BP/N 52282:B ECN 07-201

Document 5228206/26/09 Rev:

Analog Addressable PanelPanelPanelPanel

SLCWiring Manual

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ershly.Important LimitationsWhile a fire alarm system may lower insurance rates,it is not a substitute for fire insurance!An automatic fire alarm system- typically made up ofsmoke detectors, heat detectors, manual pull stations,audible warning devices, and a fire alarm control panel withremote notification capability - can provide early warning ofa developing fire. Such a system, however, does notassure protection against property damage or loss of liferesulting from a fire. The Manufacturer recommends that smoke and/or heatdetectors be located throughout a protected premisefollowing the recommendations of the current edition of theNational Fire Protection Association, Standard 72 (NFPA72), manufacturers recommendations, State and localcodes, and the recommendations contained in the Guidefor Proper Use of System Smoke Detectors, which aremade available at no charge to all installing dealers. Thesedocuments can be found at http://www.systemsensor.co/html/applict.html. A study by the Federal EmergencyManagement Agency (an agency of the United Statesgovernment) indicated that smoke detectors may not go offin as many as 35% of all fires. While fire alarm systems aredesigned to provide early warning against fire, they do notguarantee warning or protection against fire. A fire alarmsystem may not provide timely or adequate warning, orsimply may not function, for a variety of reasons.Smoke Detectors may not sense fire where smoke cannotreach the detectors such as in chimneys, in or behindwalls, on roofs, or on the other side of closed doors. Smokedetectors also may not sense a fire on another level or floorof a building. A second-floor detector, for example, may notsense a first-floor or basement fire.Particles of combustion or smoke from a developingfire may not reach the sensing chambers of smokedetectors because: Barriers such as closed or partially closed doors,

walls, or chimneys may inhibit particle or smoke flow. Smoke particles may become cold, stratify, and not

reach the ceiling or upper walls where detectors are located.

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

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

The amount of smoke present may be insufficient toalarm smoke detectors. Smoke detectors are designed toalarm at various levels of smoke density. If such densitylevels are not created by a developing fire at the location ofdetectors, the detectors will not go into alarm.Smoke detectors, even when working properly, havesensing limitations. Detectors that have photoelectronicsensing chambers tend to detect smoldering fires betterthan flaming fires, which have little visible smoke.Detectors that have ionizing-type sensing chambers tendto detect fast-flaming fires better than smoldering fires.Because fires develop in different ways and are oftenunpredictable in their growth, neither type of detector isnecessarily best and a given type of detector may notprovide adequate warning of a fire.

Smoke detectors cannot be expected to provide adequwarning of fires caused by arson, children playing wmatches (especially in bedrooms), smoking in bed, violent explosions (caused by escaping gas, improstorage of flammable materials, etc.).Heat detectors do not sense particles of combustion alarm only when heat on their sensors increases apredetermined rate or reaches a predetermined leRate-of-rise heat detectors may be subject to redusensitivity over time. For this reason, the rate-of-feature of each detector should be tested at least once year by a qualified fire protection specialist. Heat detecare designed to protect property, not life.IMPORTANT! Smoke detectors must be installed in same room as the control panel and in rooms used by system for the connection of alarm transmission wircommunications, signaling, and/or power. If detectors not so located, a developing fire may damage the alasystem, crippling its ability to report a fire.Audible warning devices such as bells may not apeople if these devices are located on the other sideclosed or partly open doors or are located on another fof a building. Any warning device may fail to alert peowith a disability or those who have recently consumdrugs, alcohol or medication. Please note that: Strobes can, under certain circumstances, cause

seizures in people with conditions such as epilepsy Studies have shown that certain people, even when

they hear a fire alarm signal, do not respond or comprehend the meaning of the signal. It is the property owners responsibility to conduct fire drillsand other training exercise to make people aware ofire alarm signals and instruct them on the proper reaction to alarm signals.

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

A fire alarm system will not operate without any electrpower. If AC power fails the system will operate frstandby batteries only for a specified time and only if batteries have been properly maintained and replaregularly.Equipment used in the system may not be techniccompatible with the control panel. It is essential to use oequipment listed for service with your control panel.Telephone lines needed to transmit alarm signals frompremise to a central monitoring station may be ouservice or temporarily disabled. For added protecagainst telephone line failure, backup radio transmisssystems are recommended.The most common cause of fire alarm malfunctioninadequate maintenance. To keep the entire fire alasystem in excellent working order, ongoing maintenancrequired per the manufacturers recommendations, andand NFPA standards. At a minimum, the requirementsNFPA 72 shall be followed. Environments with laamounts of dust, dirt or high air velocity require mfrequent maintenance. A maintenance agreement shobe arranged through the local manufacturrepresentative. Maintenance should be scheduled mont2 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 3

Installation PrecautionsAdherence to the following will aid in problem-freeinstallation with long-term reliability:WARNING - Several different sources of power can beconnected to the fire alarm control panel. Disconnect allsources of power before servicing. Control unit andassociated equipment may be damaged by removingand/or inserting cards, modules, or interconnectingcables while the unit is energized. Do not attempt toinstall, service, or operate this unit until manuals are readand understood. CAUTION - System Re-acceptance Test afterSoftware Changes: To ensure proper system operation,this product must be tested in accordance with NFPA 72after any programming operation or change in site-specific software. Reacceptance testing is required afterany change, addition or deletion of system components,or after any modification, repair or adjustment to systemhardware or wiring. All components, circuits, systemoperations, or software functions known to be affectedby a change must be 100% tested. In addition, to ensurethat other operations are not inadvertently affected, atleast 10% of initiating devices that are not directlyaffected by the change, up to a maximum of 50 devices,must also be tested and proper system operationverified.This system meets NFPA requirements for operation at0-49 C/32-120 F and at a relative humidity 93% 2%RH (non-condensing) at 32 C 2 C (90 F 3 F).However, the useful life of the systems standby batteriesand the electronic components may be adverselyaffected by extreme temperature ranges and humidity.Therefore, it is recommended that this system and itsperipherals be installed in an environment with a normalroom temperature of 15-27 C/60-80 F.Verify that wire sizes are adequate for all initiating andindicating device loops. Most devices cannot toleratemore than a 10% I.R. drop from the specified devicevoltage.Follow the instructions in the installation, operating,and programming manuals. These instructions must befollowed to avoid damage to the control panel andassociated equipment FACP operation and reliabilitydepend upon proper installation.

SurvivabilityPer the National Fire Alarm Code, NFPA 72, all circuitsnecessary for the operation of the operation of thenotification appliances shall be protected until they enterthe evacuation signaling zone that they serve. Any of thefollowing methods shall be considered acceptable asmeeting these requirements:1) A 2-hour rated cable or cable system2) A 2-hour rated enclosure3) Performance alternatives approved by Authority Having Jurisdiction (AHJ).

Like all solid state electronic devices, this systemmay operate erratically or can be damaged whensubjected to lightning induced transients. Although nosystem is completely immune from lightning transientsand interference, proper grounding will reducesusceptibility. Overhead or outside aerial wiring is notrecommended, due to an increased susceptibility tonearby lightning strikes. Consult with the TechnicalServices Department if any problems are anticipated orencountered.

Disconnect AC power and batteries prior to removingor inserting circuit boards. Failure to do so can damagecircuits.

Remove all electronic assemblies prior to any drilling,filing, reaming, or punching of the enclosure. Whenpossible, make all cable entries from the sides or rear.Before making modifications, verify that they will notinterfere with battery, transformer, or printed circuit boardlocation.Do not tighten screw terminals more than 9 in-lbs.Over-tightening may damage threads, resulting inreduced terminal contact pressure and difficulty withscrew terminal removal.

This system contains static-sensitive components.Always ground yourself with a proper wrist strap beforehandling any circuits so that static charges are removedfrom the body. Use static suppressive packaging toprotect electronic assemblies removed from the unit.

Precau-D2-8-2008

FCC WarningWARNING: This equipment generates, uses, and canradiate radio frequency energy and if not installed andused in accordance with the instruction manual maycause interference to radio communications. It has beentested and found to comply with the limits for Class Acomputing devices pursuant to Subpart B of Part 15 ofFCC Rules, which is designed to provide reasonableprotection against such interference when devices areoperating in a commercial environment. Operation of thisequipment in a residential area is likely to causeinterference, in which case the user will be required tocorrect the interference at his or her own expense.

Canadian RequirementsThis digital apparatus does not exceed the Class A limitsfor radiation noise emissions from digital apparatus setout in the Radio Interference Regulations of theCanadian Department of Communications.

Le present appareil numerique nemet pas de bruitsradioelectriques depassant les limites applicables auxappareils numeriques de la Classe A prescrites dan leReglement sur le brouillage radioelectrique edicte par leministere des Communications du Canada.

Gamewell-FCI, Velociti, and E3 Series are registered trademarks of Honeywell International Inc. Echelon is a registered trademark andLonWorks is a trademark of Echelon Corporation. ARCNET is a registered trademark of Datapoint Corporation. Microsoft and Windows areregistered trademarks of the Microsoft Corporation. 2008 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited.

4 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Software DownloadsIn order to supply the latest features and functionality in fire alarms and life safety technology to our customers, we makefrequent upgrades to the embedded software in our products. To ensure that you are installing and programming the latestfeatures, we strongly recommend that you download the most current version of software for each product prior tocommissioning any system. Contact Technical Support with any questions about software and the appropriate version fora specific application.

Documentation FeedbackYour feedback helps us keep out documentation up-to-date and accurate. If you have any comments or suggestions aboutour online Help or printed manuals, you can email us.Please include the following information: Product name and version number (if applicable) Printed manual or online Help Topic Title (for online Help) Page number (for printed manual) Brief description of content you think should be improved or corrected Your suggestion for how to correct/improve documentationSend email messages to: FireSystems.TechPubs@honeywell.comPlease note this email address is for documentation feedback only. If you have any technical issues, please contactTechnical Services

Table of ContentsSection 1 Introduction ......................................................................................................7

1.1: Scope.................................................................................................................................................... 71.2: Overview.............................................................................................................................................. 71.3: Polling Protocols.................................................................................................................................. 71.4: Input Devices ....................................................................................................................................... 7

1.4.1: Addressable Monitor Modules .................................................................................................. 71.4.2: Multi-input Transponder Modules............................................................................................. 81.4.3: Manual Pull Stations.................................................................................................................. 8

1.5: Output Devices .................................................................................................................................... 81.5.1: Control Modules ........................................................................................................................ 81.5.2: Relay Modules........................................................................................................................... 81.5.3: Multi-output Transponder Modules........................................................................................... 8

1.6: Detectors .............................................................................................................................................. 91.6.1: Isolator Modules ........................................................................................................................ 91.6.2: Plug-in Detector Bases .............................................................................................................. 91.6.3: Analog Addressable Detectors .................................................................................................. 9

1.7: Reference Documentation ................................................................................................................. 101.8: SLC Capacity....................................................................................................................................... 111.9: SLC Performance................................................................................................................................. 11

Section 2 Wiring Requirements .......................................................................................122.1: Recommended SLC Wiring ................................................................................................................ 122.2: Two-Wire SLC - Style 4 (Class B) ...................................................................................................... 12

2.2.1: Measuring Circuit Resistance.................................................................................................... 122.2.2: Measuring Total Wire Length ................................................................................................... 12

2.3: Four-Wire SLC Style 6 & 7 (Class A)................................................................................................. 132.3.1: Measuring Circuit Resistance.................................................................................................... 132.3.2: Measuring Total Wire Length ................................................................................................... 13

2.4: SSM Terminal Blocks.......................................................................................................................... 142.4.1: SSM610-2/4............................................................................................................................... 142.4.2: SSM-2/2E .................................................................................................................................. 152.4.3: IF602SS .................................................................................................................................... 15

Section 3 SLC Circuits with Isolators .............................................................................163.1: Overview.............................................................................................................................................. 163.2: Fault Isolator Module - M500X........................................................................................................... 16

3.2.1: Wiring an Isolator Module ........................................................................................................ 163.3: Isolator Detector Bases ........................................................................................................................ 17

3.3.1: How an Isolator Base Works ..................................................................................................... 173.4: NFPA Style 4 SLC Using M500X Modules ........................................................................................ 183.5: NFPA Style 6 SLC Using M500X Modules ....................................................................................... 193.6: NFPA Style 7 SLC Using an Isolating Device .................................................................................... 20

Section 4 SLC Circuits without Isolators ........................................................................214.1: Overview.............................................................................................................................................. 214.2: NFPA Style 4 SLC ............................................................................................................................... 214.3: NFPA Style 6 SLC ............................................................................................................................... 22

Section 5 Monitor Modules ..............................................................................................235.1: Description........................................................................................................................................... 23

5.1.1: AMM-4F Monitor Module ........................................................................................................ 235.1.2: AMM-2IF Dual Monitor Module .............................................................................................. 235.1.3: AMM-4SF Monitor Module...................................................................................................... 235.1.4: AMM-2F Monitor Module ........................................................................................................ 23

5.2: Setting an SLC Address for a Module ................................................................................................. 24Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 5

Table of Contents5.3: AMM-4F Wiring Diagram: NFPA Style B IDC .................................................................................. 255.4: AMM-4F Wiring Diagram: NFPA Style D IDC.................................................................................. 265.5: AMM-2IF Wiring Diagrams NFPA Style B IDC ................................................................................ 275.6: AMM-4SF Wiring Diagrams: NFPA Style B IDC .............................................................................. 285.7: AMM-4SF Wiring Diagrams: NFPA Style D IDC .............................................................................. 29

Section 6 Control Modules ..............................................................................................306.1: Description........................................................................................................................................... 306.2: Installation............................................................................................................................................30

6.2.1: Setting an SLC address for AOM-2SF Modules ....................................................................... 306.2.2: Wiring a Notification Appliance Circuit (NAC) with AOM-2SF Modules ............................................................................................................................. 30

6.3: Wiring AOM-2SF Modules .................................................................................................................316.3.1: Wiring a Style Y NAC (Two-Wire) .......................................................................................... 316.3.2: Wiring a Style Z NAC (Four-Wire)...........................................................................................32

Section 7 Relay Module ....................................................................................................337.1: Description........................................................................................................................................... 337.2: Installation............................................................................................................................................33

7.2.1: Setting an SLC Address for the AOM-2RF Module ................................................................. 337.2.2: Wiring the AOM-2RF Module (Form-C Relay) ....................................................................... 33

Section 8 Intelligent Detector Bases ...............................................................................348.1: Description........................................................................................................................................... 348.2: Installation............................................................................................................................................34

8.2.1: Wiring a Detector Base.............................................................................................................. 348.2.2: Wiring an Isolator Base ............................................................................................................. 36

8.3: Wiring a Sounder Base......................................................................................................................... 378.4: Wiring a Relay Base............................................................................................................................. 37

8.4.1: Setting the Detector Address ..................................................................................................... 38

Section 9 Addressable Manual Pull Station ...................................................................399.1: Description........................................................................................................................................... 399.2: Installation............................................................................................................................................39

9.2.1: Setting an SLC address .............................................................................................................. 399.2.2: Wiring a Manual Pull Station .................................................................................................... 39

Appendix A Power Considerations .................................................................................40 A.1: Supplying Power to 24 VDC Detectors and NACs ........................................................................... 40A.2: Supervising 24 VDC Power................................................................................................................ 41

A.2.1: Power Supervision Relay.......................................................................................................... 41

Appendix B Compatibility of Panels and SLC Devices .................................................44B.1: Velociti Modules ................................................................................................................................. 44

Appendix C.1 Electrical Specifications ..........................................................................46Index ................................................................................................................................... 496 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Section 1 Introduction

1.1 ScopeThis document covers the installation and wiring of various Signaling Line Circuit (SLC) devices, when used with the following Gamewell-FCI Fire Alarm Control Panels:

IdentiFlex 602 Series IdentiFlex 610 IdentiFlex 632/654/658This document also provides basic information that applies to Gamewell-FCI signaling line circuits in general, such as the branch resistance measurements.

1.2 OverviewCommunication between the control panel and addressable monitor and control devices takes place via a Signaling Line Circuit (SLC), which can be wired to meet the requirements of NFPA Style 4, Style 6, or Style 7*. All panel wiring should be in accordance with Article # 760 of the National Electrical Code.

*Style 7 wiring requires the use of the M500X Fault Isolator Modules.

1.3 Polling Protocols Velociti is a patented system that greatly enhances the speed of communication between the analog addressable devices. Communication is in a grouped fashion. If one of the devices within the group has new information, the panel CPU stops the group poll and concentrates on single points.

1.4 Input Devices1.4.1 Addressable Monitor Modules

These modules allow the control panel to monitor entire circuits of conventional alarm initiating devices, such as manual pull stations, smoke sensors, heat sensors, waterflow and supervisory devices.

AMM-4F - Addressable Monitor Module A Class-B or Class-A fault tolerant initiating device circuit (IDC) for normally open contact fire alarm and supervisory devices, or either normally open or normally closed security devices.

AMM-2IF - Addressable Dual Monitor Module Provides two independent Class-B initiating device circuits (IDC) at two separate, consecutive addresses. Capable of monitoring normally open contact fire alarm and supervisory devices, or either normally open or normally closed security devices.

AMM-2F- Addressable Monitor ModuleProvides a Class-B initiating device circuit for normally open contact fire alarm and security devices. Can be installed in a single gang junction box directly behind the monitored unit without rigid mounting.

AMM-4SF - Addressable Monitor ModuleAllows addressable panels to interface and monitor two-wire conventional smoke sensors. Transmits status of one full zone of conventional sensors back to the control panel. Two-wire sensors being monitored must be UL-compatible with this module.

NOTE: See Section 2.4, SSM Terminal Blocks, on page 14 for basic panel-end SLC connections. Additional information about each control panel can be found in the respective installation manual. See Table 1.1 on page 10. Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 7

Introduction Output Devices1.4.2 Multi-input Transponder ModulesThe following modules combine multiple inputs into a single device.

MMI-10F - Multi-Mod Ten Input Monitor Module Supervises ten Class-B addressable Initiating Device Circuits (IDC) which monitor normally open contact initiating devices. Velociti capable multi-input transponder module; for use on the SLC. This module is capable of participating in degraded mode where supported by FACP. Each monitor operates independently from the others and has its own unique address.

MMI-6SF - Multi-Mod Six Zone Interface ModuleAllows an intelligent alarm system to monitor six zones of conventional two-wire sensors. Velociti capable multi-input transponder module; for use on the SLC.

For further information on these modules, see the installation document included with each.

1.4.3 Manual Pull StationsThe MS-7ASF is a single-action pull station that, when activated, provides an address and its location to the control panel. A status LED is visible through the door handle, and there is an addressable monitor module mounted inside the pull station to facilitate service and replacement. Velociti capable. The MS-7AF is a dual-action pull station.

1.5 Output Devices

1.5.1 Control ModulesThrough this addressable module, the control panel can selectively activate Notification Appliance Circuits (NAC). AOM-2SF - Addressable Output Relay Supervised Control Module

This module is used to switch an external power supply, which can be a separate DC power supply, to notification appliances. The AOM-2SF has two pairs of output termination points available for fault-tolerant wiring and a panel-controlled LED indicator.

When using the AOM-2SF Modules as a Notification Appliance Circuit (NAC), the circuit isolators must be installed in compliance with the Survivability from Attack requirements per the National Fire Alarm Code, NFPA 72.

1.5.2 Relay ModulesThis addressable module provides the control panel with a dry-contact output for activating a variety of auxiliary devices.

AOM-2RF - Addressable Output Relay Control ModuleAllows a compatible control panel to switch discrete contacts by code command. The relay contains two isolate sets of Form-C contacts, which operate as a DPDT switch and are rated in accordance with the table in the manual. Circuit connections to the relay contacts are not supervised by the module.

1.5.3 Multi-output Transponder ModulesThe following addressable modules combine multiple outputs in a single device.

MMO-6SF - Multi-Mod Six Signal Output Module Controls six Class-B or three Class-A NAC circuits. Velociti capable multi-output transponder module; for use on the SLC. Each module has terminals for connection to an external supply circuit for powering devices on its NAC. A short circuit protection monitor for each module protects the external power supply against short circuit conditions on the NAC.8 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Detectors Introduction MMO-6RF - Multi-Mod Relay Output Module; Controls six Form-C relays. Velociti capable multi-output transponder module; for use on the SLC.

1.6 Detectors

1.6.1 Isolator ModulesIsolator Modules permit a short-circuited section of the SLC to be fault isolated from the remainder of the SLC, allowing critical components to function in the event of a circuit fault. Isolator modules are required to meet the requirements of an NFPA Style 7 circuit.

M500X Style 7 Isolator Module

1.6.2 Plug-in Detector BasesPlug-in type bases provide a connection between the SLC and a variety of addressable sensors which are snapped into place. Use of standard and isolator bases depends upon which NFPA SLC style is required. Sounder and relay bases are similar to standard bases, but have sound or auxiliary relay capabilities.

Standard Base - Models (standard small diameter base) and ADB-FLF (standard large diameter base)

Filtrex Base - Model ADB-FILTREXF Isolator Base - Model B224BI isolator base Sounder Base - Models BH(2) (standard sounder base) and BHT(2) (base with temporal

sounder) Relay Base - Model B224RB relay base

1.6.3 Analog Addressable Detectors MCS-Acclimate (Acclimate) - multi-detector that combines a photoelectric sensing

chamber and fixed temperature heat detection (135F / 57.2C). Velociti capable. ASD-IL2F- addressable smoke sensor that incorporates an ionization sensing chamber.

Designed to provide open area protection. Velociti capable. ASD-PL2F - addressable smoke sensor that uses a photoelectric sensing chamber. Designed to

provide open area protection. Velociti capable. The ASD-PTL2F adds thermal sensors that will alarm at a fixed temperature of 135 F (57.2C).

ATD-L2F - Intelligent thermistor sensing circuit for fast response. Designed to provide open area protection with 50 foot spacing capability. A fixed temperature sensor with 135F (57.2C) fixed temperature alarm. Velociti capable. The ATD-RL2F incorporates a thermal rate of rise of 15F (8.3C). Velociti capable. The ATD-HL2F is a high temperature sensor with 190F (87.8C) fixed temperature alarm.

ADPF - Low-flow Photoelectric Duct Sensor, with extended speed range of 1004000 FPM (30.481219.2 MPM). ADPRF adds a relay.

ASD-FiltrexF - A special smoke sensor that provides early warning smoke detection in hostile environments where traditional smoke sensors are not practical. Velociti capable.

ABD-2F - Reflected Beam sensor; Long range projected beam smoke sensor provides open area protection. Consists of a transmitter/receiver unit and a reflector. The ABD-RT2F is the same as the ABD-2F, but comes with a test feature. The ABD-RT2F requires a separate 24V power supply.Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 9

Introduction Reference Documentation1.7 Reference Documentation The table below provides a list of documents referenced in this manual, as well as documents for selected other compatible devices. The document series chart provides the current document revision. A copy of this document is included in every shipment.

Table 1.1 Reference Documentation

Fire Alarm Control Panel (FACP) and Main Power

Supply Installation Description Document NumberIdentiFlex 602 Manual IdentiFlex 602SS Analog/Addressable FACP Manual 52358IdentiFlex 610 Manual IdentiFlex 610 FACP Manual GW71810IdentiFlex 632/654/658 Manual

600 Series Systems, Flex 624/628, 654 & 658 Conventional Analog/Addressable FACP Manual

GW72122

SLC DevicesASD-PL2F Analog Addressable Photoelectronic Smoke Sensor I56-3560-001R-AASD-PTL2F Analog Addressable Photoelectronic Smoke Sensor, with

Thermal SensingI56-3560-001R-A

MCS-ACCLIMATE Multi-Criteria Analog, Addressable Sensor I56-3560-001R_AASD-IL2F Analog, Addressable Ionization Smoke Sensor I56-3556-001R_AATD-L2F Addressable Thermal Sensor I56-3557-001R_A ATD-RL2F Addressable Thermal Sensor I56-3557-001R_AASD-FILTREXF Harsh Environment Analog Addressable Photoelectronic

Smoke SensorI56-2754-002R_A

ATD-HL2F Addressable Thermal Sensor I56-3557-001R_AM500X Style 7 Isolator Module I56-3557-001R_AADB-FLF Plug-In Detector Base I56-2753-001R_AADB-FILTREXF Detector Base for use with ASD-FiltrexF I56-2758-001R_A

Plug-In Detector Base I56-0357-008_RB224BI Plug-In Isolator Detector Base I56-0725-012RBH(2) Sounder Base I56-0491-007RBHT(2) Temporal Tone Sounder Base I56-1367-004RB224RB Plug-In Relay Detector Base I56-2815-000RADPF Analog Addressable Low Flow Duct Detector I56-2747-001R_AADPRF Analog Addressable Low Flow Duct Detector I56-2746-001R_AAMM-4F Addressable Monitor Module I56-3553-001_AAOM-2SF Addressable Output Relay Supervised Control Module I56-3550-001_AAMM-2F Addressable Monitor Module I56-3554-001_AAOM-2RF Addressable Output Relay Control Module I56-3551-002_AAMM-4SF Addressable Monitor Module I56-3552-002_AAMM-2IF Addressable Dual Monitor Module I56-2750-002_AMMI-10F Multi-Mod Ten Input Monitor Module I56-2743-001_AMMO-6RF Multi-Mod Relay Output Module I56-2739-002_AMMI-6SF Multi-Mod Six Zone Interface Module I56-2742-001_AMMO-6SF Multi-Mod Six Signal Output Module I56-7740-002_AABD-RT2F Single-Ended Reflected Type Beam Smoke Sensor I56-2741-001R_AABD-2F Single-Ended Reflected Type Beam Smoke Sensor I56-2741-001R_AMS-7ASF Non-Coded Fire Alarm Stations I56-3564-001_AMS-7AF Non-Coded Fire Alarm Stations I56-3564-001_A10 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

SLC Capacity Introduction1.8 SLC CapacityEach Velociti SLC is capable of supporting 99 sensors and 99 I/O module addresses.

1.9 SLC PerformanceSLC performance (Style 4, Style 6, or Style 7) depends on the configuration of the circuit and the components on the circuit.

Wiring style requirements are determined by national and local codes. Consult with the Authority Having Jurisdiction before wiring the SLC. See Section 2, Wiring Requirements, on page 12, for more information.

NOTE: SLC operation meeting Style 7 requirements isolates each addressable device on the SLC from faults that may occur on the SLC.Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 11

Section 2 Wiring Requirements

2.1 Recommended SLC Wiring 1. Total cable length per circuit: 12,000 feet maximum; including all Class B T-tap runs and Class A

returns.

2. Use unshielded twisted cable, even when in conduit.3. Unshielded twisted cable required on all open wiring runs involving 1,000 ft. or more.4. Avoid running circuits parallel with power wiring for any distance.5. Avoid running circuits parallel with cables having high switching rates.6. Avoid running circuits parallel with fluorescent fixtures.7. Avoid running signaling line circuits parallel with notification appliance circuit wiring.8. Shield notification appliance circuit wiring even if in conduit, if run together with signaling line

circuits.9. Maximum total conductor resistance (out and back) for a circuit is 25 ohms.10. Maximum total circuit capacitance is 1.0 F line to line and line to ground.

2.2 Two-Wire SLC - Style 4 (Class B)2.2.1 Measuring Circuit Resistance

T-tapping of the SLC wiring is permitted for two-wire Style 4 configurations. The total DC resistance from the control panel to each branch end cannot exceed 25 ohms. Measure DC resistance as detailed and shown below:

1. With power removed, short the termination point of one branch at a time and measure the DC resistance from the beginning of the SLC to the end of that particular branch.

2. Repeat this procedure for all remaining branches in the SLC.

In Figure 2.1, Branches A, B, and C all begin at the SLC terminal, even though Branch B is T-tapped.

Figure 2.1 Measuring DC Resistance of a Two-Wire SLC

2.2.2 Measuring Total Wire LengthThe total wire length of all combined branches of one SLC cannot exceed 25 ohms. Determine the total length in each SLC by summing all wire segments. In Figure 2.1, the picture on the right shows an SLC with 3 branches. Figure 2.2 shows the same SLC divided into segments. The total length of the SLC is determined by adding the lengths of Segment 1 + Segment 2 + Segment 3 + Segment 4 + Segment 5. No segment should be summed twice.

SLC-

mea

s5.cd

r SLC Out

Branch

Short Point SLC Terminal Block

L2 L1

Branch A Branch B Branch C12 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Four-Wire SLC Style 6 & 7 (Class A) Wiring Requirements

Figure 2.2 Measuring the Total Wire Length - Two-wire SLC

2.3 Four-Wire SLC Style 6 & 7 (Class A)2.3.1 Measuring Circuit Resistance

The total DC resistance of the SLC pair cannot exceed 25 ohms. Measure DC resistance as detailed and shown below.

1. Disconnect the SLC channel B (Out) and SLC channel A (Return) at the control panel.2. Short the SLC at the last device and measure the resistance at SLC Out. Record resistance and

remove the short. 3. Short the SLC at the first device and measure the resistance at SLC return. Record resistance

and remove the short.

The maximum DC resistance of the SLC is the higher of 2 and 3.

Figure 2.3 Measuring DC Resistance of a Four-Wire SLC

2.3.2 Measuring Total Wire LengthThe total wire length in a four-wire SLC cannot exceed the limits set forth in each systems instruction manual. Figure 2.4 identifies the output and return circuits from the SLC terminal on the SSM.

Branch A Branch B Branch C

SLC-

me

as2

.cd

r

SLC Terminal Block

Segment Two

Segment Five

Segment Three

Segment Four

Segment One

SLC-

me

as5

.cd

r

SLC Out

SLC Return

Short Point

SLC Return

SLC Out

STEP 2

STEP 3

First Device

Last Device

Last Device

First DeviceAnalog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 13

Wiring Requirements SSM Terminal Blocks

SLC4

Figure 2.4 Measuring the Wire Length Four-Wire SLC

2.4 SSM Terminal Blocks

2.4.1 SSM610-2/4

SLC channel B (output circuit)

SLC channel A (return circuit)

SLC Terminal Block

L2 L2R L1 L1R

4L2R

4L2

4L1

GN

D+

24

3L2

3L1

GN

D+

242L2

2L1

GN

D+

241L2

1L1

GN

D+

24

4L1R

GN

DR

+24

R

3L2R

3L1R

GN

DR

+24

R

2L2R

2L1R

GN

DR

+24

R

1L2R

1L1R

GN

DR

+24

R

SLC1

Lo

op2

Loop3

JP16JP15JP14JP13

JP12JP11JP10JP9

JP8JP7JP6JP5

JP4JP3JP2JP1

P1 P2

P3 P4

P5 P6 P7

P814 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

SSM Terminal Blocks Wiring Requirements2.4.2 SSM-2/2E

2.4.3 IF602SS

12

34

56

78

910

1112

1314

1516

12

34

56

78

910

1112

1314

1516

SSM-2E

SSM-2

+24

GND

3L1

3L2

+24R

GNDR

3L1R

3L2R

+24

GND

4L1

4L2

+24R

GNDR

4L1R

4L2R

+24

GND

1L1

1L2

+24R

GNDR

1L1R

1L2R

+24

GND

2L1

212

+24R

GNDR

2L1R

2L2R

Notes:1. For SLC 1: Jumpers JMP 1 - 4 must be installed for Class B

operation. Remove for Class A operation.2. For SLC 2: Jumpers JMP 5 - 8 must be installed for Class B

operation. Remove for Class A operation.

SLC 1 or

SLC 2Terminal # Designation Description

TB-5 1 +24V +24V Device poweror 2 GND +24V Device power common

TB-6 3 1L1 Addressable line (-)4 1L2 Addressable line (+)5 +24VR +24V Device power return6 GNDR +24V Device power return7 1L1R Addressable line (-) return8 1L2R Addressable line (+) return

TB5

TB6

SLC 1

SLC 2

12345678

12345678Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 15

Section 3 SLC Circuits with Isolators

3.1 OverviewThere are two isolator devices used to protect critical elements of the SLC from faults on other SLC branches or segments:

Fault Isolator Module M500X Isolator Detector Base B224BI

A Fault Isolator Module on both sides of a device, or the combination of an Isolator Base and Isolator Module are required to comply with NFPA Style 7 requirements.

3.2 Fault Isolator Module - M500X The module continuously monitors the circuit connected to the Terminals 3() and 4(+). Upon power-up, an integral relay is latched on. The module periodically pulses the coil of this relay. A short circuit on the SLC resets the relay. The module detects the short and disconnects the faulted SLC branch or segment by opening the positive side of the SLC (Terminal 4). This isolates the faulty branch from the remainder of the circuit preventing a communication problem with all other addressable devices on the remaining branches (labeled Continuation of the SLC in the figure below). During a fault condition, the control panel registers a trouble condition for each addressable device which is isolated on the SLC segment or branch. Once the fault is removed, the module automatically reapplies power to the SLC branch or segment.

3.2.1 Wiring an Isolator ModuleFigure 3.1 shows a Style 4 example for wiring of an Isolator Module:

Figure 3.1 Wiring the Isolator Module

! CAUTION: If the relay or sounder bases are not used, a maximum of 25 addressable devices can be connected between the Isolator Modules and/or Bases. When the relay or sounder bases are used, the maximum number of addressable devices that can be connected between the Isolators is reduced to seven. Due to the heavy current draw of the ASD-PTL2F Multi-Sensor Detector, the maximum number of these detectors that can be installed between the isolator modules is reduced to two (2). Isolator modules will not function properly when these limits are exceeded.

SLC Isolated branch of the SLC

SLC-

iso

wire

.cd

rContinuation of the SLC

OUT

OUT

IN

IN16 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Isolator Detector Bases SLC Circuits with Isolators3.3 Isolator Detector BasesIsolator detector bases prevent an entire signaling line circuit from being disabled when a short circuit occurs. This is accomplished by isolating that part of the circuit containing the short from the remainder of the circuit. These bases also automatically restore the entire circuit when the cause of the short circuit is corrected.

B224BI is an intelligent isolator base used with the Velociti detectors.

3.3.1 How an Isolator Base WorksIf a short circuit fault occurs at point X, devices A, B, C & detector 2 will cease to function and display a trouble warning at the control panel. Devices D, E, F & detectors 1, 3, 4, and 5 will remain normal as they are served by SLC Return.

If a short circuit fault occurs at point Y, all devices will continue to function.

If a short circuit fault occurs at point Z, only detector 4 will cease to function.

Figure 3.2 Isolator Base Circuit: Sample Style 6 Wiring

NOTE: For information on wiring an isolator base, refer the installation instructions for this device.

Non-Isolating DeviceIsolator Base

X

Z

SSM

SLC ReturnSLC Out

SLC-

iso

wo

rk.w

mf

Sensor 1 Sensor 2

Sensor 3Sensor 4

Sensor 5 Y

Short-circuit path

L2 L1 L2R L21Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 17

SLC Circuits with Isolators NFPA Style 4 SLC Using M500X Modules3.4 NFPA Style 4 SLC Using M500X ModulesA variation of a Style 4 operation using isolator modules to protect each branch of the SLC. Refer to Figure 3.1 on page 16 for M500X wiring and to Section 3.1, Overview for limitations.

Figure 3.3 NFPA Style 4 SLC Using Isolator Modules

Two-wire Addressable Detector

Addressable Pull Station

SLC-

style

4iso

.cd

r

SSML1 L2

Isolated Branch

M500X

M500X

M500X

Isolated Branch

Isolated Branch18 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

NFPA Style 6 SLC Using M500X Modules SLC Circuits with Isolators3.5 NFPA Style 6 SLC Using M500X Modules A variation of Style 6 operation using the isolator modules to protect a section of the SLC. By flanking each group of devices with the M500X fault isolator modules, each group is protected from faults that may occur in the other groups. For example, a fault in Section B will not affect Sections A & C. The isolator modules on either side of Section B will open the SLC. Section A will still operate from power on the SLC Outside and Section C will operate from the SLC Return side.

A combination of isolator modules and isolator bases may be used. T-tapping is NOT allowed within the Style 6 configuration. M500X modules shall be within 20 feet (6.1 meters) of device and the wire must be enclosed

in metal conduit.

Figure 3.4 NFPA Style 6 SLC Using M500X Modules

SLC Out SLC ReturnSL

C-st

yle6i

so.cd

r

SSM

L1 L2 L2R L1R

Two-wire Addressable Sensor

Addressable Pull Station

Section B

Section C

Section A

The first isolator module on SLC Out and SLC Return must be in conduit.

M500X M500X

M500X M500XAnalog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 19

SLC Circuits with Isolators NFPA Style 7 SLC Using an Isolating Device3.6 NFPA Style 7 SLC Using an Isolating DeviceStyle 7 operation requires using a combination of isolator detector bases and isolator modules or isolator modules before and after a non-isolator device. Flanking each device with an isolator provides fault protection to all other devices on the loop.

T-tapping is NOT allowed within the Style 7 wiring configuration. When a non-isolator base or pull station is used, install M500X modules on both sides of

devices. When an isolator base is used in conjunction with an isolator module, install M500X module

as shown in Figure 3.5. There must be a close-nipple connection between a device and the isolator bases or modules

that protect it.

Figure 3.5 NFPA Style 7 SLC

NOTE: For additional information, refer the installation instructions for this device.

3 43 4

3 43 4

3 4

1 3

3 4

1

2

3

SLC-

style

7iso

.cd

r

SLC Out SLC Return

AddressableSensor

Two-wire Isolator Sensor Base

Addressable Pull Station

SSM

The first isolator module on SLC Out and SLC Return must be connected within 20 feet (6.1 m) of the FACP enclosure in conduit.

M500X

M500X

M500X

M500X

M500X

M500X M500X

L1 L2 L2R L1R20 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Overview SLC Circuits without IsolatorsSection 4 SLC Circuits without Isolators

4.1 OverviewThis chapter concerns itself with the two styles of circuits that do not require isolation devices:

NFPA 72 Style 4 NFPA 72 Style 6

4.2 NFPA Style 4 SLCNFPA Style 4 requirements can be met by using the diagram below.

T-tapping of the SLC wiring is allowed for Style 4 configuration.

Figure 4.1 Basic NFPA Style 4 SLC

SLC-

style

4.cd

r

Two-wire Addressable Sensor

Addressable Module

T-tapped Circuits

SSML2 L1Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 21

SLC Circuits without Isolators NFPA Style 6 SLC4.3 NFPA Style 6 SLCNFPA Style 6 requirements can be met by using the diagram below.

Figure 4.2 Basic NFPA Style 6 SLC

NOTE: T-tapping of the SLC wiring is NOT allowed for Style 6 configuration.

SSM

Two-wire Addressable Sensor

Addressable Module

SLC-

style

6.cd

r

SLC Return

SLC Out

L2 L1 L1R L2R22 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Section 5 Monitor Modules

5.1 DescriptionThese addressable modules monitor conventional contact-type alarm initiating devices. You can configure module circuits as NFPA Style B (Class B) or Style D (Class A) Initiating Device Circuits (IDC). There is no limit to the number of contact-type devices installed on a monitor module IDC.

5.1.1 AMM-4F Monitor ModuleAn addressable module that monitors either a Style B (Class B) or Style D (Class A) IDC of dry-contact input devices. This module is capable of participating in degraded mode where supported by FACP.

5.1.2 AMM-2IF Dual Monitor ModuleSimilar to the AMM-4F, except intended for use in addressable two-wire systems providing two independent Style B (Class B) IDCs at two separate, consecutive addresses.

5.1.3 AMM-4SF Monitor ModuleSimilar to the AMM-4F, except it is used to monitor compatible two-wire, 24 volt, conventional (non-addressable) smoke detectors on a Style B (Class B) or Style D (Class A) IDC.

5.1.4 AMM-2F Monitor ModuleIntended to monitor a Style B (Class B) IDC, and offered in a smaller package for mounting directly in the electrical box of the device being monitored.

Figure 5.1 AMM-2F Module

NOTE: For more information on the individual module specifications, refer to the Installation Instructions that are provided with this device.

0 ADDRESS

SLC

1234

TENS ONES6789

5

0 1234

67895

AMM

-2F

.cd

r

Label Use to record the device address and SLC number.

Rotary Switches

IDC (+)Violet

IDC (-)Yellow

SLC (+)Red

SLC (-)BlackAnalog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 23

Monitor Modules Setting an SLC Address for a Module5.2 Setting an SLC Address for a ModuleControl or relay modules, as well as sensors, can be set to one of 99 addresses (01-99) and are factory preset with an address of 00.

To set an SLC address, use a screwdriver to adjust the rotary switches on the module to the desired address. The unit shown in Figure 5.2 is set at address 35. When finished, mark the address on the module face in the place provided.

Figure 5.2 Setting SLC Address on Module

GW

SLC-

seta

dd.cd

r

Rotary Switches24 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

AMM-4F Wiring Diagram: NFPA Style B IDC Monitor Modules5.3 AMM-4F Wiring Diagram: NFPA Style B IDCConnect the SLC wiring to the module Terminals 1 () and 2 (+). Each module takes one address on the SLC. Use the rotary switches on the module to set the SLC address.

Figure 5.3 shows typical wiring for a supervised and power-limited NFPA Style B (Class B) Initiating Device Circuit using the AMM-4F module.

See Appendix A, Power Considerations, on page 40 for information on supervising 24 VDC power.

Figure 5.3 Typical Style B IDC Wiring with AMM-4F

GW

SLC-

idcB

1.cd

r

47K ELR(supplied with module)

Heat detector

SLC

AMM-4F

IDC

24 VDC PowerFiltered, Regulated, Resettable

24 VDC Four-wire Detector Base

Manual pull station

From Supply

To Next IDC or

Supervision DeviceAnalog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 25

Monitor Modules AMM-4F Wiring Diagram: NFPA Style D IDC5.4 AMM-4F Wiring Diagram: NFPA Style D IDC Connect the SLC wiring to the module Terminals 1 () and 2 (+).Each module takes one address on the SLC. Use the rotary switches on the module to set the SLC address.

Figure 5.4 shows typical wiring for a supervised and power-limited NFPA Style D (Class A) IDC using the AMM-4F module.

See Appendix A, Power Considerations, on page 40 for information on supervising 24 VDC power.

Figure 5.4 Typical Style D IDC Wiring with AMM-4F

GW

SLC-

idcD

1.cd

r

24 VDC Four-wire Detector Base

Heat detector

SLC

AMM-4F

IDC Out

24 VDC PowerFiltered, Regulated, Resettable

IDC Return

From Supply

To Next IDC or Supervision Device

Manual pull station26 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

AMM-2IF Wiring Diagrams NFPA Style B IDC Monitor Modules5.5 AMM-2IF Wiring Diagrams NFPA Style B IDC Connect the SLC wiring to the module Terminals 1 () and 2 (+).Use the rotary switches on the module to set the SLC address. Each dual module takes two addresses on the SLC. Circuit L corresponds to the address set on rotary switches. Circuit H will automatically respond at the next higher address. The Circuit L base address is always an even number with a lowest possible address of 02; the Circuit H base + 1 address is always odd. Use caution to avoid duplicate addressing of modules on the system.

Each IDC (H & L) is power limited to 230 microamps @ 24 VDC.Figure 5.5 shows typical wiring for a supervised and power-limited NFPA Style B (Class B) Initiating Device Circuit using the AMM-2IF module.

Figure 5.5 Typical Style B IDC Wiring with AMM-2IF

GW

SLC-

idcB

3ZO

.cd

r

Heat Detector

Manual Pull Station

47K ELR

SLC

AMM-2IF

Circuit H

Circuit L

47K ELRAnalog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 27

Monitor Modules AMM-4SF Wiring Diagrams: NFPA Style B IDC5.6 AMM-4SF Wiring Diagrams: NFPA Style B IDC Connect the SLC wiring to the module Terminals 1 () and 2 (+). Each module takes one address on the SLC. Use the rotary switches on the module to set the SLC address.

Figure 5.6 shows typical wiring for a supervised and power-limited NFPA Style B (Class B) IDC using the AMM-4SF module.

Figure 5.6 Typical Style B IDC Wiring with AMM-4SF

SLC

IDC

GW

SLC-

idcB

2.cd

r

AMM-4SF

Two-wire smoke detectors 3.9K ELR(supplied with module)

90 mA External 24 volt supply required

24 VDC Resettable power 28 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

AMM-4SF Wiring Diagrams: NFPA Style D IDC Monitor Modules5.7 AMM-4SF Wiring Diagrams: NFPA Style D IDCConnect the SLC wiring to the module Terminals 1 () and 2 (+).Each module takes one address on the SLC. Use the rotary switches on the module to set the SLC address.

Figure 5.7 shows typical wiring for a supervised and power-limited NFPA Style D (Class A) IDC using the AMM-4SF module.

Figure 5.7 Typical Style D IDC Wiring with AMM-4SF

SLC

Two-wire smoke detectors

3.9K ELR(supplied with module)

IDC Out

AMM-4SF

GW

SLC-

idcD

2.cd

r

IDC Return

24 VDC Resettable power.

90 mA External24 volt supply requiredAnalog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 29

Control Modules DescriptionSection 6 Control ModulesWhen using a Control Module as a Notification Appliance Circuit (NAC), the isolation described in Section 3, SLC Circuits with Isolators, on page 16, is required or Riser Conductors must be installed in accordance with the survivability from attack by fire requirements in National Fire Alarm Code, NFPA 72.

6.1 DescriptionThe AOM-2SF module is an addressable module that can be used for monitoring and switching 24 VDC Notification Appliance Circuit (NAC) power for NFPA Style Y (Class B) and NFPA Style Z (Class A) circuits.

Note: For more information on module specifications, refer to the installation instructions provided with these devices.

6.2 Installation6.2.1 Setting an SLC address for AOM-2SF Modules

Each module is factory preset with an address of 00. To set an SLC address, refer to Section 5.2, Setting an SLC Address for a Module, on page 24.

6.2.2 Wiring a Notification Appliance Circuit (NAC) with AOM-2SF Modules

Figure 6.1 shows the connections to wire a module for powering a 24 VDC NAC.

Load Description Application Maximum Voltage Current RatingResistive Non-Coded 30 VDC 3.0 AResistive Coded 30 VDC 2.0 AResistive Non-Coded 110 VDC 0.9 AResistive Non-Coded 125 VAC (AOM-2SF)

70.7 VAC (MMO-6SF)0.9 A

Inductive (L/R = 5ms) Coded 30 VDC 0.5 AInductive (L/R = 2ms) Coded 30 VDC 1.0 AInductive (PF = 0.35) Non-Coded 125 VAC (AOM-2SF)

70.7 VAC (MMO-6SF)0.5A

SLC ()SLC (+)24 VDC Nonresettable Power ()*24 VDC Nonresettable Power (+)*

Style Z NAC ()Style Z NAC (+)Style Y/Z NAC (+)Style Y/Z NAC ()

AMM

-4F

.cd

r

Note: Module is shown in non-alarm condition.30 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Wiring AOM-2SF Modules Control ModulesFigure 6.1 AOM-2SF Wiring Connections

6.3 Wiring AOM-2SF ModulesThis section contains instructions and diagrams for wiring a Signaling Line Circuit with the AOM-2SF as a Notification Appliance Circuit (NAC).

6.3.1 Wiring a Style Y NAC (Two-Wire)A supervised and power-limited NFPA Style Y (Class B) NAC using the AOM-2SF module. Notification appliances are shown connected to the module in a two-wire configuration.

Figure 6.2 NFPA Style Y Notification Appliance Circuit

See Appendix A, Power Considerations, on page 40 for information on monitoring 24 VDC power.

Each module can control 2 amps of resistive load (on electronic devices) or 1 amp of inductive load (on mechanical bells and horns).

Do not T-Tap or branch a Style Y circuit. Terminate the circuit across the last device using a UL-listed End-of-Line Resistor 47K,

1/2-watt (SSD P/N A2143-00). Do not loop wiring under the screw terminals of any notification appliance. To maintain

supervision, break the wire run at each device.

ELR 47K, 1/2-watt

24 VDC Notification Appliances

AOM-2SF

SLC

NAC Out

24 VDC Nonresettable power

GW

SLC-

na

cY.cd

r

Module polarities are shown in Alarm.Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 31

Control Modules Wiring AOM-2SF Modules6.3.2 Wiring a Style Z NAC (Four-Wire)A supervised and power-limited NFPA Style Z (Class A) NAC using the AOM-2SF module. Notification appliances are shown connected to the module in a four-wire configuration.

Figure 6.3 NFPA Style Z Notification Appliance Circuit

See Appendix A, Power Considerations, on page 40 for information on supervising 24 VDC power.

Each module can control 2 amps of resistive load (on electronic devices) or 1 amp of inductive load (on mechanical bells and horns).

Do not T-Tap or branch a Style Z circuit. Do not loop wiring under the screw terminals of any notification appliance. To maintain

supervision, break the wire run at each device.

24 VDC notification appliances

NAC Out

24 VDC Nonresettable power

SLC

SLC-

na

cZ.cd

r

NAC Return

Module polarities are shown in Alarm.

AOM-2SF32 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 33

Description Relay Module

Section 7 Relay Module

7.1 DescriptionThe AOM-2RF module is an addressable module that provides two isolated sets of Form-C relay contacts.

Ratings for the dry relay contacts on a Form-C module are:

Resistive - 2 amps @ 30 VDC Inductive - 1 amp @ 30 VDC (0.6pF) Pilot Duty - 0.5 amp @ 125 VAC (0.35pF)

7.2 Installation

7.2.1 Setting an SLC Address for the AOM-2RF ModuleEach module is factory preset with an address of 00. To set an SLC address, refer to Section 5.2, Setting an SLC Address for a Module, on page 24.

7.2.2 Wiring the AOM-2RF Module (Form-C Relay)Figure 7.1 shows the AOM-2RF module wired to the Control Panel.

Figure 7.1 AOM-2RF Wiring Connections

NOTE: For more information on the module specifications, refer to the Installation Instructions provided with this device.

SLC

SLC-

frmC.

cdr

AOM-2RF

NO

CNC

NOC

NC

Intelligent Detector Bases DescriptionSection 8 Intelligent Detector Bases

8.1 DescriptionThe B501and SS-B6 Detector Bases provide the connection between the SLC and a variety of intelligent detectors. Use the SS-BF Detector Base with all SS-F Filtrex detectors.

8.2 Installation

8.2.1 Wiring a Detector BaseFigure 8.1 shows typical wiring of a B501 detector base connected to an SLC.

Figure 8.1 Wiring of a B501 Detector Base

NOTE: For more information refer to the Installation Instructions document provided with this device.

NOTE: The SS-B6 base wiring is identical to the B501, except there is no SHIELD terminal.

To next device on SLC

SLC

SLC-

B501

wire

.w

mf

For convenience, connect to cable shield segements.

RA400Z34 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Installation Intelligent Detector BasesFigure 8.2 shows typical wiring of a SS-BF detector base (for use with a SS-F Filtrex detector) connected to an SLC.

Figure 8.2 Wiring of a SS-BF Detector Base

SLCTo next device on SLC

Power to next device

B710

HD

.w

mf

For connection of cable shield

To compatible UL Listed Power Supply

RA400ZAnalog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 35

Intelligent Detector Bases Installation8.2.2 Wiring an Isolator BaseThe B224BI Isolator Base will isolate its detector from short circuits that occur on the SLC connected at terminals 3 and 2. It will not isolate its installed detector from short circuits that occur on the SLC connected at terminals 1 and 2. In Style 7 applications the loss of a single detector during a short circuit is not acceptable, and an isolator module must be installed as shown in Figure 8.3.

Figure 8.3 Wiring an Isolator Base

SLC In

SLC Out

SLC-

224B

Iwire

.w

mf

Conduit

SS-LIIsolator Module36 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Wiring a Sounder Base Intelligent Detector Bases8.3 Wiring a Sounder Base Figure 8.4 shows typical wiring of the B501BH sounder base.

Figure 8.4 Wiring of the BH501 Sounder Base

8.4 Wiring a Relay BaseFigure 8.5 shows typical wiring of a B224RB plug-in relay detector base connected to an SLC.

Figure 8.5 Wiring of a B224RB plug-in relay detector base

C073

2-00

.w

mf

SLC

b224

rb.w

mf

To next device on

SLCFor connection of cable shield

3 Relay Common1 Normally Closed2 Normally OpenAnalog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 37

Intelligent Detector Bases Wiring a Relay Base8.4.1 Setting the Detector AddressEach intelligent detector head is factory preset with an address of 00. To set an SLC address refer to Section 5.2, Setting an SLC Address for a Module, on page 24. 38 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 39

Section 9 Addressable Manual Pull Station

9.1 DescriptionThe MS-7ASF/SD is an addressable manual pull station with a key-lock reset feature.

9.2 Installation

9.2.1 Setting an SLC addressEach unit is factory preset with an address of 00. To set an SLC address, refer to Section 5.2, Setting an SLC Address for a Module, on page 24 .

9.2.2 Wiring a Manual Pull StationTypical wiring for the MS-7ASF/SD Manual Pull Station to an SLC.

Figure 9.1 Wiring the MS-7ASF/SD Pull Station to an SLC

NOTE: For more information, refer to the Installation Instructions document provided with this device.

+

+

US PAT 4440991

SLC

To next device on SLC

SLC-

nbg

12.cd

r

Power Considerations Supplying Power to 24 VDC Detectors and NACsAppendix A Power Considerations

A.1 Supplying Power to 24 VDC Detectors and NACsResistance and Size

To determine the maximum allowable resistance that can be tolerated in supplying power to 24 VDC four-wire devices and NACs, use the calculations below. These simplified equations assume that the devices are at the end of a long wire run. With the computed resistance and using the manufacturers specifications for the desired wire, select the proper gauge wire for the power run.

For Four-Wire Detectors:

For NACs:

Where:

The minimum supply voltages produced by Gamewell-FCI power supplies are listed below:

Table A.1 Minimum Supply Voltage

Rmax =(Vms - Vom)(N)(Is) + (Na)(Ia) + (Ir)

Rmax =(Vms - Vom)(Nb)(Ib)

Rmax = maximum resistance of the 24 VDC wiresVms = minimum supply voltage (see Table A.1 below)Vom = minimum operating voltage of the detector or end-of-line relay, whichever is greater, in voltsN = total number of detectors on the 24 VDC supply circuitIs = detector current in standbyNa = number of detectors on the 24 VDC power circuit which must function at the same time in

alarmIa = detector current in alarmIr = end-of-line relay currentNb = number of Notification Appliance DevicesIb = Notification Appliance current when activated

NOTE: This simplified equation assumes that the devices are at the end of a long wire run.

FACP VDC

IF-610 19.36

IF-632/654/658 18.9040 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Supervising 24 VDC Power Power ConsiderationsA.2 Supervising 24 VDC PowerThe are options for supervising 24 VDC power are described in Section A.2.1.

A.2.1 Power Supervision RelayPower used to supply 24 VDC detectors, notification appliances (using the AOM-2SF) and two wire detectors (using the AMM-4SF) can be supervised with a power supervision relay. This relay, energized by the 24 VDC power itself, is installed at the end of each respective power run and wired in-line with the supervised circuit of any intelligent module.

When power is removed from the relay, the normally closed contacts open the supervised circuit, generating a trouble condition. Therefore, the relay needs to be installed at the end of the supervised circuit, so as to not disrupt the operating capability of all the devices on that circuit. The relay can be installed in-line with any leg (+ or ) of the supervised NAC or IDC circuit, either a two or a four-wire style.

Figure A.2.1.1 illustrates this concept.

Figure A.2.1.1 Supervised 24 VDC Circuit

GW

SLC-

psr.

cdr

24 VDC Power from Control Panel or UL-listed compatible Power Supply

Power Supervision Relay(PAM-1)

Supervised NAC or IDCELR 39KAnalog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 41

Power Considerations Supervising 24 VDC PowerStyle Y NAC Power WiringProgram the NAC from the control panel for general alarm. (Refer to the programming manual or programming section of the FACP documentation for instructions.) Note that if the NAC is a coded output, the AOM-2SF module will be coded as well.

When using the AOM-2SF Modules as a Notification Appliance Circuit (NAC), the circuit isolators must be installed in compliance with the Survivability from Attack requirements per the National Fire Alarm Code, NFPA 72.

A separate 24V power supply is recommended for a group of control modules that comprise a notification zone.

In this circuit, an external ELR is required at end of the NAC circuit. Refer to the respective control panel installation manual for NAC terminal block connection

information and ELR value.

Connect the NAC power as follows:

Figure A.2.1.2 NFPA Style Y NAC Power (Alternate)

AOM-2SFSLC

GW

SLC-

nac

Y1.cd

r

End-of-line Resistor

NAC Terminal Block (24 VDC)

AOM-2SF42 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Supervising 24 VDC Power Power ConsiderationsStyle Z NAC Power WiringProgram the NAC from the control panel for general alarm. (Refer to the programming manual or programming section of the FACP documentation for instructions.) Note that if the NAC is a coded output, the AOM-2SF output will be coded as well.

When using the AOM-2SF Modules as a Notification Appliance Circuit (NAC), the circuit isolators must be installed in compliance with the Survivability from Attack requirements per the National Fire Alarm Code, NFPA 72.

A separate 24V power supply is recommended for a group of control modules that comprise a notification zone.

In this circuit, an external ELR is not required at the end of the NAC circuit. Refer to the respective control panel installation manual for NAC terminal block connection

information.

Connect the NAC power as follows:

Figure A.2.1.3 NFPA Style Z NAC Power (Alternate)

SLCAOM-2SF

GW

SLC-

na

cZ1.

cdr

NAC on Control Panel or Module

AOM-2SFAnalog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 43

Compatibility of Panels and SLC Devices Velociti ModulesAppendix B Compatibility of Panels and SLC Devices

B.1 Velociti ModulesGamewell-FCI SSM modules are compatible with all the Velociti devices.

Control Panel Velociti Module

IF610-396SSIF610-792SS

SSM610-2SSM610-4

IF632

SSM-2SSM-4IF654

IF658

IF602SS IF602 Series

Table B.1 44 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Velociti Modules Compatibility of Panels and SLC DevicesNotesAnalog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 45

Electrical SpecificationsAppendix C.1 Electrical Specifications

Addressable Output Devices

Standby Current (Amps)

Alarm Current (Amps)

AOM-2SF 0.0004 0.0065

AOM-2RF 0.0003 0.0065

MMO-6SF 0.0025 0.0035

MMO-6RF 0.0015 0.0032

Addressable Input Devices

Standby Current (Amps)

Alarm Current (Amps)

AMM-2F .0004 0.0060

AMM-4F .0004 0.0060

AMM-2IF .0008 0.0050

MS-7ASF .0004 0.0060

MMI-10F .0035 0.0550

AMM-4SF 0.0003 0.0051

MMI-6SF 0.0020 0.0400

Addressable Smoke Sensors

Standby Current (Amps)

Alarm Current (Amps)

ASD-PL2F 0.0004 0.0065

ASD-IL2F 0.0004 0.0060

ASD-PTLS2F 0.0008 0.0060

MCS-Acclimate 0.0008 0.0060

ATD-L2F/RL2F 0.0003 0.0060

ATD-HL2F 0.0003 0.0060

ASD-FiltrexF 0.0003 0.0051

ABD-2F 0.0020 0.0085

M500X 0.0003 0.0051

ADPF 0.0003 0.087

ADPRF 0.026 0.087

Table C.1 Electrical Specifications46 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Electrical SpecificationsNotesAnalog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 47

Electrical SpecificationsNotes48 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

IndexNumerics24 VDC power 4042

monitoring and switching NAC power 30

AABD-2F 9addressable devices 16addressable modules 23ADPF 9AMM-2F 7AMM-2IF 7AMM-4SF 7analog intelligent devices 7AOM-2RF 8AOM-2SF 8ASD-FiltrexF 9ASD-IL2F 9ASD-PL2F 9ATD-L2F 9auxiliary devices 8

BB224BI 9, 16, 17, 36B224RB 9, 37B501 9, 34B501BH 37B501BH(2) 9B501BHT(2) 9bases 9

Ccircuit fault 9coded output 42, 43communications loop 17control modules 8

DDC resistance 12, 13degraded mode 8, 23detector bases

list of 9detectors

24 VDC 41devices

addressable 16auxiliary 8isolator 16maximum number between isolators 16supervised 41

dry contact ratings 33

dry-contact 8duplicate addressing 27

EELR, see End-of-Line-ResistorEnd-of-Line-Resistor 31, 42, 43

Ffactory preset 24fault 17, 19fault condition 16Fire Alarm Control Panels 7Form-C contacts 33four-wire configuration 32

Ggeneral alarm 42, 43group poll 7grouped fashion 7

IIF-610 40, 44IF-632/654/658 40, 44Initiating Device Circuits 2328integral relay 16isolator bases 9

how they work 17wiring 36

isolator detector bases 16, 20see also isolator bases

isolator devices 16isolator modules 9, 19, 20

how they work 16wiring of 16

Kkey-lock reset 39

LLoop Resistance 12

Style 6 & 7 13loops 13

MM500X 7MCS-Acclimate 9metal conduit 19MMI-10F 8MMI-6SF 8Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 49

NZ IndexMMO-6RF 9MMO-6SF 8module circuits, configuring 23modules

control 8isolator 9monitor 7, 23relay 8

monitor modules 7, 23MS-7AF 8MS-7ASF 8

NNAC power 30, 43

wiring 42NAC terminal block 42NFPA Style 4

wiring 21with M500X 18

NFPA Style 6wiring 22with M500X 19

NFPA Style 7 16with isolator device 20

NFPA Style BIDC wiring 25, 27, 28

NFPA Style DIDC wiring 26, 29

NFPA Style Y 30wiring 31

NFPA Style Z 30wiring 32

normally closed contacts 41Notification Appliance Circuit 8

see also NACnotification appliances 41

PPolling Protocols 7power run 40, 41power supervision relay 41power supplies 40proper gauge wire 40pull stations 8, 20

addressable manual, wiring 39

Rratings, dry contact 33relay bases 9, 16Relay Module 8rotary switches 24, 27, 28, 29

Sshort circuit 16, 17

Signaling Line Circuit 7see also SLC

SLCperformance 11setting an SLC address 24wiring 25, 26, 27, 28, 29

sounder bases 9, 16SS-B6 34SS-BF 34SS-F 35SSM-2/2E 15SSM610-2/4 14standard bases 9Style 4, Style 6, Style 7, Style B,Style D, Style Y,Style Z see NFPA Style 21supervised circuits 41supervised devices 41

Tterminal block, NAC 43trouble conditions 16trouble warning 17T-tapping 12, 19, 20, 21, 22two wire detectors 41two-wire configuration 31

VVelociti 7, 11, 17Velociti Modules

IF602 Series 44SSM-2 44SSM-4 44SSM610-2 44SSM610-4 44

Wwire length

four-wire SLC 13two-wire SLC 12

wiringisolater bases 36isolator modules 16NACs 42pull stations 39SLCs 25, 26, 27, 28, 29

wiring style requirements 11

Zzone interface modules 28, 2950 Analog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09

Limited Warranty

Honeywell International Inc. warrants products manufactured by itto be free from defects in materials and workmanship for thirty-six (36)months from the date of manufacture, under normal use and service.Products are date stamped at time of manufacture. The sole andexclusive obligation of Honeywell International Inc. is to repair orreplace, at its option, free of charge for parts and labor, any part that isdefective in materials or workmanship under normal use and service.All returns for credit are subject to inspection and testing at the factorybefore actual determination is made to allow credit. HoneywellInternational Inc. does not warrant products not manufactured by it,but assigns to the purchaser any warranty extended by themanufacturer of such products. This warranty is void if the product isaltered or repaired by anyone other than Honeywell InternationalInc. or as expressly authorized by Honeywell International Inc. inwriting, or is serviced by anyone other than Honeywell InternationalInc. or its authorized distributors. This warranty is also void if there isa failure to maintain the products and systems in which they operatein a proper and workable manner. In case of defect, secure a ReturnMaterial Authorization form from our Return AuthorizationDepartment. This writing constitutes the only warranty made by HoneywellInternational Inc., with respect to its products. HoneywellInternational Inc., does not represent that its products will preventany loss by fire or otherwise, or that its products will in all casesprovide the protection for which they are installed or intended. Buyeracknowledges that Honeywell International Inc., is not an insurerand assumes no risk for loss or damages or the cost of anyinconvenience, transportation damage, misuse, abuse, accident orsimilar incident.HONEYWELL INTERNATIONAL INC. GIVES NO WARRANTY,EXPRESS OR IMPLIED, OF MERCHANTABILITY, FITNESS FORANY PARTICULAR PURPOSE, OR OTHERWISE WHICH EXTENDSBEYOND THE DESCRIPTION ON THE FACE HEREOF. UNDER NOCIRCUMSTANCES SHALL HONEYWELL INTERNATIONAL INC.BE LIABLE FOR ANY LOSS OF OR DAMAGE TO PROPERTY,DIRECT, INCIDENTAL OR CONSEQUENTIAL, ARISING OUT OFTHE USE OF, OR INABILITY TO USE HONEYWELLINTERNATIONAL INC.S PRODUCTS. FURTHERMORE,HONEYWELL INTERNATIONAL INC. SHALL NOT BE LIABLE FORANY PERSONAL INJURY OR DEATH WHICH MAY ARISE IN THECOURSE OF, OR AS A RESULT OF, PERSONAL, COMMERCIALOR INDUSTRIAL USE OF ITS PRODUCTS.This warranty replaces all previous warranties and is the onlywarranty made by Honeywell International Inc. No increase oralteration, written or verbal, of the obligation of this warranty isauthorized.Warn-HL_36_5-2007.fmAnalog Addressable Panel SLC Wiring Manual P/N 52282:B 06/26/09 51

Gamewell-FCI12 Clintonville Road

Northford, CT 06472-1610 USA 203-484-7161

fax 203-484-7118

www.gamewell-fci.com

Table of ContentsSection 1 Introduction1.1 Scope1.2 Overview1.3 Polling Protocols1.4 Input Devices1.4.1 Addressable Monitor Modules1.4.2 Multi-input Transponder Modules1.4.3 Manual Pull Stations

1.5 Output Devices1.5.1 Control Modules1.5.2 Relay Modules1.5.3 Multi-output Transponder Modules

1.6 Detectors1.6.1 Isolator Modules1.6.2 Plug-in Detector Bases1.6.3 Analog Addressable Detectors

1.7 Reference Documentation1.8 SLC Capacity1.9 SLC Performance

Section 2 Wiring Requirements2.1 Recommended SLC Wiring2.2 Two-Wire SLC - Style 4 (Class B)2.2.1 Measuring Circuit Resistance2.2.2 Measuring Total Wire Length

2.3 Four-Wire SLC Style 6 & 7 (Class A)2.3.1 Measuring Circuit Resistance2.3.2 Measuring Total Wire Length

2.4 SSM Terminal Blocks2.4.1 SSM610-2/42.4.2 SSM-2/2E2.4.3 IF602SS

Section 3 SLC Circuits with Isolators3.1 Overview3.2 Fault Isolator Module - M500X3.2.1 Wiring an Isolator Module

3.3 Isolator Detector Bases3.3.1 How an Isolator Base Works

3.4 NFPA Style 4 SLC Using M500X Modules3.5 NFPA Style 6 SLC Using M500X Modules3.6 NFPA Style 7 SLC Using an Isolating Device

Section 4 SLC Circuits without Isolators4.1 Overview4.2 NFPA Style 4 SLC4.3 NFPA Style 6 SLC

Section 5 Monitor Modules5.1 Description5.1.1 AMM-4F Monitor Module5.1.2 AMM-2IF Dual Monitor Module5.1.3 AMM-4SF Monitor Module5.1.4 AMM-2F Monitor Module

5.2 Setting an SLC Address for a Module5.3 AMM-4F Wiring Diagram: NFPA Style B IDC5.4 AMM-4F Wiring Diagram: NFPA Style D IDC5.5 AMM-2IF Wiring Diagrams NFPA Style B IDC5.6 AMM-4SF Wiring Diagrams: NFPA Style B IDC5.7 AMM-4SF Wiring Diagrams: NFPA Style D IDC

Section 6 Control Modules6.1 Description6.2 Installation6.2.1 Setting an SLC address for AOM-2SF Modules6.2.2 Wiring a Notification Appliance Circuit (NAC) with AOM-2SF Modules

6.3 Wiring AOM-2SF Modules6.3.1 Wiring a Style Y NAC (Two-Wire)6.3.2 Wiring a Style Z NAC (Four-Wire)

Section 7 Relay Module7.1 Description7.2 Installation7.2.1 Setting an SLC Address for the AOM-2RF Module7.2.2 Wiring the AOM-2RF Module (Form-C Relay)

Section 8 Intelligent Detector Bases8.1 Description8.2 Installation8.2.1 Wiring a Detector Base8.2.2 Wiring an Isolator Base

8.3 Wiring a Sounder Base8.4 Wiring a Relay Base8.4.1 Setting the Detector Address

Section 9 Addressable Manual Pull Station9.1 Description9.2 Installation9.2.1 Setting an SLC address9.2.2 Wiring a Manual Pull Station

Appendix A Power ConsiderationsA.1 Supplying Power to 24 VDC Detectors and NACsA.2 Supervising 24 VDC PowerA.2.1 Power Supervision Relay

Appendix B Compatibility of Panels and SLC DevicesB.1 Velociti Modules

Appendix C.1 Electrical SpecificationsIndex