NOTIFIER AFP-400 Analog Fire Panel Instruction Manual

AFP-400 Analog Fire Panel

12 Clintonville Road Northford, CT 06472 203-484-7161 203-484-7118 (Fax)

Installation Manual

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

WARNING – Several different sources of power can be connected to the fire alarm control panel. Disconnect all sources of power before servicing. Control unit and associated equipment may be damaged by removing and/or inserting cards, modules, or interconnecting cables while the unit is energized. Do not attempt to install, service, or operate this unit until this manual is read and understood.
CAUTION – System Reacceptance Test after Software Changes: To ensure proper system operation, this product must be tested in accordance with NFPA 721993 Chapter 7 after any programming operation or change in site-specific software. Reacceptance testing is required after any change, addition or deletion of system components, or after any modification, repair or adjustment to system hardware or wiring.
All components, circuits, system operations, or software functions known to be affected by a change must be 100% tested. In addition, to ensure that other operations are not inadvertently affected, at least 10% of initiating devices that are not directly affected by the change, up to a maximum of 50 devices, must also be tested and proper system operation verified.

Like all solid state electronic devices, this system may operate erratically or can be damaged when subjected to lightning induced transients. Although no system is completely immune from lightning transients and interferences, proper grounding will reduce susceptibility. Overhead or outside aerial wiring is not recommended, due to an increased susceptibility to nearby lightning strikes. Consult with the Technical Services Department if any problems are anticipated or encountered.
Disconnect AC power and batteries prior to removing or inserting circuit boards. Failure to do so can damage circuits.
Remove all electronic assemblies prior to any drilling, filing, reaming, or punching of the enclosure. When possible, make all cable entries from the sides or rear. Before making modifications, verify that they will not interfere with battery, transformer, and printed circuit board location.
Do not tighten screw terminals more than 9 in-lbs. Over tightening may damage threads, resulting in reduced terminal contact pressure and difficulty with screw terminal removal.

This system meets NFPA requirements for operation at 0-49O C/32-120O F and at a relative humidity of 85% RH (non-condensing) at 30O C/86O F. However, the useful life of the system’s standby batteries and the electronic components may be adversely affected by extreme temperature ranges and humidity. Therefore, it is recommended that this system and its peripherals be installed in an environment with a nominal room temperature of 15-27O C/60-80O F.
Verify that wire sizes are adequate for all initiating and indicating device loops. Most devices cannot tolerate more than a 10% I.R. drop from the specified device voltage.

This system contains static-sensitive components. Always ground yourself with a proper wrist strap before handling any circuits so that static charges are removed from the body. Use static suppressive packaging to protect electronic assemblies removed from the unit.
Follow the instructions in the installation, operating, and programming manuals. These instructions must be followed to avoid damage to the control panel and associated equipment. FACP operation and reliability depend upon proper installation.

Fire Alarm System Limitations While installing a fire alarm system may make lower insurance rates possible, it is not a substitute for fire insurance!

An automatic fire alarm system – typically made up of smoke detectors, heat detectors, manual pull stations, audible warning devices, and a fire alarm control with remote notification capability can provide early warning of a developing fire. Such a system, however, does not assure protection against property damage or loss of life resulting from a fire.
Any fire alarm system may fail for a variety of reasons:
Smoke detectors may not sense fire where smoke cannot reach the detectors such as in chimneys, in walls, or roofs, or on the other side of closed doors. Smoke detectors also may not sense a fire on another level or floor of a building. A second floor detector, for example, may not sense a first floor or basement fire. Furthermore, all types of smoke detectors – both ionization and photoelectric types, have sensing limitations. No type of smoke detector can sense every kind of fire caused by carelessness and safety hazards like smoking in bed, violent explosions, escaping gas, improper storage of flammable materials, overloaded electrical circuits, children playing with matches, or arson.
IMPORTANT! Smoke detectors must be installed in the same room as the control panel and in rooms used by the system for the connection of alarm transmission wiring, communications, signaling, and/or power. If detectors are not so located, a developing fire may damage the alarm system, crippling its ability to report a fire.

Audible warning devices such as bells may not alert people if these devices are located on the other side of closed or partly open doors or are located on another floor of a building.
A fire alarm system will not operate without any electrical power. If AC power fails, the system will operate from standby batteries only for a specified time.
Rate-of-Rise heat detectors may be subject to reduced sensitivity over time. For this reason, the rate-of-rise feature of each detector should be tested at least once per year by a qualified fire protection specialist.
Equipment used in the system may not be technically compatible with the control. It is essential to use only equipment listed for service with your control panel.
Telephone lines needed to transmit alarm signals from a premise to a central monitoring station may be out of service or temporarily disabled.
The most common cause of fire alarm malfunctions, however, is inadequate maintenance. All devices and system wiring should be tested and maintained by professional fire alarm installers following written procedures supplied with each device. System inspection and testing should be scheduled monthly or as required by National and/or local fire codes. Adequate written records of all inspections should be kept.

FCC Warning

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

Canadian Requirements This digital apparatus does not exceed the Class A limits for radiation noise emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications.
Le present appareil numerique n’emet pas de bruits radioelectriques depassant les limites applicables aux appareils numeriques de la classe A prescrites dans le Reglement sur le brouillage radioelectrique edicte par le ministere des Communications du Canada.

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Document PRECAULG.PM6 12/31/96

Introduction ………………………………………………………………………………………………..1-1 About this Manual……………………………………………………………………………………..1-1 Description ……………………………………………………………………………………………….1-1 Standard Features and Options…………………………………………………………………….1-2 System Limitations…………………………………………………………………………………….1-2 AFP-300 System Diagram ………………………………………………………………………….1-3 AFP-400 System Diagram ………………………………………………………………………….1-4
Specifications………………………………………………………………………………………………. 1-5 Overview ………………………………………………………………………………………………….1-5 AC Power …………………………………………………………………………………………………1-5 Battery (sealed lead-acid only)…………………………………………………………………….1-5 Signaling Line Circuit (SLC) Loop………………………………………………………………1-5 Notification Appliance and Releasing Circuits (MPS-400 ICM-4, ICE-4) ………..1-6 Relays ………………………………………………………………………………………………………1-6 Four-wire Smoke Detector Power………………………………………………………………..1-6 Power Outputs …………………………………………………………………………………………..1-7 Operating Power………………………………………………………………………………………..1-7 AC Branch Circuit …………………………………………………………………………………1-7 Secondary Power Source (Batteries) ………………………………………………………..1-7
System Components …………………………………………………………………………………….1-8 Basic Equipment Packages …………………………………………………………………………1-8 CPU …………………………………………………………………………………………………………1-8 Power Supplies………………………………………………………………………………………….1-9 Audio Amplifiers …………………………………………………………………………………….1-10 Transformer Assembly and MPS-400PCA ………………………………………………….1-10 Battery Boxes ………………………………………………………………………………………….1-10
Optional Devices ………………………………………………………………………………………..1-11
Intelligent Detectors …………………………………………………………………………………..1-12 Overview ………………………………………………………………………………………………..1-12 Detector Descriptions……………………………………………………………………………….1-12
Addressable Modules …………………………………………………………………………………1-13 Overview ………………………………………………………………………………………………..1-13 Module Descriptions ………………………………………………………………………………..1-13
End-of-Line Devices …………………………………………………………………………………..1-14
Annunciation Modules ……………………………………………………………………………….1-15 Overview ………………………………………………………………………………………………..1-15 LDM Series Lamp Driver Modules ……………………………………………………………1-15 Annunciator Control System (ACS) …………………………………………………………..1-16 Annunciator Fixed Modules………………………………………………………………………1-16
Peripheral Displays and Printers ………………………………………………………………..1-17 Overview ………………………………………………………………………………………………..1-17 LCD-80 Display ………………………………………………………………………………………1-17 PRN-4 Remote Printer ……………………………………………………………………………..1-17 Keltron Remote Printer (Model VS4095) ……………………………………………………1-17 CRT-2 Terminal ………………………………………………………………………………………1-17
Notification Circuit and Control Modules …………………………………………………..1-18 Overview ………………………………………………………………………………………………..1-18 Descriptions of Modules …………………………………………………………………………..1-18
Voice Alarm Equipment …………………………………………………………………………….1-19 Overview ………………………………………………………………………………………………..1-19 Audio Message Generator (AMG-1) ………………………………………………………….1-19

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Audio Tone Generator (ATG-2) ………………………………………………………………..1-19 Fire Fighters Telephone FFT-7/FFT-7S………………………………………………………1-19 Voice Control Module (VCM-4) ……………………………………………………………….1-19 Dual Channel Module (DCM-4) ………………………………………………………………..1-19 Cabinet Hardware ……………………………………………………………………………………..1-20 Cabinet Overview…………………………………………………………………………………….1-20 CHS-4M Chassis/Dress Panel Assembly…………………………………………………….1-20 CHS-4L Chassis ………………………………………………………………………………………1-20 CAB-X3 Series Cabinets…………………………………………………………………………..1-21
Overview ……………………………………………………………………………………………. 1-21 CAB-A3 ……………………………………………………………………………………………..1-21 CAB-B3 ……………………………………………………………………………………………..1-21 CAB-C3 ……………………………………………………………………………………………..1-22 CAB-D3 ……………………………………………………………………………………………..1-22 CAB-400AA Cabinets ……………………………………………………………………………..1-23 CAB-400AA Overview ………………………………………………………………………..1-23 CAB-400AA Limitations………………………………………………………………………1-23 CAB-400AA Dimensions ……………………………………………………………………..1-23
Preparing for Installation …………………………………………………………………………….2-1 Installation Checklist……………………………………………………………………………………2-2 Installing a Cabinet Door……………………………………………………………………………..2-4
Cabinet Door Mounting Guidelines ……………………………………………………………..2-4 How to Install a Cabinet Door (CAB-X3 only) ……………………………………………..2-4 Installing the Door Alignment Tabs……………………………………………………………..2-5 Installing a Chassis (CAB-X3 Series Cabinets) ……………………………………………..2-6 Overview ………………………………………………………………………………………………….2-6 Installing a CHS-4 Chassis………………………………………………………………………….2-6 Installing a CHS-4L Chassis ……………………………………………………………………….2-6 Mounting a Backbox (SBB-X3 and CAB-400AA) ………………………………………….2-7 Mounting an MPS-400 Power Supply …………………………………………………………..2-8 Mounting an MPS-400 into a CAB-X3 Cabinet …………………………………………….2-8 Mounting an MPS-400 into a CAB- 400AA…………………………………………………..2-9 Mounting an Optional AVPS-24 Power Supply …………………………………………..2-10 Overview ………………………………………………………………………………………………..2-10 Installation ……………………………………………………………………………………………… 2-10 Installing an Auxiliary Relay Module (ARM-4)…………………………………………..2-11 Overview ………………………………………………………………………………………………..2-11 Mounting the ARM-4 Module to a CHS-4 Chassis ………………………………………2-11 Wiring the ARM-4 Module……………………………………………………………………….2-12 Connecting the MPS-400 Power Cables ………………………………………………………2-13 MPS-400 Electrical Connections ……………………………………………………………….2-13 Connecting the MPS-400 to AC Power (TB1) …………………………………………….2-13 Connecting the Batteries (MPS-400, TB1-6, TB1-7) ……………………………………2-13
Connecting Four-Wire Smoke Detector 24 VDC Power (MPS-400, TB2)…..2-14 Notification Appliance Power (24 VDC) ………………………………………………..2-14 Annunciator Power (24 VDC) ……………………………………………………………….2-14 System Harness Connections…………………………………………………………………2-14 System Power Connections …………………………………………………………………..2-14 Installing Expander Row Ribbon Cables for Panel Modules………………………..2-15 Installing Row Ribbon Cables for CAB-B3, CAB-C3, and CAB-D3 Cabinets ..2-15 Installing Row Ribbon Cables for CAB-C3 and CAB-D3 Cabinets ……………….2-16 Installing Row Ribbon Cables for a CAB-400AA Cabinet ……………………………2-17 Installing the CPU ……………………………………………………………………………………..2-18 Installing the CPU into a Chassis……………………………………………………………….2-18
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2. Installation

Connecting the CPU to the MPS-400 …………………………………………………………2-19
Mounting Expander Modules (CRE-4, ICE-4, VCE-4) ………………………………..2-20
Mounting Panel Modules (CRM-4, ICM-4, VCM-4) onto a Chassis…………….2-21
Installing a 4XTM Module (Remote Station Fire Alarm) …………………………….2-22 Mounting the Module……………………………………………………………………………….2-22 4XTM Electrical Requirements …………………………………………………………………2-22 Connecting the 4XTM Module ………………………………………………………………….2-23
Installing a UZC-256 Module ……………………………………………………………………..2-24 Overview ……………………………………………………………………………………………. 2-24 CAB-X3 Installation …………………………………………………………………………….2-24 CAB-400AA Installation ………………………………………………………………………2-24
Field-Wiring the Modules…………………………………………………………………………..2-25 Notification Appliance Circuit (NAC) Wiring …………………………………………….2-25 MPS-400/ICM-4 NAC Configurations ……………………………………………………….2-25 Typical Power Supply/Notification Appliance Circuit Configurations………..2-25 AVPS-24/ICM-4 NAC Configurations ………………………………………………….2-26 Field-Wiring an ICM-4 and an ICE-4 (NFPA Style Y and Z)………………………..2-27 Field-Wiring a CRM-4 and the CRE-4 ……………………………………………………….2-28 CRM-4 and CRE-4 Wiring Guidelines……………………………………………………2-28 CRM-4 and CRE-4 Connections ……………………………………………………………2-28 Field Wiring an Optional AVPS-24 Power Supply ………………………………………2-29 AVPS-24 Wiring Overview…………………………………………………………………..2-29 AVPS-24 Wiring Diagrams …………………………………………………………………..2-29 Field Wiring Four-Wire Smoke Detectors (Style B and Style D) …………………..2-30 Field Wiring Overview …………………………………………………………………………2-30 Field Wiring (Style D) ………………………………………………………………………….2-30 Field Wiring (Style B) ………………………………………………………………………….2-30 Field Wiring the Auxiliary Relay Module (ARM-4) …………………………………….2-31 Overview ……………………………………………………………………………………………. 2-31 ARM-4 Terminal Assignments………………………………………………………………2-31 Field Wiring the MPS-400 Power Supply …………………………………………………..2-32 MPS-400 Board …………………………………………………………………………………..2-32 DC Power Output Connections (MPS-400)……………………………………………..2-33 AC and Battery Power Connections (MPS-400 ……………………………………….2-33 Wiring MPS-400 Output Circuits …………………………………………………………..2-34
Installing Remote Printers and CRTs …………………………………………………………2-35 Remote Printers ……………………………………………………………………………………….2-35 Setting PRN-4 Options……………………………………………………………………………..2-35 Installing a PRN-4 Remote Printer …………………………………………………………2-36 Installing a Keltron Printer ……………………………………………………………………2-37 Setting up the Keltron Printer ………………………………………………………………..2-37 Installing a CRT-2……………………………………………………………………………………2-38 Connecting Multiple Printers, CRTs, or CRT/PRN Combination…………………..2-38
Wiring a Signaling Line Circuit (SLC) ……………………………………………………….2-39 Overview of SLC Wiring ………………………………………………………………………….2-39 SLC Devices……………………………………………………………………………………………2-40 Control Panel Capacity …………………………………………………………………………….2-40 SLC Performance …………………………………………………………………………………….2-41 SLC Shield Termination …………………………………………………………………………..2-42 Wire Requirements for a Two-Wire SLC ……………………………………………………2-43 Measuring Loop Resistance for a Two-Wire SLC ……………………………………2-43 Measuring Total Wire Length for a Two-wire SLC ………………………………….2-43 Wire Requirements for a Four-Wire SLC ……………………………………………………2-45 Measuring Loop Resistance for a Four-Wire SLC ……………………………………2-45 Measuring Total Wire Length for a Four-wire SLC………………………………….2-45 Style 6 Wiring Overview ………………………………………………………………………2-46

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3. Testing the System

Style 6 Wiring Diagram ………………………………………………………………………..2-46 Style 7 Wiring Overview ………………………………………………………………………2-47 Style 7 Wiring Diagram ………………………………………………………………………..2-47 Wiring an Isolator Module (ISO-X)……………………………………………………………2-48 ISO-X Overview ………………………………………………………………………………….2-48 Isolating a Branch of a Two-Wire SLC …………………………………………………..2-48 Wiring an IDC with MMX Modules…………………………………………………………..2-49 Overview of Monitor Modules (MMX Series)…………………………………………2-49 Wiring an MMX Module ………………………………………………………………………2-49 Wiring an NFPA Style B IDC with MMX-1s …………………………………………2-50 Wiring an NFPA Style B IDC with MMX-2s …………………………………………2-51 Wiring an NFPA Style B IDC with MMX-1s ………………………………………..2-52 Wiring a NFPA Style D IDC with MMX-2 Modules………………………………..2-53 Wiring a Notification Appliance Circuit (NAC) or Control Circuit ………………..2-54 CMX Module Overview ……………………………………………………………………….2-54 Testing a CMX Module ………………………………………………………………………..2-54 Installing a CMX Module as a Form-C Relay ………………………………………….2-55 SLC Wiring with CMX Modules ……………………………………………………………….2-55 Style Y NAC Circuits (Two-Wire) …………………………………………………………2-56 Wiring Diagram and Instructions……………………………………………………………2-56 Style Z NAC ……………………………………………………………………………………….2-57 Style Z NAC Circuits (Method 1 ­ MPS-400 powers CMX)……………………..2-58 Style Z NAC Circuits (Method 2 ­ MPS-400 powers CMX)……………………..2-59 SLC Wiring with an Intelligent Detector …………………………………………………….2-60 Overview for Wiring Intelligent Detectors ………………………………………………2-60 Wiring a BX-501 Detector to an SLC Loop …………………………………………….2-60 SLC Wiring with a BX-101L Addressable Manual Pull Station …………………….2-61 BX-101L Overview ……………………………………………………………………………..2-61 BX- 101L Wiring Connections……………………………………………………………….2-61

Acceptance Test …………………………………………………………………………………………..3-1

Periodic Testing and Service ………………………………………………………………………..3-1

Operational Checks ……………………………………………………………………………………..3-1

Battery Checks and Maintenance …………………………………………………………………3-2

Section Overview …………………………………………………………………………………………4-1

Installing an AMG ……………………………………………………………………………………….4-2 Configuring the AMG…………………………………………………………………………….4-4 AMG-1 and AMG-E Tone/Message Selections (SW2=Off)………………………..4-5 AMG-1 and AMG-E Tone/Message Selections (SW2=On) ………………………..4-6 ATG-2 Terminal Connections …………………………………………………………………4-7

Installing a Fire Fighter’s Telephone (FFT-7 and FFT-7S) ……………………………4-8 Overview ………………………………………………………………………………………………….4-8 Mounting an FFT-7/FFT-7S ……………………………………………………………………….4-8 Connecting an FFT-7/FFT- 7S……………………………………………………………………..4-9

Installing Audio Amplifiers (AA-30/AA-100/AA-120) ………………………………….4-10 Installing an AA-30………………………………………………………………………………….4-10 Overview ……………………………………………………………………………………………. 4-10 Mounting an AA-30……………………………………………………………………………..4-10 AA-30 Terminals and Connectors ………………………………………………………….4-11 Installing an AA-100/AA-120……………………………………………………………………4-12 Overview ……………………………………………………………………………………………. 4-12 Mounting an AA-100/AA-120……………………………………………………………….4-12 AA-100/AA-120 Terminals and Connectors ……………………………………………4-13 Installing a Backup Amplifier ……………………………………………………………………4-14

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4. Voice Alarm System

Overview ……………………………………………………………………………………………. 4-14 Typical Installation Drawing …………………………………………………………………4-14
Voice Alarm Modules…………………………………………………………………………………4-15 Overview ………………………………………………………………………………………………..4-15 Module Descriptions ………………………………………………………………………………..4-15 Connecting VCM-4 Speaker Circuits …………………………………………………………4-16 Overview ……………………………………………………………………………………………. 4-16 VCM-4 Speaker Wiring Diagram…………………………………………………………..4-16 Connecting VCM-4 Telephone Circuits ……………………………………………………..4-17 Wiring Diagram …………………………………………………………………………………..4-17 Setting the VCM-4 to Speaker or Telephone Mode ………………………………….4-18 Connecting a CMX-2 Module to Speaker Circuits……………………………………4-18 Connecting Dual Channel Module Circuits …………………………………………………4-19 Wiring Notes……………………………………………………………………………………….4-19 Wiring Diagram …………………………………………………………………………………..4-19
Voice System Configurations………………………………………………………………………4-20 Voice Systems Wiring Overview……………………………………………………………….4-20 Internal Power Distribution……………………………………………………………………….4-21 Wiring Diagram …………………………………………………………………………………..4-21 Block Diagram …………………………………………………………………………………….4-21 CPU EIA-485 Connections ……………………………………………………………………….4-22 Wiring Diagram …………………………………………………………………………………..4-22 Block Diagram …………………………………………………………………………………….4-22 Wiring an Audio Signal without a Backup Amplifier …………………………………..4-23 Wiring Notes……………………………………………………………………………………….4-23 Typical Wiring Diagram ……………………………………………………………………….4-23 Block Diagram …………………………………………………………………………………….4-23 Audio Signal Wiring Using a Backup Amplifier ………………………………………….4-24 Wiring Notes……………………………………………………………………………………….4-24 Wiring Diagram …………………………………………………………………………………..4-24 Block Diagrams …………………………………………………………………………………..4-24 CPU-400 Trouble Bus Connections……………………………………………………………4-25 Wiring Notes……………………………………………………………………………………….4-25 Wiring Diagram …………………………………………………………………………………..4-25 Block Diagram …………………………………………………………………………………….4-25
Wiring Speaker Circuits …………………………………………………………………………….4-26 Wiring Speaker Circuit Overview………………………………………………………………4-26 30 Watt/Four and Eight Speaker Circuits ……………………………………………………4-27 Wiring Notes……………………………………………………………………………………….4-27 Wiring Four Speakers …………………………………………………………………………..4-27 Wiring Eight Speakers ………………………………………………………………………….4-27 120 Watt/Four and Eight Speaker Circuits ………………………………………………….4-28 Wiring Notes……………………………………………………………………………………….4-28 Wiring Four Speakers …………………………………………………………………………..4-28 Wiring Four Speakers …………………………………………………………………………..4-28 90 Watt/Eight Speaker Circuit Configuration………………………………………………4-29 Wiring Notes……………………………………………………………………………………….4-29 Wiring Diagram …………………………………………………………………………………..4-29 240 Watt/Eight Speaker Circuit …………………………………………………………………4-30 Wiring Notes……………………………………………………………………………………….4-30 Wiring Diagram …………………………………………………………………………………..4-30 180 Watt/Eight Speaker Circuit Configuration…………………………………………….4-31 Wiring Notes……………………………………………………………………………………….4-31 Wiring Diagram …………………………………………………………………………………..4-31 30 Watt Dual-Channel Configuration …………………………………………………………4-32 Wiring Notes……………………………………………………………………………………….4-32

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5. Applications
Wiring Diagram …………………………………………………………………………………..4-32 120 Watt Dual-Channel Configuration (Four AA-30s) …………………………………4-33
Wiring Notes……………………………………………………………………………………….4-33 Wiring Diagram …………………………………………………………………………………..4-33 120 Watt Dual-Channel Configuration (Two AA-120s) ……………………………….4-34 Wiring Notes……………………………………………………………………………………….4-34 Wiring Diagram …………………………………………………………………………………..4-34 Voice Message Options (VROM and VRAM) ……………………………………………..4-35 Overview of VROM and VRAM ……………………………………………………………….4-35 Installing VROM and VRAM ……………………………………………………………………4-35 ACT-1 Audio Coupling Transformer ………………………………………………………….4-36 ACT-1 Overview……………………………………………………………………………………..4-36 Isolating Power Supplies…………………………………………………………………………..4-36 ACT-1 Installation …………………………………………………………………………………..4-37 Installation Notes …………………………………………………………………………………4-37 Installation Diagram …………………………………………………………………………….4-37 Connecting the ACT-1………………………………………………………………………….4-37
Applications Overview …………………………………………………………………………………5-1 Central or Remote Station Fire Alarm System ……………………………………………..5-2
Installation ……………………………………………………………………………………………….. 5-2 Wiring Diagram ………………………………………………………………………………………..5-2 Auxiliary Fire Alarm System ……………………………………………………………………….5-3 Overview ………………………………………………………………………………………………….5-3 Wiring Diagram ………………………………………………………………………………………..5-3 NFPA 72-1993 Remote Station Fire Alarm System ……………………………………….5-4 Overview ………………………………………………………………………………………………….5-4 Wiring Diagram ………………………………………………………………………………………..5-4 NFPA 72-1993 Proprietary Fire Alarm Systems ……………………………………………5-5 Overview ………………………………………………………………………………………………….5-5 Wiring Diagram ………………………………………………………………………………………..5-5 Network Interface Board (NIB-96)……………………………………………………………….5-6 NIB-96 Overview………………………………………………………………………………………5-6 NIB-96 Assembly………………………………………………………………………………………5-6 NIB-96 SLC and EIA-485 Connections ……………………………………………………….5-7 Wiring Specifications…………………………………………………………………………………5-7 Using the XP Transponder with the AFP-300/AFP-400 …………………………………5-8 XP Transponder Overview………………………………………………………………………….5-8 Wiring Diagram ………………………………………………………………………………………..5-8 Combination Fire/Security Applications……………………………………………………….5-9 Overview ………………………………………………………………………………………………….5-9 General Operation ……………………………………………………………………………………..5-9 Installing a Security Tamper Switch …………………………………………………………….5-9
Installing a Security Tamper Switch into the CAB-400AA ………………………..5-9 Installing a Security Tamper Switch into the CAB-X3 ……………………………..5-10 Receiving Unit ………………………………………………………………………………………..5-10 Programming ………………………………………………………………………………………….. 5-10 Wiring for Proprietary Security Alarm Applications…………………………………….5-11 Universal Zone Coder (UZC-256)……………………………………………………………….5-12 UZC-256 Description……………………………………………………………………………….5-12 UZC-256 Connectors and Indicators ………………………………………………………….5-12 NAC and EIA-485 Power Connections ………………………………………………………5-13 Installing the UZC-256 …………………………………………………………………………….5-14 Overview ……………………………………………………………………………………………. 5-14 CAB-X3 Installation …………………………………………………………………………….5-14
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CAB-400AA Installation ………………………………………………………………………5-14 UZC-256 Electrical Connections ……………………………………………………………….5-15 Wiring Diagram ………………………………………………………………………………………5-15 Wiring 12 Zone-Coded NACs …………………………………………………………………..5-16 Wiring 20 Zone-Coded NACs …………………………………………………………………..5-17
Releasing Applications ……………………………………………………………………………….5-18 Overview ………………………………………………………………………………………………..5-18 Programming Releasing Applications…………………………………………………………5-18 Wiring for Releasing Applications……………………………………………………………..5-18 Connecting a Releasing Device to the MPS-400 ………………………………………….5-19 Overview ……………………………………………………………………………………………. 5-19 Typical Connections …………………………………………………………………………….5-19 Connecting a Releasing Device to an ICM-4/ICE-4 Module …………………………5-20 Overview ……………………………………………………………………………………………. 5-20 Typical Connections …………………………………………………………………………….5-20 Connecting a Releasing Device to a CMX Module ………………………………………5-21 Overview ……………………………………………………………………………………………. 5-21 Typical Connections …………………………………………………………………………….5-21 Connecting an N-ARA-10 Agent Release-Abort Station ………………………………5-22 Overview ……………………………………………………………………………………………. 5-22 Typical Connections …………………………………………………………………………….5-22 Installing a Combination Waterflow/Supervisory Valve Monitor…………………..5-23 Overview ……………………………………………………………………………………………. 5-23 Typical Connections …………………………………………………………………………….5-23
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Overview……………………………………………………………………………………………………. A-1
Annunciator Interfaces ………………………………………………………………………………. A-1 Terminal Mode (LCD-80)…………………………………………………………………………. A-1 ACS Mode………………………………………………………………………………………………. A-1
Annunciator Selection Groups ……………………………………………………………………. A-2 Overview ………………………………………………………………………………………………… A-2 ACS Annunciator Selection Group 2 ………………………………………………………….. A-4 ACS Annunciator Selection Group 3 ………………………………………………………….. A-5 ACS Annunciator Selection Group 4 (AFP-400 only) ………………………………….. A-6 ACS Annunciator Selection Group 5 ………………………………………………………….. A-7 ACS Annunciator Selection Group 6 ………………………………………………………….. A-8 ACS Annunciator Selection Group 7 (AFP-400 only) ………………………………….. A-9 ACS Annunciator Selection Group 8 ………………………………………………………… A-10 ACS Annunciator Selection Group 9 ………………………………………………………… A-11
Connecting Annunciators …………………………………………………………………………. A-12 Overview ………………………………………………………………………………………………. A-12 LCD-80 Terminal Mode EIA-485 Connection (CPU, TB3) ………………………… A-13 Connection Guidelines………………………………………………………………………… A-13 Connecting LCD-80s in Terminal Mode ……………………………………………….. A-13 LCD-80 ACS Mode EIA-485 Connection (CPU, TB4) ………………………………. A-14 Connection Guidelines………………………………………………………………………… A-14 Connecting LCD-80s in ACS Mode …………………………………………………….. A-14 Powering ACS-, ACM-, and LCD-type Annunciators ………………………………… A-15 Overview…………………………………………………………………………………………… A-15 Power Connections for LCD and ACS Annunciators………………………………. A-15 Power Connections for LCD- 80s………………………………………………………….. A-15 ACS and LDM Series EIA-485 Connection ………………………………………………. A-16 Connection Guidelines………………………………………………………………………… A-16 ACS and LDM Series EIA-485 Connections …………………………………………. A-16

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Overview ………………………………………………………………………………………………… D-1 Setting CRT-2 Parameters…………………………………………………………………………. D-1 Uploading or Downloading the Operating Program ……………………………………… D-2
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General Description……………………………………………………………………………………. E-1
Operating Modes ……………………………………………………………………………………….. E-1 Local Terminal Mode (LocT) ……………………………………………………………………. E-1 Local Monitor Mode (LocM)…………………………………………………………………. E-2 Remote Terminal Mode (RemT) ……………………………………………………………. E-3
Using the CRT-2 for Read Status………………………………………………………………… E-4 Overview ………………………………………………………………………………………………… E-4 Accessing Read Status Options………………………………………………………………….. E-4 Read Point ………………………………………………………………………………………………. E-5 Display Devices in Alarm or Trouble …………………………………………………………. E-5 Display the Status of all Programmed Points……………………………………………….. E-5 View the History Buffer……………………………………………………………………………. E-6 Send the History Buffer to the CRT-2 ………………………………………………………… E-6
Using the CRT-2 for Alter Status………………………………………………………………… E-7 Overview ………………………………………………………………………………………………… E-7 Accessing Alter Status Options………………………………………………………………….. E-7 Enable or Disable Detectors, Modules, or Panel Circuits ………………………………. E-8 Change Alarm and Pre-Alarm levels ………………………………………………………….. E-9 Clear the Verification Counter …………………………………………………………………… E-9 Clear the Entire History Buffer ………………………………………………………………….. E-9 Set the Pre-Alarm for Alert or Action…………………………………………………………. E-9
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Overview……………………………………………………………………………………………………. F-1
Power-limited Modules and Circuits …………………………………………………………… F-1 UL Power- limited Wiring Requirements ………………………………………………………F-2 Power Supply Wiring …………………………………………………………………………………F-3
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Overview……………………………………………………………………………………………………. G-1
Calculating AC Branch Circuit Current ……………………………………………………… G-1 Calculating the System Current Draws……………………………………………………….. G-1
How to Use Table G-2 ……………………………………………………………………………… G-2 Calculating the Maximum Secondary Power Fire Alarm Current Draw ………….. G-4
Calculating the Battery Requirements ………………………………………………………… G-5 Calculating the Battery Capacity ……………………………………………………………….. G-5 Calculating the Battery Size………………………………………………………………………. G-5

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Standards and Other Documents

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This Fire Alarm Control

NFPA 12 CO2 Extinguishing Systems

Panel complies with the fol- NFPA 12A Halon 1301 Extinguishing Systems

lowing NFPA standards:

NFPA 12B Halon 1211 Extinguishing Systems

NFPA 13 Sprinkler Systems

NFPA 15 Water Spray Systems

NFPA 16 Foam/Water Deluge and Foam/Water Spray Systems

NFPA 17 Dry Chemical Extinguishing Systems

NFPA 17A Wet Chemical Extinguishing Systems

NFPA 72-1993 Central Station Fire Alarm Systems (Automatic, Manual and Water-

flow) Protected Premises Unit (requires Notifier UDACT).

NFPA 72-1993 Local (Automatic, Manual, Waterflow and Sprinkler Supervisory) Fire

Alarm Systems.

NFPA 72-1993 Auxiliary (Automatic, Manual and Waterflow) Fire Alarm Systems

(requires 4XTM).

NFPA 72-1993 Remote Station (Automatic, Manual and Waterflow) Fire Alarm Sys-

tems (requires 4XTM or NOTI-FIRE 911A DACT).

NFPA 72-1993 Proprietary (Automatic, Manual and Waterflow) Fire Alarm Systems

(Protected Premises Unit).

NFPA 2001 Clean Agent Fire Extinquishing Systems

The installer should be famil-

iar with the following docu- NFPA 72-1993 Initiating Devices for Fire Alarm Systems

ments and standards:

NFPA 72-1993 Inspection, Testing and Maintenance for Fire Alarm Systems

NFPA 72-1993 Notification Appliances for Fire Alarm Systems

UL 38 Manually Actuated Signaling Boxes UL 217 Smoke Detectors, Single and Multiple Station UL 228 Door Closers – Holders for Fire Protective Signaling Systems UL 268 Smoke Detectors for Fire Protective Signaling Systems UL 268A Smoke Detectors for Duct Applications UL 346 Waterflow Indicators for Fire Protective Signaling Systems UL 464 Audible Signaling Appliances UL 521 Heat Detectors for Fire Protective Signaling Systems UL 864 Standard for Control Units for Fire Protective Signaling Systems UL 1481 Power Supplies for Fire Protective Signaling Systems UL 1971 Visual Signaling Appliances UL 1076 Proprietary Burglar Alarm Systems

Standard CAN/ULC-S527-M87

EIA-485 and EIA-232 Serial Interface Standards NEC Article 300 Wiring Methods NEC Article 760 Fire Protective Signaling Systems Applicable Local and State Building Codes Requirements of the Local Authority Having Jurisdiction

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Document Title

Document Number

The LDM Series Annunciator

15885

The LCD-80 Liquid Crystal Display

15037

The Device Compatibility Document The NIB-96 Network Interface Board The ACM- 8R Annunciator Control Module

15378 15666 15342

The ACS Series Annunciators

15843

AFP-300/AFP-400 Operations Manual AFP-300/AFP-400 Programming Manual AFP-300/AFP-400 Basic System Connections The AFM-16A Annunciator

50260 50259 50683 15207

The AM2020/AFP1010 Manual

15088

Veri-Fire 400 Product Installation Document

50376

The UDACT Manual

50050

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This manual contains information for designing, installing, and testing the AFP-300/ AFP-400 Fire Alarm Control Panel and fire alarm system components. Table 1-1 contains a list of document sources for supplemental information:

For information on…

Refer to…

Part Number

All features Programming Operation Compatible Devices System Connections

AFP-300/AFP-400 Data Sheet AFP-300/AFP-400 Programming Manual AFP-300/AFP-400 Operations Manual Device Compatibility Document AFP-300/AFP-400 Basic System Drawing

DN-5262 50259 50260 15378 50683

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Table 1-1 Supplemental Documentation
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The AFP-300 and AFP-400 control panels are modular, intelligent fire alarm control panels (FACP) with an extensive list of powerful features. The CPU module, power supply module, mounting chassis, and cabinet combine to create a complete fire alarm control system with Notifier’s VIEWTM early warning fire detection and optional voice and telephone, advanced networking. Optional modules mount to the chassis to provide additional output circuits. This manual covers the AFP-300 and the AFP-400 control panels, described as follows:
!

An intelligent fire alarm control panel with a capacity for installing up to 464 intelligent, addressable devices (198 analog detectors and 198 monitor/control modules, and up to 68 internal circuits/relays). Five cabinet options for the AFP-400 (CAB-400AA, CAB-A3, CAB-B3, CAB-C3, or CAB-D3) for enclosing system components.
!

A cost-effective, compact, intelligent fire alarm control panel with a capacity of 266 points (99 intelligent detectors, 99 monitor/control modules, and up to 68 internal circuits/relays) using one Signaling Line Circuit (SLC) loop. The AFP-300 mounts into a CAB-400AA cabinet and provides the same features as the AFP-400, including voice and telephone, advanced networking, and Notifier’s VIEWTM early warning fire detection.

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6VWHP 2YHUYLHZ

Introduction
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Control panel features and options that affect installation include:
· Four Notification Appliance Circuit (NAC) bell circuits standard, expandable to 68 total (Class A or B).
· EIA-485 connections for wiring ACS annunciators (including LDM custom graphic annunciators).
· Optional modules include: 4XTM transmitter, UDACT Universal Digital Alarm Communicator/Transmitter, ACM-8R remote relay module to increase point capacity, and audio and voice components.
· Autoprogram feature for faster programming of new devices. · Optional LCD-80 allows monitoring the system–up to 6,000 feet from the control
panel. The control panel provides 6.0 amps of usable output power (standard).
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System expansion must comply with:
1. The physical limitations of the cabinet configuration.
2. The electrical limitations of the system power supply, including auxiliary power supplies used for notification appliances.
3. The capacity of the Secondary Power Source (standby batteries).
Refer to System Components, for descriptions of the various optional modules. Refer to Section 2, Installation for installation information.

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Introduction

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Figure 1-1 shows an AFP-300 system installed in a CAB-400AA with a voice alarm system and a full complement of installed devices

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Introduction

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Figure 1-2 shows an AFP-400 system installed in a CAB-C3 with a voice alarm system and a full complement of installed devices.

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Specifications
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This section contains electrical specifications for the control panel.
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Component MPS-400
AVPS-24 AA-30 AA-100/AA120 Wire size

Values
120 VAC, 50/60 Hz, 3.0 A; or 240 VAC, 50/60 Hz, 1.5 A 120 VAC, 1.0 A each 120 VAC, 1.0 A each 120 VAC, 50/60 Hz, 1.85 A each Minimum 14 AWG with 600 VAC insulation

Table 1-2 AC Power
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Table 1-3 contains specifications for batteries that can be used with the control panel:

Battery Charger (MPS-400)
Maximum Battery Capacity (MPS-400)

Dual Rate: High Charge Normal Flat Charge Charging Current
55 AH (Batteries larger than 25 AH require Notifier BB-55 or other UL-listed battery cabinet.)

29.1 VDC 27.6 VDC 2.0 A max 1.5 A typical

CAB-400AA CAB-A3 through CAB-B3

12 AH (17 AH with BB-17) 25 AH (55 AH with BB-55)

Table 1-3 Battery Specifications

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Table 1-4 contains specifications for an SLC:

Item

Value

Voltage Maximum length
Maximum loop current Maximum loop resistance

24 VDC nominal, 27.6 VDC maximum 10,000 ft. per channel (NFPA Style 4) or 10,000 ft. total loop length (NFPA Style 6 and 7) 250 mA (max short circuit) or 100 mA (normal) 40 ohms (supervised and power-limited)

Table 1-4 SLC Specifications

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6VWHP 2YHUYLHZ

Specifications
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Table 1-5 contains specifications for NACs and releasing circuits available on the MPS-400:

Item Max. wiring voltage drop Normal operating voltage Current for all external devices connected to MPS-400 Optional AVPS-24
Maximum signaling current/ circuit (MPS-400) End-of-line resistors

Value
2 VDC (except CMX which is 1.2 VDC)
24 VDC
6.0 A (except devices powered from the AVPS-24 or AA-30 and AA-120, or FCPS-24)
Additional 3.0 A of NAC power for each AVPS-24 (requires ICM-4 modules)
2.5 A (except CMX which is 2 A)
MPS-400 (TB-7­TB-10): 2.2K, 1/2 watt ICM-4, ICE-4, VCM-4, CE-4, and DCM-4: 4.7K, 1/2 watt (2 watts on 70 Vrms audio) CMX Modules: 47K, 1/2 watt

Table 1-5 NACs and Releasing Circuits

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Relays for Alarm, Trouble, Security, and Supervisory are available on MPS-400 terminals TB3 to TB6. Contact ratings for TB3-TB6 are:
· 2.0 A @ 30 VDC (resistive); · 0.5 A 30 VAC (resistive) when used for a Form-C relay.

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MPS-400 terminals TB2-5 (+) and TB2-6 (­) supply filtered, low-noise power for fourwire smoke detectors. Specifications for TB2-5 and TB2-6 are:
· Max. ripple voltage: 10 mVrms · Up to 1.25 A is available for powering four- wire smoke detectors.
For 24 VDC detectors, refer to the Device Compatibility Document for compatible detectors.

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Specifications

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There are two power-limited circuits available to power external devices, such as notification appliances and annunciators. Refer to the Device Compatibility Document for compatible devices and notification appliances.

Item Terminals

Circuit A TB2-1 (+) and TB2-2 (­)

Circuit B TB2-3 (+) and TB2-4 (­)

Nominal Voltage

24 VDC

24 VDC

Max rated current

1.25 A DC

1.25 A DC

Max ripple voltage

100 mVrms

100 mVrms

Table 1-6 Power-Limited Circuits

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This control panel requires connection to a separate dedicated AC branch circuit. Follow these guidelines when connecting the AC branch circuit:

· Label the branch circuit “Fire Alarm”.
· Connect the branch circuit to the line side of the main power feed of the protected premises.
· Do not power other equipment from the fire alarm branch circuit.
· Run the branch circuit wire continuously, without any disconnect devices, from the power source to the fire alarm control panel.
· Overcurrent protection for this circuit must comply with Article 760 of the National Electrical Codes, as well as local codes.
· Use 14 AWG wire with 600 VAC insulation for this branch circuit. Connect the earth ground terminal (MPS-400, TB1-3) to a solid earth ground (a metallic, cold water pipe may be suitable in some installations). This connection is vital to maintaining the control panel’s immunity to unwanted transients generated by lightning and electrostatic discharge.

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The charger shuts off when the control panel is in alarm.

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6VWHP 2YHUYLHZ

System Components

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Basic Equipment packages for the AFP-300 and AFP-400 include the following:
AFP-300 Basic Equipment Packages
· BE-300AA ­ Base Equipment for use with the CAB-400AA mini cabinet. It is similar to the BE-300 but for use in CAB-400AA. Includes MPS-400RB and transformers. Supports one output option module. Order CAB-400AA cabinets separately.
· BE-300 ­ Base Equipment includes the CPU module (CPU-300), an 80-character display, programming keypad, MPS-400 main power supply, installation instructions, chassis and required hardware. Order CAB-X3 cabinets separately.
AFP-400 Basic Equipment Packages
· BE-400 ­ Base Equipment includes the CPU-400 module, an MPS-400 power supply, a BP-3 Battery Plate, cables, manuals, and a first row chassis. Order CAB-X3 cabinets separately.
· BE-400AA ­ Base Equipment for a CAB-400AA mini-cabinet–similar to the BE-400–but for use in the CAB-400AA. The BE-400AA supports one output option module, and includes an MPS-400PCA and transformers. Order CAB-400AA cabinets separately.
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The CPU provides LED indicators and operational switches. The panel is visible with the cabinet door closed, except for programming switches, which are located behind a flip-down door.

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System Components

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The control panel can use two types of internally mounted power supplies: the MPS-400 main power supply and an optional Audio Visual Power Supply (AVPS-24).

036 UHTXLUHG The MPS-400 supplies a total of 6 A in alarm, used for the following: (a) powering AFP-300/400 modules; (b) powering a variety of UL- listed 24 VDC notification appliances (refer to the Device Compatibility Document); and (c) providing up to 1.25 A of resettable power for four-wire smoke detectors. The MPS-400 contains an integral battery charger, four NAC/Releasing circuits, and four relay outputs (Alarm, Trouble, Supervisory, and Security).

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System Components
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The control panel uses three types of audio amplifiers with an installed Voice Alarm System: the AA-30, the AA-100, and the AA-120. · AA-30 ­ The AA-30 Audio Amplifier provides up to 30 watts of audio power for
driving 25 Vrms speaker circuits. · AA-100 ­ The AA-100 Audio Amplifier provides 100 watts of audio power for
driving 70 Vrms speakers. · AA-120 ­ The AA-120 Audio Amplifier provides 120 watts of audio power for
driving 25 Vrms speakers. Each AA amplifies the audio signal coming in from an Audio Message Generator (AMG-1) or Audio Tone Generator (ATG-2).
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Two 100VA transformers and connectors are used with the MPS-400PCA in the CAB- 400AA.
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The CAB-400AA cabinet provides space for two 12 ampere-hour (AH) batteries. CAB-X3 cabinets provide space for two 25 AH (or smaller) batteries. Use external battery boxes if your installation requires larger capacity batteries. Battery boxes mount directly below the main cabinet. Models of battery boxes are:
· BB-17 battery box ­ for batteries up to 17 AH. · BB-55 battery box ­ for batteries up to 55 AH.

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Optional Devices

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Table 1-7 contains a list of optional components that can be installed in an AFP-300 or AFP-400 system:

Option UDACT

Description
A Universal Digital Alarm Communicator/Transmitter (UDACT) transmits system status to UL-listed Central Station Receivers over a public switched telephone network. The UDACT mounts in a cabinet or mounts remotely in the ABS-8R. The UDACT connects to the EIA-485 annunciator port and 24 VDC (nominal) power.

4XTM Transmitter Module

A 4XTM module provides municipal box and remote station transmitters meeting NFPA 72-1993 Auxiliary and Remote Station requirements. The 4XTM also includes a Disable switch and an LED indicator.

Trim Ring

A gray trim ring is available for semi-flush mounting of the CAB-X3 Series cabinet.

UZC-256 Universal Zone Coder

A UZC-256 module is a circuit board–used for NAC coding applications–that provides three output circuits and up to 256 zone codes.

NIB-96 Network Interface Board

A Network Interface Board (NIB) is a microprocessorcontrolled module that connects slave control panels to a master control panel. The NIB-96 module can be installed in each slave FACP. Each slave FACP can contain as many as 96 input/output points, or as few as eight points.

FCPS-24 Field Charger Power Supply

The FCPS-24 is a compact, cost-effective remote power supply and battery charger. This remote power supply consists of a filtered, 24 VDC output that can drive up to four Notification Appliance Circuits (NACs).

Table 1-7 Optional Devices for the AFP-300/400

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6VWHP 2YHUYLHZ

Intelligent Detectors

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Intelligent, addressable detectors provide analog information to the control panel. This allows the control panel to continually process this information to determine the status of each detector (alarm, trouble, maintenance, or normal). Each detector responds to an address that is set in the detector head using built-in rotary decimal switches. You can program the sensitivity of each intelligent detector. (Refer to Appendix C in the AFP-300/AFP-400 Programming Manual for details.)
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Table 1-8 contains a list of the intelligent detectors that you can use with an AFP-300 or AFP-400 system:

Option BX-501 B710L B501BH B524RB B524BI SDX-551/SDX-551TH/ SDX-751
CPX-551/CPX-751
FDX-551
RA400Z
DHX-501/DHX-502 IPX-751
LPX-751

Description
Standard U.S detector base Low Profile base Sounder base Relay base Isolator base
An Intelligent Photoelectric Smoke Detector provides analog measurements of the optical smoke level in its chamber to the control panel. Also available: an SDX-551TH with a 135° thermostat and a SDX-751 low profile photoelectric detector.
An Intelligent Ionization Smoke Detector measures the level of combustion products in its chamber using the ionization principle and reports this measurement to the control panel. A CPX-751 Low Profile detector is also available. Refer to Appendix C in the AFP-300/AFP-400 Programming Manual for details on setting alarm sensitivity.
An Intelligent Thermal Sensor (140°F fixed temperature). Also available as an FDX-551R which is a combination 135°F fixed and 15°F per minute rate of rise.
A Remote Single LED Annunciator that can be wired directly off of an addressable detector for annunciation of that detector’s alarm status.
Duct Housings for the SDX-551 and CPX-551.
A microprocessor-based intelligent smoke detector that uses a combination of photoelectric, ionization, and thermal sensing technologies.
An advanced intelligent photoelectric detector that uses a laser diode, special optics, and signal processing to obtain extremely high sensitivity.

Table 1-8 Intelligent Detectors

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Addressable Modules

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CMX Series Control Modules and MMX Series Monitor Modules provide an interface between the control panel and conventional notification (CMX) and initiating (MMX) devices. You can set each CMX and MMX module to respond to an address with builtin rotary decimal switches. A blinking LED on an MMX or CMX indicates communication between the module and the control panel.
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Table 1-9 contains description of CMX and MMX series modules and other addressable modules used with the control panel:

Option Monitor Modules (MMX-1, MMX-2)
MMX-101

Description
Addressable Monitor Modules for monitoring conventional initiating devices. The MMX-1 is used for normally open contact alarm initiating devices, such as manual pull stations, four-wire smoke detectors, heat detectors, waterflow, security contacts, and supervisory devices. Use the MMX-2 for specific two- wire smoke detectors in addition to normally open contacts. Wire supervised circuits as NFPA Style B or Style D circuits.
An Addressable Module that is functionally similar to an MMX-1 Monitor Module (Style B circuits only), but offered in a smaller package for mounting directly in the electrical box of the device being monitored. It does not include a blinking LED or a magnetic test switch.

Control Modules (CMX)
Loop Isolator Module (ISO-X))

Addressable Control Modules used as Notification Appliance Circuits (NACs) to power and supervise compatible, UL-listed notification appliances. Wire supervised circuits as NFPA Style Y or Style Z. Breaking the two built-in tabs allows using the CMX as a Form-C control relay. A CMX comes with a thermoplastic cover for mounting to a 4-inch square mounting box.
The ISO-X is an automatic switch that opens the circuit voltage to a communications loop branch(es) whenever a fault is detected on that circuit. The remainder of the communications loop leading up to the ISO-X continues to operate, unaffected by the fault.

BGX-101L)

A dual action addressable manual pull station featuring a key-lock reset. The pull station includes an MMX-101 and responds to an address set with built-in rotary decimal switches.

Table 1-9 Addressable Modules

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End-of-Line Devices

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Table 1-10 contains a list of the end-of-line devices that you can install in an AFP-300/ AFP-400 system:

Option System Sensor (SSD) A2143-00
System Sensor (SSD) A2143-10
N-ELR Resistor plate (N-ELR)

Description

Notes

A 47K End-Of-Line Resistor (ELR) Assembly ELR used in the supervision of MMX-1 or MMX101 Monitor and CMX Control Module circuits.

Supplied with MMX or CMX modules.

The 3.9K End-Of-Line Resistor (ELR) Assembly used with the MMX-2.

Supplied with MMX-2 modules.

An N-ELR, required for Canadian installations, provides connection for a resistor to mount to an ELR plate.

· Use 2.2K for the MPS-400 output.
· Use 4.7K for ICM-4, ICE-4, VCM-4, VCE-4, and DCM-4.
· Use 47K for CMX, MMX-1, and MMX-101 modules.

Table 1-10 End-of-Line Devices

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Annunciation Modules

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This section contains brief descriptions and the model numbers of annunciator modules that can be connected to the control panel. Communication between the control panel and annunciators takes place over a two-wire serial interface connected to an EIA-485 connector (TB4) on the CPU. For detailed wiring requirements, refer to the appropriate Annunciator manuals.
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The ACM-8R provides the AFP-300 and AFP-400 with a mappable relay control module. ACM-8R relays can be selected for mapping anywhere in the system memory map (in groups of eight). Features of the ACM-8R include the following:
· Provides eight Form-C relays with 5 A contacts. · Tracks any group of eight zones within the system.
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The LDM-32 Lamp Driver Annunciator Module provides 32 alarm lamp driver outputs for connection to a custom graphic annunciator. You can also set the LDM-32 with a DIP switch for 16 alarm, 16 trouble and 16 switch inputs for control of such system functions as Signal Silence and System Reset.
· Lamp Driver Annunciator Expander Module (LDM-E32) ­ Expands the LDM-32 by 32 system points, to a maximum of 64 points.
· Relay Expander Module (LDM-R32) ­ Provides the LDM-32 or LDM-E32 with 32 dry Form-A (normally open) contacts.

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Annunciation Modules
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The ACS series annunciator and control system provides the AFP-300 and AFP-400 with up to 32 remote annunciators, each with a capacity of 64 points. Table 1-11 contains brief descriptions of ACS annunciators. For detailed information, refer to the ACS Manual.

Module

Features

Annunciator Control Module16AT (ACM-16AT)

The ACM-16AT provides features for audible and visual indication of alarm and trouble conditions at each annunciator. These features include: 1) 16 red alarm LEDs; 2) 16 yellow trouble LEDs; 3) 16 momentary touchpad switches for controlling each point; 4) a system trouble LED; 5) an Online/Power LED; 6) a local sounder; 7) a Silence/Acknowledge switch; and remote functions.

Annunciator Expander Module (AEM-16AT)

The AEM-16AT, identical in size and appearance to the ACM-16AT, expands the ACM-16AT by 16 system points. An ACM-16AT can support up to three AEM-16ATs, to a provide a maximum of 64 system points.

Annunciator Control Module32AT (ACM-32A)
Annunciator Expander Module-32A (AEM-32A)

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The ACM-32A provides features for audible and visual indication of alarm and trouble conditions at each annunciator. These features include: 1) 32 red alarm LEDs; 2) a system trouble LED; 3) an Online/Power LED; 4) a local sounder; and 5) a Silence/Acknowledge switch.
The AEM-32A, identical in size and appearance to the ACM-32A, expands the ACM- 32A by 32 system points. An ACM-32 can support one AEM-32A, providing a maximum of 64 system points. Note: An AEM-32A cannot be used to expand an ACM- 16AT.

Table 1-11 ACM-16AT/AFM-16AT Modules
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Annunciator Fixed Modules (AFM-16AT and AFM-32A) provide the control panel with discrete display and control points. AFMs turn their LEDs on and off as directed by the CPU, and also report switch activations to the CPU for action. You can only use one AFM in a system. Each annunciator’s address is fixed at address 1.
· AFM-16AT ­ The AFM-16AT contains 16 red alarm and 16 yellow trouble LEDs, a system trouble LED, an Online/Power LED, and a local sounder, and switches for control panel Acknowledge, Alarm Silence, and System Reset. Use the AFM-16AT for systems that require 16 or fewer annunciation points.
· AFM-32A ­ The AFM-32A contains 32 red alarm LEDs, a system trouble LED, an ON LINE/POWER LED, and a local panel sounder with a silence/acknowledge switch. The AFM-32A is fixed at address 1, and will not accept expander modules.

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Peripheral Displays and Printers

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The control panel is compatible with the following printers and display devices:
· LCD-80 display · PRN-4 printer · Keltron Remote Printer · CRT-2 Display Terminal For installation instructions for these devices, refer to Section 2.
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The LCD-80 alphanumeric display module is an AFP-300/400 ancillary device that provides two modes of operation: Terminal, where it acts as a display repeater; and ACS, where it acts as an alphanumeric annunciator. The LCD-80 features the following:
· 80-character LCD display that backlights under normal and alarm conditions. · Control switches for Acknowledge, Signal Silence, and System Reset, all made
operational by an optional AKS-1 switch. · Time/date display field. · Annunciator backbox ABF-1 package with optional AKS-1 key switch and phone
jack options. · Remote operation (mounts up to 6,000 feet from the control panel). · Local panel sounder with alarm/trouble resound.
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The PRN-4 is an optional printer that connects directly to the control panel through TB1 on the CPU and can be located up to 50 feet from the control panel. It features the following:
· Provides a printed record (80 columns of data on standard 9″ x 11″ tractor- feed paper) of all system events (alarm, trouble) and status changes within the system.
· Time-stamps the printout with the current time-of-day and date.
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The VS4095 is a two-color (red/black), 40-column 24 VDC that can print 50 messages in 90 seconds. This printer connects to the control panel through TB1 on the CPU and mounts in a separate cabinet next to the control panel. The VS4095 meets UL fire and security requirements for an ancillary device. For more information on the Keltron printer, contact the manufacturer (Keltron Corp., Waltham, MA). Refer to Section 2 for installation instructions.
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The optional CRT-2 terminal connects to the control panel via the EIA-485 serial interface TB2. The CRT-2–can control and view events, points and history reports, control the system (Acknowledge, Alarm Silence, and System Reset). With a CRT-2 installed, you can also change important system operating parameters, such as enable/ disable of addressable points, change alarm and pre-alarm sensitivities, clear verification counters, clear history, and set the pre-alarm action level. A CRT-2 displays 26 lines by 80 columns and can be located up to 50 feet from the control panel.

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Notification Circuit and Control Modules

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The control panel supports the following notification and control modules: · Indicating Circuit Module (ICM-4) · Indicating Circuit Expander (ICE-4) · Control Relay Module (CRM-4) · Control Relay Expander (CRE-4) · Auxiliary Relay Module (ARM-4)
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Table 1-12 contains descriptions of the notification circuit and control modules that can be used with the control panel:

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Module ICM-4

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ICE-4 CRM-4

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CRE-4

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ARM-4

Function

Circuit Rating

Provides four Notification Appliance Circuits for Style Y or Style Z operation. Circuits are field-programmable to respond to a single initiating zone, a group of zones, or all initiating zones.

Maximum signaling current is 3 A of total current, limited by the power supply.

Expands the ICM-4 to a total of eight Notification Appliance Circuits (Style Y or Style Z).

Identical to the ICM-4.

Provides four standard dry Form-C relay contacts. Each relay is fieldprogrammable to respond to a single initiating device circuit, a group of circuits, or all initiating device circuits. Each relay features manual On/Off control switches and can be disabled or enabled.

Contacts rated for 5 A at 120 VAC or 28 VDC (resistive).

Expands the capacity of the Control Relay Module (CRM-4) to eight Form-C alarm relays.

Identical to the CRM-4.

Provides four auxiliary Form-C relays that can be controlled by a CRM-4 or CRE-4 relay module.

Normally-open contacts rated for 20 A and the normally-closed contacts are rated for 10 A at 125 VAC and 30 VDC (resistive).

Table 1-12 Notification Circuit and Control Relay Modules

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Voice Alarm Equipment

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Voice Alarm equipment provides a manual or automatic supervised paging system for transmitting voice messages (information, instructions, directions) on a selective or all call basis. For more details, refer to Section 4, Voice Alarm System.
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The heart of a voice evacuation system, the Audio Message Generator (AMG-1) provides a variety of tones, including a slow whoop, yelp, yeow, siren, hi/lo, or steady tone. A built-in microphone allows for paging through speaker circuits. Optionally, you can install up to four digitally-recorded voice messages into the AMG-1 from the following:
· two factory prerecorded VROM voice messages; · two user-defined messages in the AMG-1; · two user-defined messages (up to 24 seconds long) into an AMG-1 with optional
VRAM-1 memory chips installed (one per VRAM). You can create both user-defined messages through the AMG-1 built-in microphone, or download user-defined messages from a standard audio cassette recorder.
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The Audio Tone Generator (ATG-2) is similar to the AMG-1, but provides tones and microphone only (no message). It can provide two simultaneous tones for dual-channel applications.
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The FFT-7 (Fire Fighters Telephone) provides the Voice Alarm System with fire fighter’s telephone capability. With the FFT-7 or FFT-7S, up to seven telephones can hold a simultaneous conversation.
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The Voice Control Module-4 provides the system with up to four Style Y or Style Z speaker circuits. Moving a jumper on the VCM-4 configures the module for driving FFT-7 (Fire Fighter Telephone) circuits. When configured for telephone circuits, the VCM-4 accepts its signal directly from an FFT-7/FFT- 7S. Add an optional VCE-4 Voice Control Expander to the back of the VCM-4 to provide telephone or speaker circuits 5-8.
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The DCM-4 Dual Channel Module provides the system with the capability to select one of two types of audio sources for switching to a specified speaker circuit. The DCM-4 provides up to four circuits.

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Cabinet Hardware

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The control panel can be installed into one of two main cabinet configurations:
· A CAB-400AA for compact systems (CPU, MPS-400, and one option module). Door hinges are right-hand mounted and the door opens 180 degrees.
· A CAB-X3 cabinet for larger systems comes in four sizes (CAB-A3, CAB-B3, CAB-C3, or CAB-D3). A CAB-X3 consists of two basic components–a Surface- mounted Backbox (SBB-X3) and a door (DR-X3). Hinges are fieldselectable for left- or right-hand mounting.
· Options for CAB-X3 cabinets include: 1) a Wire Channel (WC) option which provides a pair of wire trays for neater routing of wire between tiers (rows) in the cabinet (order one pair per cabinet tier); and 2) a trim ring option (TR-X3) for semi-flush mounting (TR-A3N, TR-B3N, TR-C3N, TR-D3N).
A key-locked door includes a pin-type hinge, a window, two keys, and the necessary hardware to mount the door to the backbox. The backbox contains numerous knockouts to provide easy access to the cabinet and to simplify conduit installation.
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The CHS-4M contains expansion modules that extend beyond the first row in the CAB-X3 cabinet. One CHS-4M is needed for each additional row of system modules. The CHS-4M includes the CHS-4 Chassis, the MP-1 Module Dress Panel, and the Expander Row Ribbon Cable.

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The low-profile CHS-4L chassis mounts into a CAB-X3 cabinet. Use the CHS-4L chassis to mount AA-30 audio amplifiers, Audio Message Generators, Fire Fighters Telephones, or Audio Visual Power Supplies.

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Cabinet Hardware
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This section contains mounting information for CAB-X3 Series Cabinets. Each cabinet assembly includes a door and backbox. The following lists each CAB-X3 Series cabinet assembly: · CAB-A3 ­ one mounting tier · CAB-B3 ­ two mounting tiers · CAB-C3 ­ three mounting tiers · CAB-D3 ­ four mounting tiers An optional TR-A3 trim ring is available for use with an A-size cabinet (24-1/8″W by 22-5/16″H). Replacement parts: DR-A3 door; SBB-A3 backbox.

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An optional TR-B3 trim ring is available for use with a B-size cabinet (24-1/8″W by 30-13/16″H). Replacement parts: DR-B3 door; SBB-B3 backbox.

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Cabinet Hardware
An optional TR-C3 trim ring is available for use with a C-size cabinet (24-1/8″W by 39-7/16″H). Replacement parts: DR-C3 door; SBB-C3 backbox.

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An optional TR-D3 trim ring is available for use with a D-size cabinet (24-1/8″W by 48-3/16″H). Replacement parts: DR-D3 door; SBB-D3 backbox.

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Cabinet Hardware
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The CAB-400AA is a backbox and door that can contain a small AFP-300/AFP-400 system. (A small system supports up to twelve NACs and consists of a CPU and one option module, such as an ICM-4/ICE-4.) Modules mount to rails in the CAB- 400AA, eliminating the need for optional chassis assemblies. Mounting methods include surface-mounting or semi-flush mounting on a wall between 16-inch-on- center studs. Table 1-13 lists the components included in the CAB-400AA:

Component BE-300AA
BE-400AA
CAB-300AA and CAB-400AA (includes DP-400AA) DP-400AA
BM-1 TR-500

Description
BE-300AA A package that includes a CPU-300, an MPS300PCA, a transformer assembly, and a two-position CPU-400 ribbon cable.
BE-400AA A package that includes a CPU-400, an MPS400PCA, a transformer assembly, and a two-position CPU-400 ribbon cable.
A backbox (14.5″ wide by 17″ tall by 5″ deep) and door (14.57″ wide by 17.25″ tall by 1.5 ” deep).
An Inner Dress Panel for covering the backbox area surrounding the modules. The DP-400AA is required for Canadian installations.
Blank module for covering an unused panel or module.
Trim ring that provides for semi-flush mounting of the CAB-400AA cabinet

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Table 1-13 CAB-400AA Components and Options · Limited power supply capacity (one AVPS-24 expander). · The backbox can hold 12 amp-hour batteries only. · Maximum of one module in addition to the CPU. · No voice evacuation capability. Figure 1-13 shows the CAB-400AA dimensions:

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Preparing for Installation

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8QSDFNLQJ WKH 6VWHP Unpack the system as follows:

Step

Action

1

Carefully unpack the system and inspect for shipping damage.

2

Select a location for the control panel in a clean, dry, vibration-free area with

moderate temperature.

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· Install the system in a readily accessible area with sufficient room to easily install and maintain the control panel.
· Locate the top of the cabinet approximately 60 inches above the floor with the hinge mounting on the left.
· Count the number of conductors needed for all devices and find the appropriate knockouts.
· Review the installation precautions at the front of this manual.
· All wiring must comply with the National and/or Local codes for fire alarm systems.
· Do not draw wiring into the bottom 9 inches of the cabinet, except when using the BB-17 or BB-55. This prevents interference between the power supply and batteries.
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· NEC Article 300 Wiring Methods.
· NEC Article 760 Fire Protective Signaling Systems.
· Applicable Local and State Building Codes.
· Requirements of the Local Authority Having Jurisdiction.

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Installation Checklist

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Table 2-1A contains an installation checklist for installing, wiring, and testing an AFP-300/AFP-400 system:

Task
U Mount the CAB-X3 Cabinet Door (CAB-400AA has a pre-mounted door.)
U Mount CHS-4 and CHS-4L chassis in CAB-X3 cabinets.
U Mount the SBB-X3 or CAB-400AA backbox to the wall.
U Mount the MPS-400 to the backbox.
U If using additional power supplies, mount to the AVPS-24 to the backbox or chassis.
U Mount optional Auxiliary Relay Modules (ARM4).
U Connect the power cables to the MPS-400 and any AVPS-24s, while the terminals are accessible.

Refer to…
“Installing a Cabinet Door” on page 2-4.
“Installing a Chassis (CAB-X3 Series Cabinets)” on page 2-6.
“Mounting a Backbox (SBB-X3 and CAB-400AA)” on page 2-7.
“Mounting an MPS-400 Power Supply” on page 2-8.
“Mounting an Optional AVPS-24 Power Supply” on page 2-10.
“Installing an Auxiliary Relay Module (ARM-4)” on page 2-11
“Field Wiring the MPS-400 Power Supply” on page 2-32.

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U If installing panel modules (such as ICM-4,

“Installing Expander Row Ribbon

CRM-4, VCM-4), connect Expander Row Ribbon Cables for Panel Modules” on page

Cables (PN 71088) to the CPU.

2-15.

U Install the CPU module in the top left cabinet position.

“Installing the CPU” on page 2-18

U Connect the Power Ribbon and Power Harness between the CPU and the MPS-400/ MPS-400PCA.

“Connecting the CPU to the MPS-400” on page 2-19.

U Install panel module expander boards (ICE-4, CRE-4, VCE-4).

“Mounting Expander Modules (CRE-4, ICE-4, VCE-4)” on page 2-20

U Mount panel modules (ICM-4, CRM-4, VCM-4) to the chassis or backbox.

“Mounting Panel Modules (CRM4, ICM-4, VCM-4) onto a Chassis” on page 2-21.

U Connect the Row Ribbon Cables to the panel modules.

“Installing Expander Row Ribbon Cables for Panel Modules” on page 2-15.

U Mount optional modules (such as 4XTM, UZC-256, UDACT).

“Installing a 4XTM Module (Remote Station Fire Alarm)” on page 2-22. “Installing a UZC-256 Module” on page 2-24.

U Install optional Voice Alarm System components. Section 4.

U Field-wire each module.

“Field-Wiring the Modules” on page 2-25.

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Installation Checklist

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Task
U Install optional peripheral devices, such as a printer, personal computer, or CRT-2 terminal.
U Wire the Signaling Line Circuits. U Connect AC power to the MPS-400 — but do not
connect batteries.
U Check AC power–but do not connect batteries.* U Program the control panel. U Connect the batteries.
U Field test the system.

Refer to…
“Installing Remote Printers and CRTs” on page 2-35.
“Wiring a Signaling Line Circuit (SLC)” on page 2-39.
“Field Wiring the MPS-400 Power Supply” on page 2-32 “AC and Battery Power Connections (MPS-400” on page 233.
Table 2-2.
AFP-300/AFP-400 Programming Manual.
“AC and Battery Power Connections (MPS-400″ on page 233.
Section 3.

Table 2-1 Installation Checklist

Table 2-2 contains a checklist for checking the system with AC power applied:

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Component
U The CPU U Each module
U Each AVPS-24

Status
The green AC Power indicator on; the system Trouble indicator on because of no battery power.
The yellow Trouble indicator may come on for approximately 10 seconds after applying AC power. (This only applies to an unconfigured system.)
The yellow Trouble indicator comes on because batteries are not connected.

Table 2-2 AC Power Checklist

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Installing a Cabinet Door

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Cabinet doors mount in a left- or right-hand opening configuration, providing easier access for installation and service when two control panels are mounted in a confined area or side-by-side (as shown in Figure 2-1). The doors can be opened barn door style, creating an open work space. Before mounting any equipment in the backbox, make sure to attach the two hinges and the two alignment tabs. In this type of installation it is necessary to leave enough space between cabinets to insert a key into the locks on the door frames.

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You can mount hinges on the left or right. The drawings and text refer to a left-mounted example. For right hand mounting, substitute right for left in the instructions. Follow the instructions in the installation table and refer to the drawings.
Step Action

1

Insert the door hinges (A) into the top and bottom slots.

(Figure 2-2 and Figure 2-3).

2

Attach the mounting nuts and secure the hinges to the backbox studs so the small

hole on the outer tab faces out.

3

Thread the stud (B), from the bottom up, into the bottom hinge first. Place the

grounding star washer and the lower corner of the door onto the stud.

4

Align the door on the backbox so the door sits directly under the top hinge. Thread

the remaining stud (B) into the top hinge and through the hole in the top of the

door. The door should now swing freely.

Table 2-3 Cabinet Door Installation Instructions ,QVWDOOLQJ D 7RS +LQJH Figure 2-2 shows how to mount a top hinge on a door:

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Installing a Cabinet Door

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,QVWDOOLQJ D %RWWRP +LQJH Figure 2-3 shows how to mount a bottom hinge on a door:

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1. Install the door alignment tabs (C) in the unused slots on the top and bottom of the backbox. (In Figure 2-4, the door mounts on the left, leaving unused slots on the right). Secure the alignment tab (C) to the stud (b) with nut provided.
2. Punch out the knockout for the door lock on the side opposite the hinge. 1RWH $OLJQPHQW WDEV NHHS WKH 3. Install the lock mechanism (Figure 2-5).
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,QVWDOOLQJ D ‘RRU /RFN Figure 2-5 shows how to install a door lock:

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Installing a Chassis (CAB-X3 Series Cabinets)

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This section contains instructions for installing a CHS-4 chassis (Figure 2-6) and a CHS-4L chassis (Figure 2-7) into a CAB-X3 cabinet.
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To install a CHS-4 chassis, follow these instructions: 1. Place the CHS-4 chassis over the screw mounts on the cabinet. 2. Connect a ground cable (PN 71033) to one of the screw mounts. 3. Secure the assembly with the two nuts provided. Repeat this step for each CHS-4 chassis in the cabinet.

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Use the CHS-4L chassis for mounting an AMG-1, FFT-7, or AA-30. To mount a CHS- 4L, follow the steps for installing a CHS-4 chassis.
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Mounting a Backbox (SBB-X3 and CAB-400AA)

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This section provides instructions for mounting an SBB-X3 or CAB-400AA backbox. Follow these guidelines when mounting a backbox:

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· Mount a backbox on a surface in a clean, dry, vibration-free area. Install the cabinet by following the instructions in Table 2-4.

· Locate the backbox so that the top edge is 66 inches above the surface of the finished floor.

· Mount the backbox using the four mounting holes in the back surface of the backbox.
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Step

Action

1

Remove the CPU board by loosening the four screws in the corners of the board.

(Two permanent standoffs support the CPU board in the center.)

2

Mark and pre-drill holes for the top two keyhole mounting bolts.

3

Install two upper fasteners in the wall so the screw heads protrude approximately

1/2”.

4

Using the keyholes, mount the backbox over the two screws.

5

Mark the two holes, remove the backbox and drill the mounting holes.

6

Mount the backbox, then install and tighten the remaining fasteners.

7

When the location is dry and free of construction dust, reinstall the CPU board.

Table 2-4 Mounting a Cabinet Backbox

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Mounting an MPS-400 Power Supply

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This section contains instructions for mounting an MPS-400 into a CAB-X3 (Figure 29 and Figure 2-10) and for mounting an MPS-400 into a CAB-400AA (Figure 2-11).
The MPS-400 mounting assembly consists of the MPS-400 module attached to mounting chassis. To install the MPS-400 into CAB-A3, CAB-B3, CAB-C3, or CAB-D3 cabinets, follow these steps.
1. Place the MPS-400 assembly into the cabinet so the MPS-400 chassis bracket engages the support bracket on the cabinet as shown in Figure 2-9:
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2. Secure the bottom of the MPS-400 to the bottom cabinet support with the mounting screws as shown in Figure 2-10:

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Mounting an MPS-400 Power Supply

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Figure 2-11 shows how to install an MPS-400PCA and two transformer assemblies into a CAB-400AA cabinet. To mount MPS-400PCA components, follow these steps:

Step

Action

1

Mount the MPS-400PCA PC board into the cabinet using the four mounting

screws.

2

Mount the two 100VA transformer assemblies to the cabinet using the four

mounting nuts and lockwashers.

3

Connect the transformer assembly wires to plugs P1 and P2 on the MPS-400PCA

PC board.

Figure 2-11 shows how to mount an MPS-400 to a CAB-400AA cabinet:
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Mounting an Optional AVPS-24 Power Supply

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You can mount an AVPS-24 into a CAB-X3 series cabinet (on a CHS-4 or CHS-4L chassis) or in the upper right corner of a CAB-400AA. A CRM-4, a ICM-4, a DCM-4, or a VCM-4 can mount above the AVPS-24 as long as you do not use an expander module (CRE-4, ICE-4, or VCE-4).
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To mount an AVPS-24, refer to Figure 2-12 and follow these steps:

Step

Action

1

Place the AVPS-24 module onto the screw mounts on the CHS-4 or CHS-4L

chassis as shown in Figure 2-12.

2

Install the two mounting nuts.

3

Tighten the mounting nuts until the module is secure.

Figure 2-12 shows how to mount an AVPS-24 onto a CHS-4L chassis:

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Installing an Auxiliary Relay Module (ARM-4)

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The ARM-4 module can be driven by a CRM-4 or a CRE-4. Each ARM-4 can support one CRM-4 or one CRE-4. If using auxiliary relays for both modules, mount two ARM-4s in separate positions. Place the ARM-4 against the CHS-4 chassis in any one of eight positions relative to the CRM-4 or CRE-4 (Figure 2-13). You can also install the ARM-4 directly below the CRM-4 or CRE-4. Select a position on the CHS-4 chassis for the ARM-4:
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1. Select a mounting position for the ARM-4 module on the CHS-4 chassis. 2. Secure the two loose standoffs to the screw mounts on the CHS-4 chassis at the
selected location for the ARM-4. Make sure to install existing standoffs in the locations shown in Figure 2-14:

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3. Position the ARM-4 module over the existing standoffs on the chassis; then, fasten the ARM-4 module to the chassis with the two module retaining screws as shown in Figure 2-14.

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Installing an Auxiliary Relay Module (ARM-4)
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1. Connect one end of the ARM-4 cable to plug P1 on the ARM-4 (Figure 2-15). 2. Connect the other end of the ARM-4 cable to jumper JP5 on the CRM-4 or CRE-4
driving the ARM-4 module (Figure 2-15):

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Connecting the MPS-400 Power Cables

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MPS-400 electrical connections include the following:

· Primary AC power source ­ 120 VAC, 50/60 Hz, 3.0 A or 240 VAC, 50/60 Hz, 1.5 A from line voltage source.

· Secondary power source ­ 24 VDC from batteries, installed in the control panel (or in an optional battery cabinet), provides backup power if the system loses primary power. Secondary (battery) power is required to support the system during loss of primary power.

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Connect primary power to the MPS-400 as follows:

Step Action

1

Set the Voltage Select Switch (S9 on the MPS-400) to match the incoming AC line

voltage (120 VAC or 230 VAC).

2

Turn off the breaker at the main power distribution panel and remove the plastic

insulating cover from TB1.

3

Connect the system primary power source.

4

Connect the service ground to TB1-3 (labeled EARTH).

5

Connect the primary Neutral line to TB1-2 and the primary Hot line to TB1-4

(marked HOT).

6

When finished making connections, reinstall the plastic insulating cover over TB1

(Switch S9 on the MPS-400).

Table 2-5 Connecting AC (Primary) Power

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Install batteries in the control panel cabinet or in a separate battery cabinet which can be mounted up to 20 feet away from the control panel.

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Connect the battery as follows:

Step

Action

1

Connect the battery positive terminal to TB1 terminal 6 (+).

2

Connect the battery negative terminal to TB1 terminal 7 (­).

Table 2-6 Connecting Batteries

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Connecting the MPS-400 Power Cables

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MPS-400 TB2 terminals TB2-5 (+) and TB2-6 (­) provide up to 1.25 A of current for four-wire smoke detectors. A system reset removes the 24 VDC power from MPS-400 TB2. 24 VDC low-noise four-wire smoke detector power is power-limited but must be supervised. To provide supervision, install an end-of-line listed power supervision relay. Connect the power supervision relay in series with an Initiating Device Circuit (IDC). The four-wire power circuit energizes the power supervision relay.

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TB2 terminals TB2-1 (+) and TB2-2 (­) provide up to 1.25 A of nonresettable lownoise current for powering notification appliances. TB2 terminals TB2-3 (+) and TB2-4 (­) also provide 1.25 A of nonresettable low-noise current. TB2 terminals TB2-5 (+) and TB2-6 (­) provide 1.25 A of resettable power.

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Power ACS annunciators from the four-wire smoke detector outputs, or from one of the NAC power outputs. All outputs provide the filtered, low-noise, power- limited source required by the annunciators. The power run to the annunciators is supervised by the annunciator (for a Loss of Communications error). Annunciator wiring must run separate from NAC wiring. You can use any of the NAC outputs, but do not connect an NAC to the output selected for powering the annunciators.

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Make system connections as follows as shown in Table 2-7:

For…

Connect…

Internal system power AMG-1 power
Signaling between the CPU and the MPS

The power harness (75396 for CAB-400AA/75395 for CAB 3 series) from J6 on the MPS to J6 on the CPU.
A power harness from J1 on the MPS to P1 on the AMG-1. You can feed this same power to other boards or modules that require internal power.
A power ribbon (75398 for CAB-400AA/75394 for CAB 3 series) to J2 on the MPS.

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Table 2-7 System Harness Connections
Figure 2-16 contains a block diagram that shows system power connections between the MPS-400 and AFP-300/AFP-400 system components:

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Installing Expander Row Ribbon Cables for Panel Modules

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Expander Row Ribbon Cables (PN 71088) connect panel modules (ICM-4, CRM-4, VCM-4) to the CPU. Figure 2-17, Figure 2-18, and Figure 2-19 show typical wiring connections using Row Ribbon Cables.
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Figure 2-17 shows typical wiring connections using Expander Row Ribbon Cables to connect the CPU to two rows of panel modules. In Figure 2-17, P indicates a panel module. For example, P1.1 indicates panel module 1, circuit number 1.

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Installing Expander Row Ribbon Cables for Panel Modules
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Figure 2-18 shows typical wiring connections to connect the CPU to two rows of panel modules.
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Installing Expander Row Ribbon Cables for Panel Modules

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Figure 2-19 shows typical wiring of the CPU to a row of panel modules:
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Installing the CPU

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To install the CPU into a chassis, follow these steps.
1. Insert the two tabs of the CPU module into the two left-most chassis slots, angling the front end of the module into position as in Figure 2-20:

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2. Push the back end of the module down into the cabinet and pull down until the upper board engages the slots on the chassis as shown in Figure 2-21:
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3. Align the module screws with the thread-holes on the chassis and secure in place.

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Installing the CPU

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Connect the CPU to the MPS-400 using the Power Harness and the Power Ribbon Cable as shown in Figure 2-22:

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Mounting Expander Modules (CRE-4, ICE-4, VCE-4)

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Table 2-8 contains illustrations and instructions for mounting an expander module to a CRM-4, ICM-4, or VCM-4 module:

Step

Action

1

Remove one module support screw

and set it aside for later use.

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2

Replace the module support screw

with one module standoff.

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3

Repeat Steps 1 and 2 for the three remaining module support screws.

4

Insert pins on the Expander Module

into connector on the module. Make

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sure the pins are in line; then, press

the two boards together until the

boards snap into place.

0RGXOH

5

Install the four module support

screws (removed earlier) through the

back of the Expander Module and 0RGXOH VXSSRUW

into the standoffs.

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Table 2-8 Installing an Expander Module
AFP-300/AFP-400 Installation PN 50253:C1 05/22/97
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Mounting Panel Modules (CRM-4, ICM-4, VCM-4) onto a Chassis

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To install a module onto a CHS-4 chassis, follow these steps.
1. Angle the module into the chassis so that the upper board edge slips into the chassis slots as shown in Figure 2-23:

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2. Push the upper end of the module into the slots in the chassis. Secure the module to the chassis with the two module screws (Figure 2-24).
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Installing a 4XTM Module (Remote Station Fire Alarm)

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Install the 4XTM module by following these steps:

Step Action

1

Install the standoffs (provided) into the holes next to TB1 on the MPS-400 board.

2

Carefully align the pins on the MPS-400 PC board with the connector on the 4XTM

board.

3

Press firmly on the 4XTM board until the board locks in place on the standoffs.

4

Screw the 4XTM board to the standoffs.

Table 2-9 Mounting a 4XTM Module Figure 2-25 shows where to mount a 4XTM module on the MPS-400 board:

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Electrical requirements for local energy municipal Box service (NFPA 72-1993 Auxiliary Protective Fire Alarm System) are:

Supervisory current

5.0 mA

Trip current Coil voltage

0.35 A (subtracted from NAC power) 3.65 VDC

Coil resistance

14.6 ohms

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Electrical requirements for remote station service (NFPA 72-1993 Remote Station Protective Fire Alarm System) are:

Wire resistance (panel and trip coil)

Maximum of 3.0 ohms

Maximum load for each circuit

10 mA

Reverse polarity output voltage

24 VDC (nominal) 28 VDC (max)

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Installing a 4XTM Module (Remote Station Fire Alarm)

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Push the Disconnect Switch (Figure 2-26) down to prevent unwanted activation of the Municipal Box during testing of the control panel.
· The 4XTM Disconnect LED lights while the Municipal Box is disconnected; and
· The CPU System Trouble LED lights to indicate disconnected and/or open circuit conditions on the Municipal Box.
During trouble conditions, you can transmit a trouble indication through an open circuit signal on the Alarm Reverse-Polarity output. Do this by cutting the TBL jumper (Figure 2-26). Figure 2-26 shows connections to the 4XTM with polarities shown in the activated position:

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Installing a UZC-256 Module

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You can mount the UZC-256 into a CAB-X3 or a CAB-400AA. This section shows how to install the UZC-256 both ways. For information on configuring the UZC-256 module, refer to Section 5, “Applications.”

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The UZC-256 mounts beneath the third and fourth modules on the CHS-4 chassis, to the right of the CPU. Install the module as follows:

1. Thread the supplied three hex standoffs to the mounting studs on the CHS-4 chassis (Figure 2-27).

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2. Place the module onto the CHS-4 as shown in Figure 2-27; then, insert and tighten the mounting screws.
You can also mount the module to the upper right corner of the CAB-400AA Series cabinet as follows:
1. Place the module into the CAB-400AA as shown in Figure 2-28.

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2. Attach the module to the CAB-400AA with the self-tapping screws.

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Field-Wiring the Modules

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This section contains instructions for the following: · Notification Appliance Circuit (NAC) Wiring · Field-wiring a ICM-4 and an ICE-4 (NFPA Style Y and Z) · Field-wiring a CRM-4 and the CRE-4 · Field-wiring the MPS-400 Power Supply · Field-wiring an ARM-4

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The total current available from any group of Notification Appliance Circuits (NACs) cannot exceed the following: · 3.0 A when powered from the AVPS-24; or · 1.25 A when powered from an MPS-400 output. Figure 2-29 shows the bottom wire connections of the ICM-4 and the ICE-4 modules:

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Figure 2-30, Figure 2-31, Figure 2-32, Figure 2-33, and Figure 2-34 show typical power supply (MPS-400 and AVPS-24) to NAC configurations.

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Figure 2-31 shows a block diagram that uses four NACs:

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Field-Wiring the Modules

Figure 2-32 shows a block diagram that uses four NACs:

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Figure 2-33 shows typical NAC configurations using AVPS-24 power supplies:

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Figure 2-34 shows a block diagram that uses two AVPS-24 power supplies to power an

ICM-4 or ICE-4). If doing this, cut jumpers JP1 and JP2 located above J5 and J6:

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Field-Wiring the Modules

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Guidelines for field-wiring include the following:
· Notification Appliance Circuits (NACs) are supervised, power-limited, and can connect to an energy-limited cable.
· Use only the compatible, UL-listed notification appliances listed in the Device Compatibility Document.
· Wire notification appliances according to the manufacturer’s instructions.
· Maximum current per circuit is 3.0 A. Maximum current per module depends on the type of power supply (MPS-400 or AVPS-24).
· Canadian installations require model N-ELR End-of-Line Resistor Assembly (Style Y only).
· Size NAC wiring so the voltage drop does not exceed the minimum rated voltage of the notification appliance used as the last device on the circuit.
· For zone coded applications, refer to the UZC-256 manual.
· The ICM-4 is California Code programmable (microprocessor Rev. B or higher). To program for California Code, cut diode D35.

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Positions E, F, G, and H are active only with the ICE-4 installed. You can also install a CRE-4 module on the ICM-4, connected as shown in Figure 2-36:

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Field-Wiring the Modules
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· These Form-C silver alloy relay contacts are for medium duty switching or pilot duty (Figure 2-37).
· UL contact ratings are 5 A @ 125 VAC (resistive) or 30 VDC (resistive) and 2 A @ 125 VAC (inductive). For more information, refer to Appendix F, UL Power- limited Wiring Requirements.
· Activation of a CRM-4 or CRE-4 relay occurs automatically when an alarm is detected on a selected (programmed) Initiating Device Circuit.
· Positions E, F, G, and H are active only with the CRE-4 board installed. Figure 2-37 shows typical connections for field-wiring a CRM-4/CRE-4 module:
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Field-Wiring the Modules

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This section covers wiring an AVPS-24. Use TB2 terminals for a power circuit run to CMX control modules. Table 2-10 lists connections between the AVPS-24 and the MPS-400. For wiring, see Figure 2-38, Figure 2-39, or both.

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AVPS-24 Pin

Function

Connect to MPS-400…

TB1-1

Earth ground in

Chassis or earth ground terminal

TB1-2

Secondary power (24 VDC) positive (+) connection TB1-6 (+)

TB1-3 TB1-4 TB1-5 TB1-6

Secondary power (24 VDC) negative (­) connection Primary power (120 VAC) neutral connection Primary power (120 VAC) hot connection Earth ground out

TB1-7 (­) TB-2 (neutral) TB1-4 (hot) TB1-3 (earth ground)

Table 2-10 AVPS-24 to MPS-400 Connections
Plug the Auxiliary Bell Power Harness to the connector J5 on the ICM-4 or the ICE-4 NAC modules as shown in Figure 2-38:

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Figure 2-39 shows a block diagram for connecting or changing multiple AVPS-24 power supplies:

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Field-Wiring the Modules

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This section shows how to wire initiating devices which require 24 VDC operating power. Figure 2-41 shows wiring for Style D connections and Figure 2-42 shows wiring for Style B connections.

1. Connect the Power Supervision Relay coil (A77-716B) leads to the last detector base 24 VDC screw terminal.

2. Calculate the maximum allowable resistance in the 24 VDC detector power wiring as follows:

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References

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