0 mA (base) + 1.5 mA/LED ON

Alarm current

@ 24 Vdc

2.0 mA (base) + 1.5 mA/LED ON

@ 24 Vdc

Operating Environment:

Temperature

Humidity

32°F (0°C) to 120°F (49°C)


Mounting Front of any LRM module except the 3-CPU Panel Controller.


3-24R

3-24Y

3-24G



CORPORATION

3-6/3S1G2Y

3-6/3S1GYR

INSTALLATION SHEET:

Control/LED Displays


REVISION LEVEL: 2.0

DATE: 04/06/99

3-12SG

3-12SR

3-12SY

3-12RY

3-12S1GY

3-12/S1RY

3-12/S2Y





6411 Parkland Drive

Sarasota, FL 34243

625 6th Street East



CRC and CRCXM

Card Reader Controller


The Card Reader Controller (CRC) module performs access control processing. Each CRC stores a complete database and can grant or deny entry without external communication. If access is granted, the CRC applies or removes power for the door strike or maglock. The CRC is also capable of unlocking the connected door by activating a manual push button.

Each CRC can store 8,000 (CRC) or 36,000 (CRCXM) users for any door and can save 5,000 (CRC) or 20,000 (CRCXM) events in a history log. The CRC supports two readers, one strike, and one door opener. The CRC can connect two input devices such as request-to-exit detectors or door contacts.

CRCs continue to process access events even if there is a loss of communications or power. An internal 1.2 Ah sealed lead acid battery (purchased separately) provides up to 4 hours of local standby power. The CRC includes a system-controllable

Form C relay that can be used for fire applications.

Note: For more information on the CRC, refer to the EST3

Installation and Service Manual, P/N 270380.

Specifications

Maximum cable distance to reader: See reader documentation

Dimensions

Width: 8.0 in (20.5 cm)

Height: 4.75 in (12.0 cm)

Depth: 2.5 in (6.4 cm)

Cover removal clearance: ~1 in on either side

Housing: White 94-VO thermoplastic

Power

Voltage range: 19 to 27 Vdc

Input: 24 Vdc or 16.5 Vac, 40 VA transformer (P/N

CRCXF, not included)

Reader output: 12 Vdc at 0.5 A

Lock output: 12 Vdc at 0.5 A (see wiring note 5 below)

Battery: 12 Vdc, 1.2 Ah sealed lead acid (P/N 12V1A2, not included)

Current using 24 V riser

Standby: 940 mA max.

Active: 950 mA max.

Current using CRCXF (Class II transformer)

Standby: 135 mA at 120 Vac

Active: 135 mA at 120 Vac

Installation Sheet

Commandable Form C relay: 28 Vac/dc at 2 A (power-limited and resistive load only)

Loop 1 and 2: 12 Vdc, 0.5 mA

Compatible electrical boxes

North American 2-1/2 in (64 mm) deep 2-gang box

Standard 4 in square x 1-1/2 in (38 mm) deep box

European 100 mm square box


Device support (inputs and outputs)

Readers: 2

Strikes or maglocks: 1 (This product is compatible with

UL/ULC listed 12 Vdc strikes and maglocks.)

Door opener: 1 (Form C dry contact)

Input devices: 2

Communication: Security Access Control Bus (RS-485)

Capacities CRC CRCXM

Card holders:

Schedules [1]:

8,000 36,000

1,200 1,200

Holidays [1]: 1,200 1,200

Access levels [1]: 1,200 1,200

History records: 5,000 20,000

[1] Maximum capacity is 255 per company.





You’ll need the LRM removal tool (P/N 210415) to remove the cover, a small screwdriver for terminal screws, and a standard screwdriver to mount the back plate to the electrical box.

Note: Leave about 1 inch of clearance at either side of the

CRC to insert the LRM removal tool when removing the cover.

To install the CRC:

1.

Remove the cover.

2.

Remove the PC board from the backplate using the snaps at the top of the backplate.

Caution: Observe static-sensitive handling procedures.

3.

Determine the mounting location. Remember to leave clearance for cover removal.

4.

Mount the CRC backplate to a compatible electrical box.

5.

Install the PC board to the backplate. Position the board in the slots at the bottom of the backplate, then snap it into place with the snaps at the top of the backplate.

6.

Attach the velcro straps.

7.

Install the battery in the battery compartment.

8.

Mount the battery insulator (provided) over the battery.

Make sure the battery leads are covered and the battery wires are located to the left side of the battery.

9.

Secure the battery and insulator using the velcro straps.

10. Connect all wiring.

11. Attach the cover with a right-to-left or left-to-right motion.

This will properly engage the tamper switch.

18OCT01 P/N: 387625 REV: 1.0

1 / 8

Surface mount, 4 in sq box, or European box

PC board snap 2-gang electrical box PC board snap

CRC backplate

Jumper setup

Intermittent power

(using strike)

JP1

JP2

Continuous power

(using maglock or continuously powered strike)

1 2 3

Output source

1 2 3

Input source

AC power

(from transformer)

DC power

(from panel)

Battery compartment

Velcro strap attachment

PC board attachment slots

Wiring diagram

TB-1

J1

2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23

16.5 Vac IN

16.5 Vac IN

TB-2

2

1

Reader

Manufacturer

HID [3]

Motorola Indala

Dorado

Sensor Eng.

Keri

Radio Key

Dry contact connections

From strike/maglock/ access relay [4]

To next CRC or other device

From power supply [9]

From AC/Load terminals on plug-in transformer (CRCXF) [10]

Note: The ground terminal on the transformer is not used.

Red (+)

Black (-)

To battery

Security Access

Control Bus

From control panel or previous device

W

if this is the last device on

Class B or back to 3-SAC module if Class A.

Tamper switch. Engaged when the cover is installed and activated when the cover is removed.

Red

Red

Red

Red

Red

Red

Reader wire connections

CRC terminal block numbers (designators)

10

(Reader

power) [7]

11

(Reader

GND)

12

(Data 0)

[1] [7]

13

(Data 1)

[1] [7]

Black

Black

Black

Black

Black

Black

Green

Green

Green

Green

Green

Green

White

White

White

White

White

White

14

(RED

LED)

Brown

Brown

Brown

Violet

Brown

Brown

15

(GREEN

LED)

Orange

---

---

Brown

Orange

Orange

See Application wiring diagram

S1

16

(Sounder)

[2]

Yellow

Blue

Yellow

Blue

Blue

Blue

P/N: 387625 REV: 1.0

18OCT01 Installation Sheet

CRC and CRCXM - Card Reader Controller

Application wiring diagram

BA

BA

Basic Security

BA

BT

N/C with Tamper

BT

BA

N/O with Tamper

Wiring diagram notes

[1] If used as an inside reader, connect the green wire to

TB1-13 and the white wire to TB1-12.

[2] Connect the reader's sounder wire only when the

CRCSND is not used and control of the reader's sounder is required.

[3] Program for dual-LED control.

[4] Use a 4.7 K

W, 1/4 watt resistor if no strike is being used to maintain supervision.

5.

When maglock or door strike voltage or current is outside

CRC(XM) operational parameters, use an accessory relay

(catalog number CRCRL) and a listed external power supply to power the lock. Refer to the accessory relay's installation sheet (P/N 3100294) for more information.

6.

When wiring between CRCs goes outside a building, a surge protector is required for the wires leaving the building and for the wires entering another building. Use

Ditek's surge protector model 2LVLP. The surge protector adds 8 ohms of resistance to the line it is connected to.

[7] If you are not connecting a reader, you must use two (2)

47 K resistors between TB1-10 and TB1-12, and TB1-10 and TB1-13.

[8] For connection to UL/ULC listed devices.

Compatibility lists

Table 1: Compatible card readers

Manufacturer Model number

Dorado Systems

Dorado Systems

Dorado Systems

Dorado Systems

Dorado Systems

Dorado Systems

Dorado Systems

Dorado Systems

Dorado Systems

HID Corporation

HID Corporation

HID Corporation

HID Corporation

HID Corporation

200-B (3110-2001)

200-G (3110-2000)

220-B (3310-2201)

220-W (3310-2200)

250-B (3110-2501)

250-W (3110-2500)

251-B (3110-2511)

251-W (3110-2510)

278 (3110-2781)

5355ABK0009

5355AG00

5355AGK0009

5355ABK0009

5365CBP02

Installation Sheet

[9] WARNING: -24 V in must be connected to the PS/MON -

24 V even if the CRCXF is used.

[10] WARNING: The CRCXF with a battery will provide 30 minutes of access and four hours of security standby power. The CRCXF cannot be used in a CRC designed for the following applications: fire alarm, Grade A local mercantile, Grade A, B, or C central station, Grade A or

AA proprietary, or hold-up alarm.

11. When using a CRC as a muster station, the reader must be wired as an outside reader.

Wire routing

• All connections, except the battery leads, are power limited. Terminals TB1-1–4 and 17–23 are supervised.

• Battery leads must be routed under the provided insulator, and must be a minimum of 1/4 inch from any other wiring including TB2 connections or you must use FPL, FPLR, or

FPLP wiring.

• Route 16.5 Vac (TB2-1 and 2) and +24 V in/out (TB1-1 and 2) out of the CRC. Leave no excess wire in the CRC.

This ensures proper power limited spacing.

Power-limited wiring

Nonpower-limited wiring

Description

Mullion proximity card reader

Mullion proximity card reader

Mullion proximity/magnetic stripe card reader

Mullion proximity/magnetic stripe card reader

Wall mount proximity card reader

Wall mount proximity card reader

Wall mount proximity keypad card reader

Wall mount proximity keypad card reader

Ruggedized proximity/magnetic stripe/keypad card reader

ProxPro™ proximity card reader with Wiegand output




MiniProx™ proximity card reader with Wiegand output

18OCT01 P/N: 387625 REV: 1.0

3 / 8

Table 1: Compatible card readers

Manufacturer Model number

HID Corporation

HID Corporation

HID Corporation

HID Corporation

HID Corporation

HID Corporation

HID Corporation

HID Corporation

HID Corporation

HID Corporation

5375NT

5395CG100

6005ABS00

6005AKS00

6005AWS00

6005BBS00

6005BWS00

6005BKS00

6030AGR00

6030AGS00

KeriSystems

KeriSystems

KeriSystems

KeriSystems

Motorola

Motorola

Motorola

Position Technology

P-300BL

P-300W

P-500BL

P-500W

ARK-501+

ASR-603

ASR-605

CR-R880

Description

MaxiProx™ extended range card reader

ThinLine II proximity card reader with Wiegand output

ProxPoint™ proximity card reader with Wiegand output






ProxPro Plus™ proximity card reader

ProxPro Plus™ proximity card reader

Cascade proximity card reader

Cascade proximity card reader

Alps proximity card reader

Alps proximity card reader

PinProx™ proximity card reader with keypad

SecureProx™ I proximity card reader

SecureProx™ II proximity card reader

Posi-Prox Proximity Card Reader

Table 2: Compatible access cards

Manufacturer

Wiegand access cards

HID Corporation

HID Corporation

Model Number

HID Sensorcard Wiegand Card

HID PhotoId Wiegand Card with

Photo [1]

Magnetic stripe access cards

HID Corporation 1336

Proximity access cards

EST

EST

PC-1326

PC-1386

EST

EST

EST

Motorola

Motorola

Motorola

HID Corporation

PC-1386B

EST-PC

PK-1346

AVC-131

APC-161 [1]

ASK-116

PK-1346 Proximity Key Fob

Description

Wiegand card with HID logo

A Wiegand card with HID logo that has space for including a person's photo.

DuoProx II Multiple Technology Proximity Card

Proximity access control card

ISO proximity access control card with unique EST bit format and EST logo on back

ISO proximity access control card with unique EST bit format and no logo on front or back

Construction Card. Proximity access control card with EST logo and unique construction code bit format

Proximity Key Fob with unique EST format

Multi-tech proximity access control card

Multi-tech photo ID proximity access control card

Proximity key tag

Proximity key fob with HID logo for use with EST or HID proximity card readers

P/N: 387625 REV: 1.0



Table 2: Compatible access cards

LED control cards

Motorola

Keri Systems

07260-001

05528-702

Single and dual line LED control option card

LED mode control card

[1] A separately ordered LAM-1 Laminator is required for laminating a photo to the access card. Use a Polaroid ID3 or ID4

Camera for taking the photo.

System power calculations

Form A: SAC active and standby currents

Device Q C1 (mA) C2 (A)

Strike

Maglock

Reader

CRC

CRCSND

KPDISP

60

8

100

Active load

C3 (A) DC (%) SH (Hr)

Battery size

Derated battery size

BC (Ah)

Use Form A to determine the load created by SAC bus devices. Add this load to the load created by fire alarm devices to determine the total load presented to the panel power supply.

If the load exceeds the panel supply capacity, you need an additional power supply for the SAC bus devices.

Note that the SAC current load consists of the current drawn by the CRC or KPDISP devices plus any readers, strikes, and maglocks.

To determine the need for additional power (Form A):

1.

Fill in the Q column.

Q = Quantity of each device

2.

Fill in the C1 column for each type of device used.

C1 = Rated current draw at 12 Vdc

3.

Calculate the C2 column as follows.

C2 = Total current

For locks

C2 = ((Q x C1 x 0.98) - 5) / 1000

For card readers with C1 = 99 mA or less:

C2 = ((Q x C1 x 0.98) - (55 x C1 / 100)) / 1000

For card readers with C1 over 99 mA

C2 = ((C1 x 0.98) -55) / 1000

For CRC, CRCSND, KPDISP

C2 = Q x C1 / 1000

4.

Calculate the C3 column as follows.

C3 = Standby current

Installation Sheet

For locks, readers, and CRCSNDs

C3 = C2

For CRCs and KPDISPs

C3 = Q x 50 / 1000

5.

Fill in the DC column.

DC = Duty cycle

Example: A duty cycle of 30 seconds in every 5 minutes

(300 seconds) is a 10% duty cycle.

6.

Fill in the SH column.

SH = Standby hours

Standby hours is the number of hours after which lock and reader loads should be shed when operating on battery power.

Note that load shedding of locks and readers requires 3-

SDU programming.

When used for fire alarm applications, CRCs and

KPDISPs require at least 24 hours of standby power.

7.

Calculate the BC column as follows.

BC = Battery capacity

BC = (C3 x DC x SH) / 100

8.

Calculate the Active load by totaling column C2.

9.

Calculate the Battery size by totaling column BC.

10. Calculate the Derated battery size as follows.

Derated battery size = Battery size x 1.2

11. Add the Active load figure to the corresponding totals calculated for the remainder of the system.

18OCT01 P/N: 387625 REV: 1.0

5 / 8

12. If the Active load is greater than the panel supply capacity, you must add an additional power supply.

13. Use the system-wide Derated battery size to determine the battery required for the panel.

Providing adequate voltage for devices

To determine whether each CRC and KPDISP will have adequate input voltage, the voltage drops along the SAC bus can be estimated or calculated.

Estimated voltage drop

To estimate the voltage drop use Table 3 and Table 4 which show the maximum length of a SAC bus for a given number of devices and a total load current. (One table is for 16 AWG wire, the other for 14 AWG wire.)

These tables were calculated based on even spacing between doors and an equal load at each door.

To check for adequate device voltage:

1.

Determine the total active current for a typical door. To do this, add the active current of the CRC, the active current of the door lock, the active current of the card reader, and the active current of the sounder (if used).

2.

Determine the number of doors you need to secure.

3.

In Table 3 find the intersection of the number of doors and the load current you determined in steps 1 and 2.

This is the maximum length (in feet) of the SAC bus using

16 AWG wire.

4.

If the distance from the control panel to the last device on the SAC bus is less than this distance, no further calculations are needed.

5.

If the distance to the last device in you installation is greater than this distance, repeat steps 1 through 4 using

Table 4.

6.

If changing the gauge of the wire does not result in a sufficient length for a single SAC, you will need to design the system with an additional power supply, then repeat the steps.

Calculated voltage drop

You can use the EST3 System Builder program to calculate the actual voltage drop along the SAC bus, based on the actual load of each device and the actual distance between devices.

To calculate the voltage drop:

1.

Start the EST3 System Builder program and select the 16

AWG check box.

2.

For the first device on the SAC bus, enter the actual active load and the distance from the control panel.

The system calculates the voltage drop and indicates whether it is OK to continue.

3.

Continue adding the actual active loads and distances from the previous device for all subsequent devices on the

SAC bus.

Remember to include any attached door locks, card readers, and sounders. For these, add their current draw to the CRC you’re currently entering.

4.

If you add all devices without encountering an error message, your design will provide adequate device voltage. If you encounter an error message you must either:

• Repeat the process but select 14 AWG wire

• Use a second SAC bus

• Add an additional power supply

Table 3: Length of SAC bus using 16 AWG wire

Doors 70

Load current (mA)

100 150 200 250 300 350 400 450 500 550 600 650

10

11

8

9

12

13

14

5

6

7

1

2

3

4

4000 4000 2650 2000 1600 1300 1140 1000 885 800 720 665 616

3800 2660 1776 1300 1060 880 760 666 594 532 484 444 410

2850 1950 1320 990 780 660 570 498 444 399 363 333 306

2240 1600 1040 800 624 520 452 400 355 320 288 266 244

1875 1350 885 650 525 435 375 333 296 266 242 222 205

1620 1140 756 558 450 378 324 286 254 228 207 190

1400 980 665 497 392 329 285 250 222 199 X X

1240 880 584 440 352 288 253 222 197

1125 810 522 396 315 261 228 200 X

1030 730 480 360 290 240 207 X X

X

X

X

X

X

X

X

X

X

946 660 440 330 264 220

876 600 408 300 240 X

806 559 377 273

756 518 350 X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

P/N: 387625 REV: 1.0




Doors 70


100 150 200 250 300 350 400 450 500 550 600 650

15

16

705 495 330

672 464 304

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

17

18

19

20

629

576 414

570

442

399

540 380

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

Notes: All distance measurements are given in feet. X means that the 3-PPS/M will not support these devices at any distance.

X

X

X

X

X

X


Doors 70


100 150 200 250 300 350 400 450 500 550 600 650

1

2

3

4000 4000 4000 3000 2400 2000 1750 1500 1360 1200 1100 1000 940

4000 4000 2700 2000 1600 1360 1160 1000 900 800 740 680 620

4000 3000 2040 1500 1200 1020 870 750 660 600 555 510 471

4

5

6

7

8

9

3480

2900

2400

2000

1600

1365

1200

1000

960

800

800

675

700

575

600

500

544

455

480

405

436

365

2460 1710 1140 870 690 582 492 438 390 348 312

2170 1505 1015 756 602 511 434 378 336 301 X

1920 1360 904 680 544 448 384 336

1710 1215 810 612 477 405 351 X

1550 1100 740 550 440 370 310 X

X

X

X

X

X

X

X

X

X

400

335

10

11

12

1430 1012 682 506 407 341

1344 936 624 468 372 X

1248 858 585 429 351 X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

13

14

15

1162 812 532 406 322

1095 750 510 375 X

1024 720 480 352 X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

16

17

18

969 680 442 340

918 630 414 X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

19

20

874 608 399

820 580 380

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

Notes: All distance measurements are given in feet. X means that the 3-PPS/M will not support these devices at any distance.

X

X

X

X

X

376

315

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X


7 / 8

P/N: 387625 REV: 1.0



CRCRL

CRC Accessory Relay


The CRCRL is a fire, security, and access control accessory.

Use the CRCRL in conjunction with an external power supply to control a device which requires voltage or current outside the control unit's operating range.

Specifications

Operating voltage: 12 Vdc

Operating current: 34 mA at 12 Vdc

Contact rating

2 A at 28 Vdc at 0.6 PF

2 A at 120/250 Vac at 0.6 PF

Dimensions

Width: 0.8 in (2.0 cm)

Height: 1.8 in (4.6 cm)

Depth: 1.2 in (3.1 cm)


Temperature: 32–120 °F (0–49 °C)


Leads

Free length: 6.0 inches (15.25 cm)

Wire: 18 AWG stranded, tinned

Insulation: 0.03 in (0.76 cm) minimum


CRC applications

When used with power-limited wiring, the CRCRL can be mounted inside the CRC housing. When used with nonpowerlimited wiring the CRCRL must be mounted in an electrical box. You can use the electrical box the CRC is mounted on.

To install the CRCRL in the CRC housing:

1.

Remove the CRC cover.

2.

Position the CRCRL on the left side of the battery with the leads pointing up and the hook-and-loop patch facing the battery, pressing the CRCRL firmly into the battery strap.

3.

Connect all wiring as shown in the wiring diagram, using power-limited wiring.

4.

Attach the CRC cover.

To install the CRCRL in an electrical box:

1.

Remove the CRC cover.

2.

Remove the CRC backplate from the electrical box.

3.

Position the CRCRL inside the electrical box.

4.

Connect the CRCRL contact wires to the power supply and door lock, as shown in the wiring diagram.

5.

Pull the CRCRL control wires through the CRC backplate hole.

6.

Mount the CRC backplate on the electrical box.

7.

Connect the CRCRL control wiring as shown in the wiring diagram.

8.

Attach the CRC cover.

Wiring diagram

CRC applications


1 / 1



The sounder is a small horn that mounts inside the card reader controller module. The sounder operates if an emergency exit door is opened without an exit request and locally indicates that a door has been left open.

Note: This device is for supplementary use only.

Specifications

Operating voltage: 12 Vdc

Operating current: 7 mA


Relative humidity: 93% @ 104 o

F (40 o

C)

Temperature: 32 - 120 o

F (0 - 49 o

C)


1.

Remove power from the card reader controller module.

2.

Remove the card reader controller cover.

3.

Snap the sounder into the molded brackets in the card reader controller cover.

CRCSND

CRC Sounder

Wiring diagram

To TB1-5 (Strike PWR) on card reader controller module

To TB1-16 (Sounder) on card reader controller module

Either terminal connection can be used

+

Card Reader Controller module cover

Sounder mounted in cover

4.

Connect all wiring from the sounder to the card reader controller. Refer to the wiring diagram below.

5.

Install the card reader controller cover.

6.

Apply power to the card reader controller module.


1 / 1



SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075




GFD

Ground Fault Detector

Jumper setup

A trouble is sent to a monitoring module/circuit

(the relay contacts on the

GFD change state)

A ground fault is placed on the monitoring circuit

(i.e. fire alarm panel)

16 15 14 13

IN OUT

Circuit pair #1

3-2-1

JP1

12 11 10 9

IN OUT

Circuit pair #2

Earth

GND

8 7

Power

6 5

LED1 LED2

NC

4

COM

3

Trouble/GF Contacts

NO

2 1

3 2 1

JP1

The Ground Fault Detector (GFD) is used to detect ground faults on power-limited isolated circuits. The GFD provides ground fault monitoring for up to two isolated signals. A ground fault on any wire is detected within 20 seconds. Built-in relay contacts are available for indicating trouble and ground fault conditions, or the GFD can be configured to put a ground fault on the monitoring circuit.

The GFD is a stand-alone unit. Its dry contacts can be monitored by other system input devices. The GFD also has a watchdog circuit, which keeps the relay energized.

Specifications

Operating voltage range: 10 to 28 Vdc

Current draw: 110 mA

Trouble contact rating: 1 A @ 30 Vdc (resistive)

Ground fault detection: < 20 seconds (up to 10 K

W)

Ground fault monitoring: 2 circuits, 2 wires (every 16 seconds)



Humidity: 0 to 93% RH (non-condensing)

Construction: High impact engineering polymer



Standard 4 in square box 1-1/2 in (38 mm) deep with

1-gang cover

LED outputs

The GFD has two yellow LEDs. The LEDs indicate which circuit pair and which conductor pair has a ground fault. The

LEDs light to indicate which conductors have a ground fault.

Refer below:

Ground fault on conductor 1: LED 1 ON steady

Ground fault on conductor 3: LED 2 ON steady

Note: When a 3-NSHM is used, the following takes place:

Ground fault on conductor 1 or 2: LED 1 ON steady

Ground fault on conductor 3 or 4: LED 2 ON steady


1.

The GFD is shipped from the factory as an assembled unit; it contains no user-serviceable parts and should NOT be disassembled.

2.

Verify that all field wiring is free of opens, shorts, and ground faults.

3.

Connect all wiring as shown in the wiring diagram.

4.

Using the two 6-32 x 3/8 in (9.5 mm) machine screws provided, mount the module to the electrical box.

5.

Using the four 4-24 x 5/16 in (7.9 mm) self-tapping screws provided, mount the wall plate to the module.

Note: Wire in accordance with the current NFPA 70 National

Electrical Code.

Compatible electrical box

GFD

Wall plate, white

(2-gang)

Installation Sheet 04SEP01 P/N: 387630 REV: 1.0

1 / 2

Wire stripping guide

1/4 in (~6 mm)

Strip 1/4 in (about 6 mm) from the ends of ALL wires that connect to the terminal block of the module.

Wiring diagram

Pair one in

+

Pair two in

+

Caution: Exposing more wire may cause a ground fault.

Exposing less wire may result in a faulty connection

+

Pair one out

+

Pair two out

16

IN

15 14 13

OUT

Circuit pair 1

3-2-1

JP1

12

IN

11 10 9

OUT

Circuit pair 2

Earth

GND

8 7

Power

6 5

LED1 LED2

NC

4

Trouble/GF Contacts

COM NO

3 2 1

To earth ground

Polarity is not important

From UL/ULC listed

24 Vdc fire alarm panel

[4]

Notes

1.

All circuits are power-limited and supervised. (See Note 4 below.)

2.

Contacts 1 and 7 are not used.

[3] The functionality of the Trouble/ GF circuit is dependent on the position of JP1.

[4] Use UL/ULC listed end-of-line device for complete supervision. Contacts cannot be used for nonpowerlimited applications unless all wiring is type FPL, FPLR, or

FPLP.

To supervisory module or traditional zone card.

[4] [3]

P/N: 387630 REV: 1.0

04SEP01 Installation Sheet

GFD - Ground Fault Detector


SPECIFICATIONS

The IOP3A isolator card is designed to electrically isolate a fire alarm control panel's RS-232 ports from peripheral devices. The IOP3A provides two isolated RS232 connections, as well as a DB9 and RJ12 connector for downloading. A select mode allows both a printer and modem to be connected when used on EST2 systems.

The IOP3A should be used in ALL applications which require the connection of external devices (CCA, CGP,

VDU, and external modems) to properly isolate the fire alarm control panel from earth ground connections.

INSTALLATION

The IOP3A module requires 1/2 standard module footprint.

FIELD WIRING:

To Control Module:

TB1-1

TB1-2

TB1-3

TB1-4

TB1-5

TB1-6

(+) 24VDC

(-) 24VDC

Port Selection/Supervision

Common

RXD IN

TXD OUT

Current Requirement 60mA

JUMPER SETUP

JB1

JB2

1-2

2-3

Select Mode

Supervision Mode

IN Output #1 supervision disable / (+) 12VDC on TB2-1

OUT Output #1 supervision enable (TB2)

JB3 IN Output #2 supervision disable / (+) 12VDC on TB3-1

OUT Output #2 supervision enable (TB3)

JB4 IN Supervision Mode

OUT Select Mode

NOTE:

JB1 and JB4 settings must agree.

IRC-3 Printer Mode:

JB1 2-3 IN

JB2

JB3

JB4

IN

IN

IN

RDU Mode:

JB1

JB2

1-2 IN

OUT

JB3

JB4

OUT

OUT

P1 on 2-MCM IN

FireWorks Mode:

JB1

JB2

2-3 IN

IN

JB3

JB4

IN

IN

P1 on 2-MCM OUT

To Peripheral Device:

TB2/3-1

TB2/3-2

TB2/3-3

TB2/3-4

Supervision / (+) 12VDC

Common

TXD OUT

RXD IN

Notes:

1.

When in RDU mode, TB2 must be used for the modem and TB3 must be used for a printer.

2.

All RS-232 connections should be within the same room or within 50 feet of the fire panel they are connected to.

SWITCH SETUP

TB1

1 2 3 4 5 6

JB1

3

2

1

UP

SW1

+ -

24VDC

SUPV

OUT

RS232 IN

RXD

IN

TXD

OUT

PROGRAM

IOP3A

JB4

RS232 #1 OUT

SUPV COM

TXD RXD

JB2

1 2 3 4

TB2

JB3

TB3

1 2 3 4

SUPV COM TXD RXD

RS232 #2 OUT

SW1

UP Outputs 1 and 2 enabled. RJ12 and

DB9 connectors disabled.

INSTALLATION SHEET:

IOP3A

Isolator RS-232 Card

DOWN Download setting. RJ12 and DB9 connectors enabled. Outputs 1 and 2 disabled.

Note diagram below for UP and DOWN switch positions.



REVISION LEVEL: 1.0

DATE: 10/04/99



CORPORATION


APPROVED BY: D.P.

CREATED BY: DRM


6411 Parkland Drive

Sarasota, FL 34243

USA

625 6th Street East

Owen Sound, Ontario

Canada N4K 5P8

APPLICATION DRAWINGS

IOP3A to CM motherboard wiring IOP3A to 3-CPU1 wiring

COM

+24 VDC

COMMON

P1

Switch shown in

UP position.

TB1

7

8

9

4

5

6

1

2

3

P3

10

P4

J1

P7

J2

CM Motherboard

3-CPU1 Panel controller

R

X

1

T

X

1

R

T

S

1

C

O

M

1

R

X

2

T

X

2

R

T

S

2

C

O

M

2

TB2

IOP3A

JB2 INSTALLED

(PROVIDES 12V TO POWER MODEM)

GREEN

BLACK

WHITE

RED

RED

WHITE

NOTE: The IOP3A must be configured in supervision mode.

JUMPER 7-8

JUMPER 1,4,6

PIN 1

DOWNLOAD CONFIGURATION

DB-9 FEMALE

PIN 1

GREEN

BLACK

2 3 4 5 7 8

JUMPER 4-5

JUMPER 6, 8, 20

DOWNLOAD CONFIGURATION

DB-25 FEMALE

Switch shown in

UP position.

GREEN

BLACK

RED

WHITE

24 Vdc

20

7

COM

IOP3A

3 2

PIN 1

PRINTER CONFIGURATION

DB-25 MALE

IOP3A to 2-MCM(N) wirng

NAC

POWER

NAC

POWER

TB3

SMOKE/AUX

POWER

NAC

POWER

TB3

Power Limited

Not supervised

2-PPS/6A

2-PPS

COM

JB1 on 1-2

Switch shown in

UP position.

NOTE: The RTS line is connected only when the

IOP3A is used in Select

Mode.

TXD

RS-232

RXD

RTS

COM

2-MCM(N)

P/N: 270758 REV: 1.0 Page 2 of 2


IOP3A

Note:

When in RDU mode,

TB2 on the IOP3A must be used for the modem and

TB3 must be used for a printer.


HH:MM:SS MM/DD/YYYY

SYSTEM BANNER LINE 1

SYSTEM BANNER LINE 2

0-9)Password:_______

#)Clear

OPERATING INSTRUCTIONS

RESPONDING TO ALARMS

Fire:

three short beeps followed by a long pause. Notify the Fire Department.

Phone: __________________________________________

Security:

steady tone. Notify the Police Department.

Phone: __________________________________________

Supervisory o r trouble:

steady beeps. Notify your service company.

Phone: __________________________________________

Account: __________________________________________

SILENCING ALAR MS

When it is safe to enter the building and only when instructed by the authority having jurisdiction, enter your password and execute the correct commands.

Fire:

Choose Reset /Silence then Silence Alarms.

Burglary:

Choose Disarm Security, select the partition in alarm, then choose

Disarm.

Supervisory o r trouble:

Choose Reset/Silence then Silence Panel.

OT HER F UNCTIONS

For more detailed instructions of these commands, and for descriptions of all other commands, refer to the Keypad Display User Guide (P/N 387631).

1

GHI

4

PRS

7

?

ABC

2

JKL

5

TUV

8

0

DEF

3

MNO

6

WXY

9

#

Description

The Keypad Display (model KPDISP) is a control and display module used in security and life safety applications. After entering a password, the user can:

• Arm and disarm partitions

• Review off-normal points

• Bypass or include points

• Perform various life safety functions

The KPDISP has a compact, covered enclosure which houses:

• An LCD display

• A telephone-style keypad

• A variable-tone sounder

• An internal processor

The module is compact enough to mount near exit doors or behind counters. Mounting holes in the back cover fit standard electrical boxes.

Features

A removable, hinged front cover protects the keys and provides space for basic operating instructions. Grooves in the cover transmit light from the illuminated keypad.

The display is a backlit LCD which lights when in use. It can display 8 lines of 21 characters. Each KPDISP supports two user-selectable languages and can display text in most languages.

The telephone-style keypad is continuously backlit. The keys are wear-resistant silicone rubber. They have a perceptible range of travel, and provide positive tactile and audible feedback.

A variable-tone sounder is part of the KPDISP module. This can be programmed to emit tones of a specific frequency and duration, so as to provide audible feedback to the user.

KPDISP

Keypad Display

Internal processing

An internal processor drives the LCD display in response to system messages and user input. Menu screens let the user view information or choose commands. In addition, the processor shows context-sensitive help screens to support the user.

The system programmer defines which menu commands are available on a user-by-user basis. Users are granted or denied access to any partition controlled by a KPDISP.

The module can annunciate and report tampering or loss of communication with the main system panel.

System requirements

The KPDISP must be connected to a 3-SAC module. The

KPDISP communicates with the system control panel via the

3-SAC. The 3-SAC supports the SAC bus (an RS-485 line) which can be configured as Class A or Class B, depending on application requirements.

In addition to security messaging, the SAC bus transmits database updates and life safety event messages to the

KPDISP.

The KPDISP is shipped with a service password of 0000000 to allow initial testing. When any password is downloaded to the keypad, the service password is removed.

Specifications

Dimensions

Closed size: (W x H x D): 7.22 x 4.70 x 1.13 in (18.34 x

11.94 x 2.86 cm)

Open height: 8.72 in (22.15 cm)

Cover swing (from wall): 5.2 in (13.21 cm)

Cover removal clearance: ~1 in on right side

Material: High impact polymer, white

Operating temperature range: 32 to 120 °F (0 to 49 °C)

Operating humidity range: 0 to 93 % RH, non-condensing

Storage temperature range: –4 to 140 °F (–20 to 60 °C)



Standard 4 in square box 1-1/2 in (38 mm) deep box

European 100 mm square box


Power: 18.4 to 26.4 Vdc

Current: 95 mA

Partitions: 255 maximum

Users: 200 maximum

Languages: 2 (user-selectable)


You may find it easier to install the KPDISP if you remove the hinged cover. You’ll need the LRM removal tool (P/N 210415) to remove the back plate, a small screwdriver to tighten the terminal screws, and a standard screwdriver to mount the back plate to the electrical box.

Note: Leave about 1 inch of clearance between the right side of the KPDISP and the door (or other obstructions) to insert the

LRM removal tool when removing the cover.


1 / 2

To install the KPDISP:

1.

Use the LRM removal tool to press the locking tab inward

(toward the wire hole) and remove the back.

2.

Mount the back to the electrical box, pulling the wires through the hole in the back.

3.

Strip the wires to the correct length, approximately 1/4 inch (~6 mm).

4.

Attach the power cable wires to the top terminal block.

Observe the correct polarity.

5.

Attach the communication cable wires to the bottom terminal block.

6.

Insert the hinge tabs on the left side of the body into the slots in the back, then press the right side of the body onto the back to engage the locking tab.

7.

Attach the front cover if you removed it for installation.

2-gang box

Surface mounting,

4 in box, or 100 mm box

Locking tab

Rear view of the KPDISP, showing the locking tab and mounting holes

Wiring diagram

Note: All wiring is supervised and power-limited.

IN OUT IN OUT

24 VDC

–

+

24 Vdc from last device or power supply

–

+

–

+

24 Vdc to next device

SAC bus from last device or

3-SAC module

–

+

SAC bus

–

+

IN OUT IN OUT

Front view of the backplate as mounted on the electrical box, showing terminal connections

– SAC bus to next device,

+ or 3-SAC if Class A

18OCT01 P/N: 3100054 REV: 1.0

CABINET DIMENSIONS

12.95 in

(32.9 cm)

2.75 in

(6.99 cm)

0.46 in (1.17 cm)

7.60 in

(19.31 cm)

TOP

Earth ground stud located on inside upper left corner next to knockout

12.07 in

(30.66 cm)

6.12 in

(15.55 cm)

2.75 in

(6.99 cm)

12.95 in

(32.9 cm)

7.60 in

(19.31 cm)

TOP

Earth ground stud located on inside upper left corner next to knockout

RCLM/B-S

Notes

1. Make sure that the wallbox is level and at the proper height and location before securing. Use fasteners of acceptable size and type.

2. All wiring shall be power-limited.

RCLM/B


The RLCM/B(-S) Remote Annunciator Cabinet wallbox houses the electronics for the 3-LCDANN(-E) Remote

LCD Command Module Annunciator. The RLCM/B is used in semi-flush is used for surface mount applications. The RLCM/B-S mountings.

INSTALLATION SHEET

RLCM/B(-S)

Remote Annunciator Cabinet

Wallbox


REVISION LEVEL: 1.0

DATE: 08DEC99





SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075






The SIGA-AAXX is a high-efficiency, dual-input, switch-mode audio amplifier. The amplifier comes in two versions: 30 watt (SIGA-AA30) and

50 watt (SIGA-AA50), and has both 1 V and 25 V input levels. The output is supervised, power-limited, and user-selectable for 25 Vrms or

70 Vrms output voltage.

An integral Signature module under software control selects the amplifier input channel. The amplifier reports its status to the Main Controller

Module to reduce the need for additional field wiring. The amplifier also features a backup amplifier connection, which supports one-to-one or banked backup amplifiers.

INSTALLATION

1

Mount the amplifier with the screws and washers provided.

Primary Power Supply

Main Controller Module

Expander Loop Module

Power requirements

Standby

Active SIGA-AA30

Active SIGA-AA50

Frequency response

Harmonic distortion

Input

Channel 1 dual input

Channel 2 dual input

Output

SIGA-AA30

SIGA-AA50

Configuration

EOL resistor

Signature Data Circuit

Addresses

Emulation

Maximum wire size

Backup tone

Operating temperature

Humidity

SPECIFICATIONS

1 mA @ 24 Vdc

1.7 A @ 24 Vdc

3.2 A @ 24 Vdc

400 Hz to 4 kHz at -3 dB (ULC)

800 Hz to 2.8 kHz (ULI)

< 5%

1 Vrms or 25 Vrms maximum

1 Vrms or 25 Vrms maximum



Class B (Style Y) or Class A (Style Z)

47 k

W

2 module addresses

Signature series CC2 module

1 kHz

0 to 93%, noncondensing

Warning!

Disconnect power to cabinets before installing or removing components. Failure to do so may result in serious injury or loss of life.

!

Caution!

Audio Control Module

Observe static-sensitive material handling practices.

Audio Amplifier

LED

DS1

DS2

DS3

DS4

DS5

LED indicators

Color

Green

Pattern Description

Steady Power amp disabled

Yellow Steady Backup mode

Green Steady Amplifier active

Green

Red

Flashing Normal communications (daughterboard)

Flashing Active condition (daughterboard)

Audio Amplifier

Interlocking washer

Screw

Note: See the installation sheets listed in the title box for other places to mount the Audio Amplifier.

2

Configure the amplifier a.

Set JP2 (output voltage) to 25 Vrms or 70 Vrms as required.

b.

Set JP3 on the back of the daughter board for the backup mode.

INSTALLATION SHEET:

SIGA-AA30/SIGA-AA50 Audio Amplifiers

Jumper Settings

JP2

JP3

Pins 1 and 2: 70 Vrms

Pins 2 and 3: 25 Vrms

In: TB5 signal before 1 kHz backup tone

Out: 1 kHz backup tone before TB5 signal



REVISION LEVEL: 2.0

DATE: 30MAR00

APPROVED BY: J. Massing


Related documentation: WB3(R) Wallbox installation sheet, WB7(R) Wallbox installation sheet, RACCR Remote Audio Closet Cabinet installation sheet


SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075



WIRING

3

Wire the amplifier

25 Vrms input wiring

a.

Connect the power, the Signature Data

Circuit (SDC) , the input risers, and the backup risers as required.

b.

Test the circuit before you connect the amplifier to the output wiring.

c.

Connect the circuits that check out good to the appropriate amplifier terminals.

Note:

The terminal blocks indicate the polarity for normal monitoring of the circuit’s electrical integrity.

1 Vrms input wiring

Data in Data out

To next device if required

TB1

+

_

+

_

CH1

AUDIO OUT

2-AAC

TB2

TB3

CH2

AUDIO OUT

From the SDC

To the Ch 1 input of the next amplifier

From the Ch 1 output of the source amplifier

To the Ch 2 input of the next amplifier

From the Ch 2 output of the source amplifier

Notes

25 V

COM

25 V

COM

25 V

COM

25 V

COM

1

2

3

4

5

Signature series module: CC1, CC2, or UM

UL/ULC Listed 47 k

W

EOL

The actual placement of the TB1 and TB2 output terminals is almost directly behind the input terminals. Note also that the output terminals are taller than the input terminals.

See the detail for 1 volt connections.

All wiring is supervised and power-limited.

TB1

In

Out

3

TB2

DS5 DS4

Daughterboard

In

Out

DS1

3

JP3 on reverse side

COM

1 V

COM

1 V

Audio Amplifier

Detail

1 volt connections

4

TB1 Audio

Amplifier

TB4

4

3

TB2

TB3

SIGA

+

In

_

Out

+

_

3

4

TB1

Audio riser out

2

Class B only

Audio riser return Class A only

JP2

70 V

TB6

TB5

25 V

2

24 Vdc from a listed fire alarm power supply

2

2

1

1

2

Audio

Amplifier

TB4

Typical audio riser out

1

In

Out

4

3

TB2

TB3

SIGA

+

In

_

Out

+

_

3

3

TB1

JP2

70 V

TB6

TB5

25 V

Audio

Amplifier


TB4

2

2

3

4

TB2

TB3

SIGA

+

In

_

Out

+

_

4

JP2

70 V

TB6

TB5

25 V

To the rest of the

Signature devices


P/N: 387343 REV: 2.0 Page 2 of 2


Typical audio riser return

(Class A only)

DS3

TB4/TB5 wiring

DS2

TB4

NAC

B

A

SH

+

_

+

_

Audio Amplifier

TB5

Backup

In

Out

+

_

+

_


The SIGA-APS is a switch-mode auxiliary power supply designed to provide additional power for audio components and external Notification Appliance

Circuits (NACs). The power supply monitors the AC line, performs ground fault testing, and charges batteries (up to 10 Ah). The SIGA-APS also provides a smooth and uninterrupted transition to batteries in the event of an AC power loss.

All trouble conditions detected by the SIGA-APS are transmitted to the fire alarm control panel through its connection to the Signature Data Circuit (SDC), eliminating the need for additional devices. All connections intended to leave the cabinet are fully protected against direct and induced transient voltage conditions.

SPECIFICATIONS

AC Input voltage

SIGA-APS

SIGA-APS-220

Maximum wire size

Output voltage

Nominal rating

Output circuits

Maximum wire size

Battery charging

Charge current

Charge capacity

Signature

Addressing

Personality Code

Maximum wire size

120 Vac @ 300 W maximum, 50/60 Hz

220 Vac @ 300 W maximum, 50/60 Hz

24 Vdc @ 6.75 A total

Two power-limited circuits rated at 24 Vdc @

3.2 A each

1.0 A

10 Ah

Two module addresses

03 (Emulates SIGA-CT2)

Environmental Conditions

Temperature range

Humidity

32 to 120 °F (0 to 49 °C)

93%, Non-condensing

INSTALLATION

Mount the SIGA-APS with the screws and washers provided.

Warning!

Disconnect power to cabinets before installing or removing components.

Failure to do so may result in serious injury or loss of life.

Auxiliary Power Supply

!

Caution!

Observe static-sensitive material handling practices.

WIRE ROUTING

The routing of power-limited and nonpower-limited wiring differs with each cabinet. For more information on the routing of power-limited and nonpowerlimited wiring, see the cabinet’s installation sheet.

PRODUCT DIAGRAM

#6 interlocking washers

6/32 x 3/8 pan head screws

INSTALLATION SHEET:

SIGA-APS (-220)

Auxiliary Power Supply Module


REVISION LEVEL: 2.0

APPROVED BY: J. Massing

DATE: 30MAR00



SARASOTA, FL: 941-739-4300 FAX 941-753-1806

CHESHIRE, CT: 203-699-3000 FAX 203-699-3075




WIRING

Wire Stripping Guide

Strip 1/4 inch from the ends of ALL wires that connect to the terminal blocks of the module.

Caution:

Exposing

Exposing

To dedicated 220 Vac,

7.5 Amp, 50/60 Hz supervised branch circuit

2

Line 1

Line 2

Ground

4

TB1

L1

L2

G

220 Vac Auxiliary Power Supply

1/4 inch (6.4 mm) than 1/4 inch of wire may cause a ground fault.

than 1/4 inch of wire may result in a faulty connection.

To dedicated 120 Vac,

15 Amp, 50/60 Hz supervised branch circuit

2

Hot

Neutral

Ground

4

TB1

2

120 Vac Auxiliary Power Supply

BATTERY

3

TB2

See the details below for the battery terminal wiring.

TB3

TB4

1

+

_

24 Vdc

NAC1 power

+

_

24 Vdc

NAC2 power

_

+

Data out

1

Signature

Data

Circuit

3

_

+

Data in

Auxiliary Power Supply

TB2

SIGA-AAXX

SIGA-AAXX

+

Battery

_

+

Battery

_

Route the battery wiring harness

(P/N 250181) through the plastic channel under the SIGA-AAXX amplifiers to the battery terminals.

Plastic channel

Battery

+

_

TB2

+ red wire

_

+

Top view black wire

_

Notes

1

2

Power-limited

Nonpower-limited

3

Supervised

4 Nonsupervised

SIGA-MD(S)

Motion Detector


Coverage

Patterns: Full, right, left, and center

Curtains: Up to 7

Range: 34 ft (10.36 m) x 90°

Mounting

Surface: Flat wall or corner

Height: Up to 10 ft (3 m)

Address requirement: 2


Storage temperature range: -4 to 140 °F (-20 to 60 °C)

Humidity: 10 to 93% noncondensing

Shipping weight

SIGA-MD: 7.3 oz (207 g)

SIGA-MDS: 9.6 oz (272 g)

Construction: High impact polymer

Color: White

Note: This unit complies with FCC and DOC requirements.

SIGA-MD

The Motion Detector module is an intelligent, analogaddressable device that interfaces a motion detector and a security or guard tour input to a Signature loop controller. The

SIGA-MDS contains the same circuitry as the SIGA-MD, but its mounting and wiring require different procedures. See the mounting and wiring topics in this installation sheet for complete instructions.

The Motion Detector requires two module addresses. One channel monitors the PIR (passive infrared) and the tamper switch in the detector. The second channel provides a security input, which can be configured for security or guard tour applications (per NFPA 72). A single Signature loop can accommodate up to 62 units.

The Motion Detector provides seven separate coverage patterns known as curtains. The curtains are actually infrared reflections that extend to 34 ft (10.36 m) and cover a width 4.8

ft (1.46 m) each. The coverage patterns, however, are configurable to specification. See “Configuring the reflector and window” and “Mounting the detector” for more detail.

A coverage test function provides verification for the extent of coverage within specific zones covered by the infrared curtains. A red LED flashes to indicate active motion within a covered zone.

Specifications

Input voltage: 15.20 to 19.95 Vdc

SIGA-MDS

Current draw

Standby: 600 mA

Active: 700 mA

Input circuit

EOL resistor: UL/ULC listed 47 k

W

Max. resistance: 50 W (25 W per wire)

Max. capacitance: 0.1 mF

Max. voltage: 18 Vdc

Max. current: 0.32 mA

Installation Sheet

Personality codes

System controller compatibility

The Motion Detector requires a Signature loop controller to download the personality codes that determine how it will operate. The first channel is user-definable to eight different personalities. The second channel is automatically configured for motion detection. The user-definable personality codes for external security loops are described below.

Personality code 3: N.O. active, nonlatching relay (guard tour)

Personality code 3 configures the channel 1 input for use with

Class B, normally-open (N.O.) contact guard tour devices.

When the N.O. contact of the device is closed, an active signal is sent to the loop controller. The active status is nonlatching and clears when the N.O. input is returned to the open condition. The panel will report an open circuit as a trouble condition.

Personality code 41: security open with tamper

Personality code 41 configures the channel 1 input for devices that use a Class B, N.O. contact for security conditions and a

Class B, normally-closed (N.C.) contact for tamper conditions.

When the N.O. contact is closed, an active signal is sent to the loop controller; similarly, when the N.C. contact is opened, a tamper signal is sent to the loop controller.

Personality code 42: security closed with tamper

Personality code 42 configures the channel 1 input for devices that use a Class B, N.C. contact for security conditions and a

Class B, N.O. contact for tamper conditions. When the N.C.

contact is opened, an active signal is sent to the loop controller; similarly, when the N.O. contact is closed, a tamper signal is sent to the loop controller.

Personality code 43: basic security (factory default)

The factory assigns personality code 43 to the channel 1 input.

Personality code 43 configures the channel 1 input for devices that use a Class B, N.C. contact and/or a Class B, N.O. contact for security conditions. When the N.C. contact is opened or the

N.O. contact of the device is closed, an active signal is sent to the loop controller.

30OCT01

P/N: 387633 REV: 1.0

1 / 8

Personality code 44: tamper

Personality code 44 configures the channel 1 input for devices that use a Class B, N.C. contact and/or a Class B, N.O. contact for tamper conditions. When the N.C. contact is opened or the

N.O. contact is closed, a tamper signal is sent to the loop controller.

Personality code 45: security open

Personality code 45 configures the channel 1 input for use with a Class B, N.O. contact. When the N.O. contact is closed, an active signal is sent to the loop controller. The panel will report an open circuit as a SecurityFault condition.

Personality code 46: security closed

Personality code 46 configures the channel 1 input for use with a Class B, N.C. contact. When the N.C. contact is opened, an active signal is sent to the loop controller. The panel will report a short circuit as a SecurityFault condition.

Personality code 48: security - maintenance

Personality code 48 configures the channel 1 input for devices that use a Class B, N.C. contact or a Class B, N.O. contact for maintenance conditions (e.g. a motion detector with a separate maintenance contact). When the N.C. contact is opened or the

N.O. contact is closed, a maintenance signal is sent to the loop controller.

Note: See the SDU Online Help (P/N 180653) for additional programming instructions.


Here are the general steps you'll follow to mount, wire, and test the Motion Detector. The details of each step are given in the remaining topics of this installation sheet.

1.

Disassemble the detector for mounting and wiring.

(Remove the access plate, cover, and circuit board.)

2.

Mount the base to a flat wall or a corner. (See Figure 1 and “Mounting the detector.”)

3.

Configure the reflector and window as required for the coverage you want.

4.

Wire the detector and replace the circuit board.

5.

Set the jumpers for the required sensitivity and range.

6.

Test the detector.

7.

Remove the keeper screw and reassemble the cover and access plate.

Installation notes

1.

For NFPA 72 guard tour applications, mount the Motion

Detector to an outlet box.

2.

This product is compatible with the EST3 system. The system must provide a minimum of 4 hours standby for security applications and 24 hours standby for fire alarm applications.

Disassembling the detector

To disassemble the detector:

1.

Use the tab to pull the access plate off of the cover (Figure

2).

2.

Insert a small, flat-bladed screwdriver in the slot and push the handle down to lift the cover off of the base (as shown in Figure 3).

3.

Remove the circuit board assembly (Figure 4).

Corner mounting Wall mounting

[2]

6 to 10 feet above the floor (1.8 to 3 m)

[1] Flat wall mounting holes

[2] Corner mounting holes

[2]

[1]

[1]

Figure 1: Mounting locations

Access plate

Cover

Tab

Access plate

Figure 2: Removing the access plate

Figure 3: Removing the cover

Insert flat-bladed screwdriver here.

[1]

[2]

[1]

[2]

P/N: 387633 REV: 1.0


SIGA-MD(S) - Motion Detector

Use a small, flat-bladed screwdriver to lift the circuit board out of the base. Be careful not to damage the circuit board or touch the pyroelectric sensor on the back of the circuit board.

4.

Remove the circuit board to expose the swivel screw. (See

Figure 4.)

5.

Tighten the swivel screw to set the locking clip at the desired angle.

6.

Replace the circuit board. (See Figure 9 and Figure 10.)

7.

Snap the cover back onto the base. (See “Reassembling the detector.”)

Mounting the detector

Base (front view)

1-gang mounting box

Pyroelectric sensor

Screw

Base (bottom view) Base (side view)

Figure 4: Removing the circuit board assembly

Caution: Observe static-sensitive material handling practices.

Base

Mounting plate

Swivel

Cover

Mounting the detector

General guidelines

Mount the detector so the expected movement of an intruder will cross the fields of detection. (See “Configuring the reflector and window.”) Remove any object in front of the detector that may prevent a clear line of sight. Keep metallic objects at least two feet away from the detector. Avoid locations that expose the detector to:

• Moving or vibrating objects (fans, pulleys, conveyer belts)

• Water spray or corrosive environments

• Heat sources in the field of view (heaters, radiators)

• Windows in the field of view

• Strong air drafts on the detector (fans, air conditioners)

• Animals larger than 20 pounds

• Blinds, curtains, or drapes

• Electronic fields (electric motors, high-voltage equipment)

Mounting the SIGA-MDS

The SIGA-MDS requires a few additional mounting steps.

To mount the SIGA-MDS:

1.

Secure the detector to the 1-gang box with two screws

(Figure 5).

2.

Swivel the detector to the desired angle.

3.

Remove the cover from the base.

Installation Sheet 30OCT01

Base

Cover

Swiveling the detector up and down

Swiveling the detector left and right

Note: Shown in the correct position for maximum range. Any other position may reduce range.

Circuit board

Pyroelectric sensor (Do not touch!)

Tighten this screw to set the locking clip at the desired angle.

Tightening the locking clip

Figure 5: SIGA-MDS mounting illustrations

P/N: 387633 REV: 1.0

3 / 8

Configuring the reflector and window

You can remove the infrared reflector to configure the detector for the specifications of your job.

To configure the reflector and window:

1.

Remove the infrared reflector from the base.

2.

If needed, place the undercrawl window mask in the cover.

(See Figure 7.)

3.

If needed, apply the plastic masks or curtain block stickers to the infrared reflector. (See Figure 8.)

4.

Put the infrared reflector back into the base.

Width: 4.8 ft (1.46 m)

Width: 4.8 ft (1.46 m)

You can modify the detector coverage pattern to fit specific applications. Mask zones to avoid sources of false alarms such as heaters, air conditioners, windows, and pets.

Note: Do not apply masks or curtain block stickers to the detector in full coverage applications.

Mounting heights

Infrared reflector (upside down view)

Width: 4.8 ft (1.46 m)

10 ft (3.04 m) max.

8 ft (2.44 m) nom.

6 ft (1.83 m) min.

8 ft (2.44 m)

25 ft (7.62 m)

34 ft (10.36 m)

Zone: 4

Coverage: 34 ft (10.36 m)

Clearance: None

Zone: 2, 6


Clearance: 8 ft (2.44 m)

Zone: 1, 3, 5, 7


Clearance 25 ft (7.62 m)

1 2 3 4 5 6 7

34 ft (10.36 m)

3

2

1

1 2 3 4 5 6 7

7

6

5

4

Figure 6: Full coverage

The cardboard undercrawl window mask allows objects to be placed within 5 ft (1.52 m) of the detector or directly below it.

Undercrawl window mask

P/N 14367

7

6

5

4

3

2

1

7.9 ft (2.41 m)

5 ft (1.52 m)

Motion Detector cover (lower-rear view)

Figure 7: Undercrawl coverage

P/N: 387633 REV: 1.0



Masking for right-half coverage

1 2 3 4 5 6 7

1

1 2 3 4 5 6 7

34 ft (10.36 m)

Masking for unique zone requirements

3

1 2

3

4 5

6

7

6

3

1 2

3

4 5

6

7

Zones 3 and 6 receive no coverage.

34 ft (10.36 m)

6

7

6

5

4

Masking for left-half coverage

1 2 3 4 5 6 7

1 2 3 4 5 6 7

2

34 ft (10.36 m)

7

6

5

4

Masking for center zone coverage

3

2

1

1 2 3 4 5 6 7

1

1 2 3 4 5 6 7

2

For corridors and hallways

34 ft (10.36 m)

Plastic masks

1 2

Use the plastic masks to mask off wide areas of coverage.

Figure 8: Masked coverage patterns

4

3

4

1

1

1

2

2 3 4

3 4

4

5 6

5 6

7

Adhesive curtain stickers

Each zone of coverage requires both numbered (small and large) curtain block stickers.

7

2981-2B

Caution: Do not use sharp objects to remove unwanted stickers from the infrared detector. Carefully peel off the sticker if it becomes necessary to use the blocked curtain (zone).


5 / 8

Wiring the detector

To wire the SIGA-MD(S):

1.

If necessary, remove the circuit board as instructed in

Figure 4. Remember to observe electro-static precautions.

2.

Remove the wiring knockouts (see Figure 9) on the base for the wiring.

3.

Run the wiring through the wiring knockouts.

4.

Connect the wiring to the appropriate terminals at TB1.

(See Figure 11 for SIGA-MDS wire runs.)

5.

If necessary, lower the circuit board into the base and snap it securely into place at the locations marked [S] in

Figure 9 and Figure 10.

Base

Top view

[9]

[8]

Data in (+)

Data in (-)

Data out (+)

Data out (-)

[1] [2][3][4]

Channel 1 input

[5]

Interface card

[S]

[S]

Motion detector card

J1 J2

TB1

1 2 3 4 5 6

DS2

DS1

[S]

Normal LED

(green)

Active LED (red)

[S]

Range

SENS

Tamper switch

(engaged when the top cover is installed and activated when the cover is removed)

Remove these wiring knockouts.

Lower the circuit board assembly and and snap it back into place.

[S]

TB1

[S]

[S]

[S] Snap

[S]

Run wiring as illustrated here.

Figure 9: Running wires through the knockouts

Notes for Figure 10 and Figure 11

[1] The Channel 1 input circuit does not require a personality code, but it is configurable to personality codes 3, 41, 42,

43, 44, 45, 46, or 48.

[2] Class B (Style 4)

[3] 25 W resistance per wire, max.

[4] 16 AWG (1.0 sq mm) max. 22 AWG (0.25 sq mm) min.

[5] Listed 47 k W EOL resistor

6.

All wiring is supervised and power-limited

7.

This module will not support 2-wire smoke detectors.

[8] From Signature loop controller or previous device

[9] To next device

Infrared light reflector (7 curtains)

Apply curtain block stickers to limit the number of detection curtains.

Figure 10: SIGA-MD wiring

Red

Black

Red

Black with stripe

White

[5]

[1]

[2]

[3]

[4]

See Table 1 for wiring color codes.

Figure 11: SIGA-MDS wiring

Table 1: SIGA-MDS wire color codes

Color Wire path

White

White

Red

Black

Red

Black with stripe

Channel [1] in

Channel [1] out

Data in (+)

Data in (-)

Data out (+)

Data out (-)

P/N: 387633 REV: 1.0




1/4 in (~6 mm)

Strip 1/4 inch (about 6 mm) from the ends of ALL wires that connect to the terminal block of the module.



Setting the jumpers

Jumper Settings

J1 SENS Determines the detector sensitivity

BI: Bicurtain mode (not UL listed) increases false alarm immunity by requiring the intruder to pass through two curtains to trigger an alarm. Do not use BI for single-curtain applications or ranges under 5 ft (1.52 m).

STD: Standard mode handles wide-angle or single-curtain applications. The intruder only needs to pass through one curtain to trigger an alarm.

J2 Range Determines the detector range. Make sure the jumper is in the 34 ft (10.36 m) position before operation.

N.O. with tamper Tamper

Alarm

[2]

[1]

N.C. with tamper

Basic security

Guard tour [3]

Channel 1 input

Tamper

Alarm

[2]

5 6

TB1

Notes

[1] See the previous page for notes that apply to the

Channel 1 input.

[2]

[2]

[3] UL/ULC listed

guard tour station

Figure 12: Security circuits

WARNINGS

• Disconnect power to cabinets before installing or removing components. Failure to do so may result in serious injury or loss of life.

• This module will not operate without electrical power. As fires frequently cause power interruptions, we suggest you discuss further safeguards with your local fire protection specialist.

• This module does not support conventional smoke detectors.

Sensitivity selection Range selection

Bicurtain

Standard

34 ft (10.36 m) range

N/A

J1

Figure 13: Jumper settings

J2

Testing the detector

Conducting a coverage test

The coverage test allows for verification of the extent of coverage within a space.

The detector remains in the coverage test mode while the cover is removed and for approximately 2 minutes after you replace it. If the detector returns to normal before you make all the adjustments, return to step 2 for additional time.

The Motion Detector will stay in alarm for approximately three seconds after each alarm.

To conduct a coverage test:

1.

Disable the device if you do not want a tamper or active indication at the fire alarm panel.

2.

Remove the cover (Figure 3). This activates the tamper switch, which puts the detector in the coverage test mode.

3.

Reinstall the cover.

4.

Test each curtain for proper operation by walking through each section in the space. The red coverage test LED

(Figure 14) flashes on each alarm.

5.

Make adjustments to the curtain coverage as necessary.

6.

Re-enable the detector at the fire alarm panel if you disabled it before testing.


7 / 8

Cover

Base

Snap the cover and the base together here.

J1 J2

Coverage test LED

Figure 14: Coverage test LED

Maintaining the detector

The Motion Detector, if properly installed and used, will provide years of service with minimal maintenance. Conduct a coverage test annually as described here to verify proper operation.

Clean the cover with a water-dampened cloth as needed to keep the detector free of dust and dirt. Always test the detector after you clean it.

Reassembling the detector

To assemble the detector:

1 Remove the keeper screw from the base (Figure 15).

2 Join the cover and the base at bottom as shown below

(Figure 16).

3 Snap the cover shut at the top of the base.

4 Remove the access plate from the cover (Figure 17).

5 Secure the cover to the base with the keeper screw you removed in step 1.

6 Replace the access plate.

Join the cover and the base here.

Figure 16: Snapping the cover onto the base

Figure 17: Securing the cover to the base

Keeper screw

Remove the keeper screw and use it to secure the detector cover.

Figure 15: Finding the keeper screw

P/N: 387633 REV: 1.0



SIGA-SEC2

Security Loop Module


The Security Loop Module is an intelligent, analog-addressable device that interfaces one or two security loops to a Signature loop controller. Personality codes downloaded to the module during system configuration allow the user to configure each channel for almost any security application. This module also supports guard tour, per NFPA 72. The loop controller automatically assigns two addresses to the Security Loop

Module, but it will accept custom address assignments from a laptop computer.

Personality codes

System controller compatibility

The Security Loop Module requires a Signature loop controller to download the personality codes that determine how it will operate. The personality codes described below are compatible with the security loop module.

Personality code 3: N.O. active, nonlatching (guard tour)

Personality code 3 configures the channel 1 input for use with

Class B, normally-open (N.O.) contact guard tour devices.

When the N.O. contact of the device is closed, an active signal is sent to the loop controller. The active status is nonlatching and clears when the N.O. input is returned to the open condition. The panel will report an open circuit as a trouble condition.

Note: Configure both zones the same for personality code 3.

The security loop module requires connection to a listed guard tour station.

Personality code 41: security open with tamper

Personality code 41 configures the channel 1 input for devices that use a Class B, N.O. contact for security conditions and a

Class B, normally-closed (N.C.) contact for tamper conditions.

When the N.O. contact is closed, an active signal is sent to the loop controller; similarly, when the N.C. contact is opened, a tamper signal is sent to the loop controller.

Personality code 42: security closed with tamper

Personality code 42 configures the channel 1 input for devices that use a Class B, N.C. contact for security conditions and a

Class B, N.O. contact for tamper conditions. When the N.C.

contact is opened, an active signal is sent to the loop controller; similarly, when the N.O. contact is closed, a tamper signal is sent to the loop controller.

Personality code 43: basic security (factory default)

The factory assigns personality code 43 to the channel 1 input.

Personality code 43 configures the channel 1 input for devices that use a Class B, N.C. contact and/or a Class B, N.O. contact for security conditions. When the N.C. contact is opened or the

N.O. contact of the device is closed, an active signal is sent to the loop controller.

Personality code 44: security tamper

Personality code 44 configures the channel 1 input for devices that use a Class B, N.C. contact and/or a Class B, N.O. contact for tamper conditions. When the N.C. contact is opened or the

N.O. contact is closed, a tamper signal is sent to the loop controller.

Personality code 45: security open

Personality code 45 configures the channel 1 input for use with a Class B, N.O. contact. When the N.O. contact is closed, an active signal is sent to the loop controller. The panel will report an open circuit as a SecurityFault condition.

Personality code 46: security closed

Personality code 46 configures the channel 1 input for use with a Class B, N.C. contact. When the N.C. contact is opened, an active signal is sent to the loop controller. The panel will report a short circuit as a SecurityFault condition.

Personality code 48: security - maintenance

Personality code 48 configures the channel 1 input for devices that use a Class B, N.C. contact or a Class B, N.O. contact for maintenance conditions (e.g. a motion detector with a separate maintenance contact). When the N.C. contact is opened or the

N.O. contact is closed, a maintenance signal is sent to the loop controller.

Note: See the SDU Online Help (P/N 180653) for additional programming instructions.

Specifications

Data input voltage: 15.20 to 19.95 Vdc

Current draw

Standby current: 720 mA

Tamper/active current: 850 mA

Security circuit

EOL resistor: UL/ULC listed 47 k

W

Max. resistance/channel: 50 W (25 W per wire)

Max. capacitance/channel: 0.1 mF

Max. voltage/channel: 18 Vdc

Max. current/channel: 0.32 mA

Address requirement: 2


Storage temperature range: -4 to 140 °F (-20 to 60 °C)

Humidity: 0 to 93% noncondensing

Construction: High impact engineering polymer


North American 1-gang box: 2.5 in (64 mm) deep

Standard 4-inch square box: 1.5 in (38 mm) deep with

1-gang cover

Installation Sheet 30OCT01

P/N: 387632 REV: 1.0

1 / 4

LEDs

Diagnostic LEDs provide visible indication of the status of the module when the front cover is removed.

Status

Normal

Active/Tamper

LED indicator

Green LED flashes

Red LED flashes

To surface mount the module:

1.

Prepare the mounting knockouts in the backbox. (See

Figure 2.)

2.

Mount the backbox on a smooth, flat surface.

3.

Reinstall the circuit board.

4.

Replace the front cover.

Active/

Tamper

Normal

[1]

[2]

[1]

Backbox (rear view)

[2]

Front cover

Figure 1: LED locations and indications

WARNINGS

• Disconnect power to cabinets before installing or removing components. Failure to do so may result in serious injury or loss of life.

• This module will not operate without electrical power. As fires frequently cause power interruptions, we suggest you discuss further safeguards with your local fire protection specialist.

• This module does not support conventional smoke detectors.

Caution: Observe static-sensitive material handling practices.


To wire and label the module:

1.

Open the front cover of the module to expose the circuit board and the backbox.

2.

Remove the circuit board in accordance with staticsensitive handling practices.

3.

Verify that all field wiring is free of opens, shorts, and ground faults.

4.

Run the wiring through the wiring entrances of the backbox. (See Figure 2.)

5.

Make the appropriate wiring connections to TB1 and TB2.

(See Figure 4.)

6.

Write the module address assignment on the label provided and apply it to the module.

7.

Peel off the serial number label from the module and apply it to the appropriate location in the Serial Number Log

Book.

Front cover

Signature data circuit

Conduit

Security Loop Module

Backbox

Side view

[1] Mounting knockout

[2] Wiring entrance

Backbox (front view)

Figure 2: Surface mounting the module

To mount the module in an electrical box:

1.

Reinstall the circuit board.

2.

Replace the front cover.

3.

Place the security loop module inside the electrical box.

4.

Secure the appropriate cover to the electrical box.

Security input circuits

Figure 3: Mounting the module in an electrical box


1/4 in (~6 mm)

4-inch electrical box

Conduit

P/N: 387632 REV: 1.0

Strip 1/4 inch (about 6 mm) from the ends of ALL wires that connect to the terminal block of the module.




SIGA-SEC2 - Security Loop Module

Wiring diagram

Notes

[1] The circuits connected to TB2 are configurable to personality codes 3, 41, 42, 43, 44, 45, 46, or 48. The personality code assigned to the circuits determines the types of devices on them.

[2] Class B (Style 4)

[4] 16 AWG (1.0 sq mm) max. 22 AWG (0.25 sq mm) min.

[6] UL/ULC listed guard tour station

7.

All wiring is supervised and power-limited

8.

This module will not support 2-wire smoke detectors

From Signature loop controller or previous device

Data in (+)

Data in (-)

Data out (+)

Data out (-)

To next Signature device

Signature loop

Figure 4: Wiring diagram

TB1

Security Loop Module

TB2

+

4

_

3

+

2

_

1

8

-

7

+

6

+

5 _

N.O. with tamper

Tamper

Alarm

[5]

N.C. with tamper

Alarm

[5]

Tamper

Basic security

[5]

Guard tour [6]

[5]

[1] [2] [3] [4]

Channel 1 input

Channel 2 input


3 / 4

P/N: 387632 REV: 1.0


SIGA-SEC2 - Security Loop Module

EST EST3 v4.0 Installation Sheets

EST3

Installation Sheets

P/N 3100051 • Rev 4.0 • 11DEC01

DEVELOPED BY

COPYRIGHT NOTICE

TRADEMARKS

CREDITS

DOCUMENT HISTORY

Date Revision

Reason for change

Content

Installation sheet title

P/N

Installation sheet title

P/N

Introduction

This manual contains copies of the EST3 installation sheets. The sheets are arranged in alphabetical order by title. The part number listed in Content is the installation sheet part number.

A library of documents and multi-media presentations supports the EST3 life safety system. A brief description of each is provided below.

EST3 Installation and Service Manual (P/N 270380): Provides complete information on how to install and service the EST3 hardware. The manual also includes installation information on selected Signature Series components.

EST3 Installation Sheets (P/N 3100051): Is a convenient package of all EST3 component installation sheets. This manual shows you the jumper settings and terminal connections for each component.

SDU Online Help (P/N 180653): Provides full online support for configuring and programming a system using the EST3 System

Definition Utility program.

EST3 System Operation Manual (P/N 270382): Provides detailed information on how to operate the system and system components.

EST3 International Installation Supplement Manual (P/N

270925): Provides information specific to systems installed outside the United States and Canada.

EST3 Smoke Management Application Manual (P/N 270913):

Provides information for designing, programming, and testing an

EST3 smoke control system.

EST3 Users Self-Study Course (P/N 270684): Contains a selfpaced manual and accompanying video. The course is designed for building personal, security guards, firefighters, and other individuals that may be required to operate the system.

In addition to documents in the EST3 library, you may find the following documents useful.

Signature Series Intelligent Smoke and Heat Detectors

Applications Bulletin (P/N 270145): This manual provides additional applications information on the Signature series smoke and heat detector applications.

Signature Series Component Installation Manual (P/N 270497):

This manual provides detailed mounting and wiring information for all Signature series devices.

Speaker Application Guide (P/N 85000-0033): This manual provides information on the placement and layout of speakers for fire alarm signaling and emergency voice communications.

Strobe Applications Guide (P/N 85000-0049): This manual provides information on the placement and layout of strobes for fire alarm signaling.

24DC12

12 Vdc Voltage Regulator with Security Bell Interface

3-AADC Addressable Analog

Driver Controller

3-ANNCPU1

Annunciator Controller Module

Observe static sensitive material handling practices.

1

2

3

4

5

6

Figure 2

Installing the 3-ANNSM on the Inner Door

3-ANNSM

Annunciator Support Module

Figure 1

Mounting the LED/Switch Display

Observe static sensitive material handling practices.

3-ASU

Audio Source Unit

NOTES

3-CPU1 PANEL CONTROLLER

SAN-MIC II REMOTE

MICROPHONE

Observe static sensitive material handling practices.

3-ASU/FT

Audio Source Unit with

Firefighter's Telephone (3-FTCU)

NOTES

Observe static sensitive material handling practices.

PRODUCT INFORMATION

JUMPER SETTINGS

Jumper Position

Input Voltage

SPECIFICATIONS

NOTES

INSTALLATION INSTRUCTIONS

3-ATPINT

3-ATPINT ATP Interface

Bottom View

WIRING