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Home My WebLink AboutA13-0012 Panel Operations Manual.pdf Gamewell FIRE CONTROL INSTRUMENTS by Honeywell E3 Series*' Expandable Emergency Evacuation System Installation/Operation Manual Document 9000-0574 09/03/09 Rev: •ITITI �EMO Important Limitations Smoke detectors cannot be expected to provide adequate warning of fires caused by arson, children playing with While a fire alarm system may lower insurance rates, matches (especially in bedrooms), smoking in bed, and it is not a substitute for fire insurance! violent explosions (caused by escaping gas, improper An automatic fire alarm system- typically made up of storage of flammable materials, etc.). smoke detectors, heat detectors, manual pull stations, Heat detectors do not sense particles of combustion and audible warning devices, and a fire alarm control panel with alarm only when heat on their sensors increases at a remote notification capability-can provide early warning of predetermined rate or reaches a predetermined level. a developing fire. Such a system, however, does not Rate-of-rise heat detectors may be subject to reduced assure protection against property damage or loss of life sensitivity over time. For this reason, the rate-of-rise resulting from a fire. feature of each detector should be tested at least once per The Manufacturer recommends that smoke and/or heat year by a qualified fire protection specialist. Heat detectors detectors be located throughout a protected premise are designed to protect property, not life. following the recommendations of the current edition of the IMPORTANT! Smoke detectors must be installed in the National Fire Protection Association, Standard 72 (NFPA same room as the control panel and in rooms used by the 72), manufacturer's recommendations, State and local system for the connection of alarm transmission wiring, codes, and the recommendations contained in the Guide communications, signaling, and/or power. If detectors are for Proper Use of System Smoke Detectors, which are not so located, a developing fire may damage the alarm made available at no charge to all installing dealers.These system, crippling its ability to report a fire. documents can be found at http://www.systemsensor.co/ Audible warning devices such as bells may not alert html/applict.html. A study by the Federal Emergency people if these devices are located on the other side of Management Agency (an agency of the United States closed or partly open doors or are located on another floor government)indicated that smoke detectors may not go off of a building. Any warning device may fail to alert people in as many as 35%of all fires.While fire alarm systems are with a disability or those who have recently consumed designed to provide early warning against fire, they do not drugs, alcohol or medication. Please note that: guarantee warning or protection against fire. A fire alarm Strobes can, under certain circumstances, cause system may not provide timely or adequate warning, or seizures in people with conditions such as epilepsy. simply may not function,for a variety of reasons. Studies have shown that certain people, even when Smoke Detectors may not sense fire where smoke cannot they hear a fire alarm signal, do not respond or reach the detectors such as in chimneys, in or behind comprehend the meaning of the signal. It is the walls, on roofs,or on the other side of closed doors.Smoke property owner's responsibility to conduct fire drills detectors also may not sense a fire on another level or floor and other training exercise to make people aware of of a building.A second-floor detector,for example, may not fire alarm signals and instruct them on the proper sense a first-floor or basement fire. reaction to alarm signals. Particles of combustion or "smoke" from a developing In rare instances,the sounding of a warning device fire may not reach the sensing chambers of smoke can cause temporary or permanent hearing loss. detectors because: A fire alarm system will not operate without any electrical • Barriers such as closed or partially closed doors, power. If AC power fails the system will operate from walls, or chimneys may inhibit particle or smoke flow. standby batteries only for a specified time and only if the • Smoke particles may become"cold,"stratify, and not batteries have been properly maintained and replaced reach the ceiling or upper walls where detectors are regularly. located. Equipment used in the system may not be technically • Smoke particles may be blown away from detectors by compatible with the control panel. It is essential to use only air outlets. equipment listed for service with your control panel. • Smoke particles may be drawn into air returns before reaching the detector. Telephone lines needed to transmit alarm signals from a The amount of "smoke" present may be insufficient to premise to a central monitoring station may be out of alarm smoke detectors. Smoke detectors are designed to service or temporarily disabled. For added protection alarm at various levels of smoke density. If such density against telephone line failure, backup radio transmission levels are not created by a developing fire at the location of systems are recommended. detectors,the detectors will not go into alarm. The most common cause of fire alarm malfunction is Smoke detectors, even when working properly, have inadequate maintenance. To keep the entire fire alarm sensing limitations. Detectors that have photoelectronic system in excellent working order, ongoing maintenance is sensing chambers tend to detect smoldering fires better required per the manufacturer's recommendations, and UL than flaming fires, which have little visible smoke. and NFPA standards. At a minimum, the requirements of Detectors that have ionizing-type sensing chambers tend NFPA 72 shall be followed. Environments with large to detect fast-flaming fires better than smoldering fires. amounts of dust, dirt or high air velocity require more Because fires develop in different ways and are often frequent maintenance. A maintenance agreement should unpredictable in their growth, neither type of detector is be arranged through the local manufacturer's necessarily best and a given type of detector may not representative. Maintenance should be scheduled monthly. provide adequate warning of a fire. 2 E3 Series Installation/Operation Manual P/N 9000-0574:2 09/03/09 Installation Precautions Survivability Per the National Fire Alarm Code, NFPA 72, all circuits Adherence to the following will aid in problem-free necessary for the operation of the operation of the installation with long-term reliability: notification appliances shall be protected until they enter WARNING - Several different sources of power can be the evacuation signaling zone that they serve.Any of the connected to the fire alarm control panel. Disconnect all following methods shall be considered acceptable as sources of power before servicing. Control unit and meeting these requirements: associated equipment may be damaged by removing 1)A 2-hour rated cable or cable system and/or inserting cards, modules, or interconnecting 2)A 2-hour rated enclosure cables while the unit is energized. Do not attempt to 3) Performance alternatives approved by Authority install,service,or operate this unit until manuals are read Having Jurisdiction (AHJ). and understood. CAUTION - System Re-acceptance Test after Like all solid state electronic devices, this system Software Changes: To ensure proper system operation, may operate erratically or can be damaged when this product must be tested in accordance with NFPA 72 subjected to lightning induced transients. Although no after any programming operation or change in site- system is completely immune from lightning transients specific software. Reacceptance testing is required after and interference, proper grounding will reduce any change, addition or deletion of system components, susceptibility. Overhead or outside aerial wiring is not or after any modification, repair or adjustment to system recommended, due to an increased susceptibility to hardware or wiring. All components, circuits, system nearby lightning strikes. Consult with the Technical operations, or software functions known to be affected Services Department if any problems are anticipated or by a change must be 100%tested. In addition,to ensure encountered. 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, Disconnect AC power and batteries prior to removing must also be tested and proper system operation or inserting circuit boards. Failure to do so can damage verified. circuits. This system meets NFPA requirements for operation at 0-49° C/32-120° F and at a relative humidity 93% ± 2% Remove all electronic assemblies prior to any drilling, RH (non-condensing) at 32° C ± 2° C (90° F + 3° F) filing, reaming, or punching of the enclosure. When However,the useful life of the system's standby batteries possible, make all cable entries from the sides or rear. and the electronic components may be adversely Before making modifications, verify that they will not affected by extreme temperature ranges and humidity. interfere with battery,transformer, or printed circuit board Therefore, it is recommended that this system and its location. peripherals be installed in an environment with a normal Do not tighten screw terminals more than 9 in-lbs. room temperature of 15-27° C/60-80° F. Over-tightening may damage threads, resulting in reduced terminal contact pressure and difficulty with Verify that wire sizes are adequate for all initiating and screw terminal removal. 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. Follow the instructions in the installation, operating, Always ground yourself with a proper wrist strap before handling any circuits so that static charges are removed and programming manuals. These instructions must be from the body. Use static suppressive packaging to followed to avoid damage to the control panel and protect electronic assemblies removed from the unit. associated equipment FACP operation and reliability depend upon proper installation. Precau-D2-s-zoos FCC Warning WARNING: This equipment generates, uses, and can radiate radio frequency energy and if not installed and Canadian Requirements used in accordance with the instruction manual may This digital apparatus does not exceed the Class A limits cause interference to radio communications. It has been for radiation noise emissions from digital apparatus set tested and found to comply with the limits for Class A out in the Radio Interference Regulations of the computing devices pursuant to Subpart B of Part 15 of Canadian Department of Communications. FCC Rules, which is designed to provide reasonable protection against such interference when devices are Le present appareil numerique n'emet pas de bruits operating in a commercial environment. Operation of this radioelectriques depassant Ies Iimites applicables aux equipment in a residential area is likely to cause appareils numeriques de la Classe A prescrites dan le interference, in which case the user will be required to Reglement sur le brouillage radioelectrique edicte par le correct the interference at his or her own expense. ministere des Communications du Canada. Gamewell-FCI®, SmartScan®,and E3 Series®are registered trademarks of Honeywell International Inc. Echelon®is a registered trademark and LonWorksTM is a trademark of Echelon Corporation.ARCNET®is a registered trademark of Datapoint Corporation. Microsoft®and Windows®are registered trademarks of the Microsoft Corporation.LEXAN®is a registered trademark of GE Plastics,a subsidiary of General Electric Company. ©2009 by Honeywell International Inc.All rights reserved.Unauthorized use of this document is strictly prohibited. E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 3 Software Downloads In order to supply the latest features and functionality in fire alarms and life safety technology to our customers,we make frequent upgrades to the embedded software in our products.To ensure that you are installing and programming the latest features, we strongly recommend that you download the most current version of software for each product prior to commissioning any system. Contact Technical Support with any questions about software and the appropriate version for a specific application. Documentation Feedback Your feedback helps us keep out documentation up-to-date and accurate.If you have any comments or suggestions about our 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 documentation Send email messages to: FireSystems.TechPubs @honeywell.com Please note this email address is for documentation feedback only. If you have any technical issues, please contact Technical Services 4 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 Table of Contents Table of Contents Section 1: System Overview....................................................................................................8 1.1:Description.....................................................................................................................................................8 1.2: Standard Features...........................................................................................................................................8 1.2.1: Optional Features.................................................................................................................................9 1.3: System Components......................................................................................................................................9 1.3.1: Control and Indicator Sub-Assembly(LCD-E3).................................................................................9 1.3.2: Intelligent Loop Interface-Main Board(ILI-MB-E3).....................................................................10 1.3.3: Intelligent Loop Interface XP95 -Main Board(ILI95-MB-E3).......................................................10 1.3.4:Power Supply-9 Amperes(PM-9/PM-9G)......................................................................................10 1.4: Optional Modules........................................................................................................................................11 1.4.1:Addressable Switch Sub-Assembly(ASM-16).................................................................................11 1.4.2:Digital Alarm Communicator Transmitter(DACT-E3)....................................................................11 1.4.3: Repeater(RPT-E3)............................................................................................................................11 1.4.4: Intelligent Loop Interface-Slave Board(ILI-S-E3).........................................................................11 1.4.5: Intelligent Loop Interface XP95 -Slave Board(ILI95-S-E3)...........................................................12 1.4.6:Remote LED Driver(ANU-48).........................................................................................................12 1.4.7: LCD Network Graphic Annunciator(NGA)....................................................................................12 1.4.8:Remote LCD Display(LCD-7100)...................................................................................................12 1.4.9: Intelligent Network Interface–Voice Gateway(INI-VG)...............................................................12 1.4.10:AM-50,50 Watt Amplifiers(AM-50).............................................................................................12 1.5: Specifications...............................................................................................................................................13 1.5.1: Power Supply(PM-9/PM-9G)...........................................................................................................13 1.5.2: Signaling Line Circuits(ILI-E3 or ILI95-E3 Series)........................................................................13 1.5.3:Notification Appliance Circuits(ILI-MB-E3 or ILI95-MB-E3).......................................................13 1.5.4:Alarm Dry Contacts(ILI-MB-E3 or ILI95-MB-E3).........................................................................14 1.5.5: Trouble Dry Contacts(ILI-MB-E3 or ILI95-MB-E3)......................................................................14 1.5.6: Supervisory Dry Contacts(ILI-MB-E3 or ILI95-MB-E3)...............................................................14 1.5.7:Earth Ground Connection(ILI-MB-E3 or ILI95-MB-E3)................................................................14 1.5.8:24 VDC Power, System(ILI-MB-E3 or ILI95-MB-E3)...................................................................14 1.5.9: RS-232 Port.......................................................................................................................................14 1.5.10:Battery Connection(PM-9/PM-9G)................................................................................................14 1.5.11: City Master Box Output(ILI-MB-E3 or ILI95-MB-E3).................................................................14 1.5.12:Remote Signaling Output(Polarity Reversal).................................................................................15 1.5.13:Releasing Service(ILI-MB-E3 or ILI95-MB-E3)...........................................................................15 Section2: Installation.............................................................................................................16 2.1: General.........................................................................................................................................................16 2.2:Location.......................................................................................................................................................16 2.3:Unpacking....................................................................................................................................................16 2.4:Mounting Sub-assemblies............................................................................................................................16 2.5: Cabinets.......................................................................................................................................................17 2.5.1: Cabinet A1,Installation Instructions.................................................................................................17 2.5.2: Cabinet A2,Installation Instructions.................................................................................................23 2.5.3: Cabinet A or AA,2-Bay Installation Instructions.............................................................................29 2.5.4: Cabinet A or AA,3-Bay Installation Instructions.............................................................................35 2.5.5: Cabinet B Installation Instructions....................................................................................................38 2.5.6: Cabinet C,E3-INX-C Plate Installation Instructions........................................................................46 2.5.7: Cabinet C,E3-INCC-C Plate Installation Instructions......................................................................53 2.5.8: Cabinet D Installation Instructions....................................................................................................66 2.5.9:B-Slim Cabinet Installation...............................................................................................................79 Section 3: E3 Series System Connections...........................................................................87 3.1: ILI-MB-E3 and ILI95-MB-E3 Connections................................................................................................87 3.1.1:Auxiliary Power Output,Resettable/Non-Resettable........................................................................87 3.1.2: Relay Connections.............................................................................................................................87 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 5 Table of Contents 3.1.3: Signaling Line Circuits......................................................................................................................88 3.1.4:Notification Appliance Circuits.........................................................................................................89 3.1.5: ILI-MB-E3 and ILI95-MB-E3 Outputs.............................................................................................89 3.1.6: ILI-MB-E3 and ILI95-MB-E3 Specifications...................................................................................89 3.2: Intelligent Loop Interface-Main Board Connections...................................................................................90 3.2.1:Intelligent Loop Interface-Main Board(ILI-MB-E3)Wiring Connections......................................91 3.2.2: ILI-MB-E3 Wiring Diagram..............................................................................................................93 3.3: Intelligent Loop Interface XP95-Main Board Connections.........................................................................94 3.3.1:Intelligent Loop Interface XP95 -Main Board(ILI95-MB-E3)Wiring Connections......................95 3.3.2: ILI95-MB-E3 Wiring Diagram..........................................................................................................97 3.4:Intelligent Loop Interface- Slave Board(ILI-S-E3)Connections..............................................................98 3.4.1: Signaling Line Circuits......................................................................................................................98 3.4.2: Intelligent Loop Interface-Slave Board Sub-Assembly...................................................................99 3.4.3:Intelligent Loop Interface-Slave Board(ILI-S-E3)Wiring Connections......................................100 3.4.4: ILI-S-E3 Wiring Diagram................................................................................................................101 3.5: Intelligent Loop Interface XP95-Slave Board Connections......................................................................102 3.5.1: Signaling Line Circuits....................................................................................................................102 3.5.2: Intelligent Loop Interface XP95-Slave Board Sub-Assembly.........................................................103 3.5.3: Intelligent Loop Interface XP95 - Slave Wiring Connections.........................................................104 3.5.4: ILI95-S-E3 Wiring Diagram............................................................................................................105 3.6: ILI-E3 and ILI95-E3 Series Programming Address Switch Settings........................................................106 3.7: PM-9/PM-9G Power Supply Connections.................................................................................................107 3.7.1: PM-9/PM-9G AC Power Connection..............................................................................................107 3.7.2: PM-9/PM-9GBattery Connections..................................................................................................108 3.7.3: PM-9 and PM-9G Specifications.....................................................................................................108 3.7.4: PM-9 Power Supply Sub-Assembly................................................................................................109 3.7.5: PM-9 Power Supply Wiring Connections.......................................................................................110 3.7.6: PM-9 Wiring Diagram.....................................................................................................................111 3.7.7: PM-9G Power Supply Sub-Assembly.............................................................................................112 3.7.8: PM-9G Power Supply Wiring Connections...................................................................................113 3.7.9: PM-9G Wiring Diagram..................................................................................................................114 3.8: ASM-16 Addressable Switch Connections................................................................................................115 3.8.1: Specifications...................................................................................................................................115 3.8.2: Addressable Switch Sub-Assembly(ASM-16) Sub-Assembly.......................................................116 3.8.3: ASM-16 Wiring Connections..........................................................................................................117 3.8.4: ASM-16 or ANU-48 Wiring Connections.......................................................................................119 3.8.5: ASM-16 Wiring Diagram................................................................................................................120 3.8.6: ASM-16 Programming Address Switch Settings............................................................................121 3.9: Digital Alarm Communicator Transmitter(DACT-E3)Connections........................................................122 3.9.1: Central Station Reporting................................................................................................................122 3.9.2: Telephone Requirements.................................................................................................................123 3.9.3: Specifications...................................................................................................................................123 3.9.4: Digital Alarm Communicator(DACT-E3) Sub-Assembly.............................................................124 3.9.5: DACT-E3 Event Reporting Codes..................................................................................................125 3.9.6: DACT-E3 Wiring Connections.......................................................................................................128 3.10:Repeater(RPT-E3)Connections..............................................................................................................130 3.10.1: RPT-E3-FO....................................................................................................................................130 3.10.2: RPT-E3-UTP.................................................................................................................................130 3.10.3: Specifications.................................................................................................................................130 3.10.4: Repeater RPT-E3 Sub-Assembly..................................................................................................131 3.10.5: Repeater-E3 Wiring Connections..................................................................................................132 3.10.6: RPT-E3 Wiring Diagram...............................................................................................................135 3.11: ANU-48 Remote LED Driver Connections.............................................................................................136 3.11.1: Specifications.................................................................................................................................136 3.11.2: ANU-48 Sub-Assembly.................................................................................................................137 3.11.3: ANU-48 Wiring Connections........................................................................................................138 3.11.4: ANU-48 Wiring Diagram..............................................................................................................139 6 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Table of Contents 3.11.5: ANU-48 Programming Address Switch Settings..........................................................................140 3.12: LCD-E3 Panel Display Connections.......................................................................................................141 3.12.1: Specifications.................................................................................................................................141 3.12.2: LCD-E3 Sub-Assembly.................................................................................................................142 3.12.3: LCD-E3 Wiring Connections........................................................................................................143 3.12.4: LCD-E3 Wiring Diagram..............................................................................................................144 3.13: LCD-7100 Remote Display Connections................................................................................................145 3.13.1: Mounting.......................................................................................................................................145 3.13.2: Specifications.................................................................................................................................145 3.13.3: LCD-7100 Remote Display Sub-Assembly..................................................................................145 3.13.4: LCD-7100 Wiring Connections.....................................................................................................146 3.14: Standby Battery Calculations...................................................................................................................147 3.15: Analog Sensors........................................................................................................................................148 3.15.1: Address Switches...........................................................................................................................148 3.15.2: Drift Compensation.......................................................................................................................148 3.15.3: Addressable Modules....................................................................................................................148 3.15.4: Monitor Modules...........................................................................................................................148 3.15.5: Control Modules............................................................................................................................148 3.15.6: System Response to Input Devices................................................................................................148 Section 4: Programming/Operation Instructions...............................................................149 4.1: LED Indicators(LCD-E3).........................................................................................................................149 4.2: Audible/Visual Condition Indications.......................................................................................................150 4.3: Switches(LCD-E3) ...................................................................................................................................151 Section5: Programming ......................................................................................................152 5.1: MAIN LCD-E3 Menu Selections..............................................................................................................152 5.2: WALK/DRILL Menu Selection...............................................................................................................152 5.3: I/O Menu Selection....................................................................................................................................153 5.4: CLOCK Menu Selection............................................................................................................................153 5.5: MISC Menu Selection...............................................................................................................................153 5.6: LOG Menu Selection.................................................................................................................................153 5.7: INFO Menu Selection................................................................................................................................153 Section 6: Power Up Procedure ..........................................................................................154 6.1: General.......................................................................................................................................................154 6.2: To Set the System Time.............................................................................................................................154 6.3:Automatic Configuration...........................................................................................................................154 Section 7: Test and Maintenance........................................................................................156 7.1: Test.............................................................................................................................................................156 7.2: Maintenance...............................................................................................................................................156 Section 8: Power-Limited — Non Power-Limited Wiring....................................................157 8.1: E3 Series Control Panel Circuit Wiring Requirements..............................................................................158 8.2: E3 Series Power-Limited and Non Power-Limited Diagram....................................................................159 Index.......................................................................................................................................161 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 7 Section 1 : System Overview 1 .1 Description The Gamewell-FCI E3 Series®Expandable Emergency Evacuation System is a multiprocessor based analog/addressable fire alarm control panel,designed for commercial,industrial and institutional fire alarm applications. The E3 Series®is Listed by Underwriter's Laboratories under Standard UL 864,9th Edition.It is suitable for the following signaling services: • Automatic Fire Detector Alarm • Manual Fire Alarm • Waterflow Alarm • Supervisory • Automatic Smoke Alarm,non-coded and master coded operation • Releasing Device Service When configured and installed under the supervision of a Gamewell-FCI factory trained and certified distributor,the E3 Series complies with the requirements of the following National Fire Protection Association(NFPA)Standards: • NFPA 13 Installation of Sprinkler Systems • NFPA 16 Deluge Foam-Water Sprinkler Systems • NFPA 72 National Fire Alarm Code: – Central Station Fire Alarm Systems – Local Fire Alarm Systems – Auxiliary Fire Alarm Systems – Remote Station Fire Alarm Systems – Proprietary Fire Alarm Systems 1 .2 Standard Features • Two(2),Class A, Style 6,7*or Class B, Style 4 Signaling Line Circuits • Two(2),Class A, Style Z or Class B,Style Y Notification Appliance Circuits,2.0 amp each • Alarm,Trouble and Supervisory dry contacts • Accommodates 159 Gamewell-FCI Approved,UL8 Listed compatible analog sensors per signaling line circuit(ILI-MB-E3 or ILI-S-E3 only). • Accommodates 159 Gamewell-FCI Approved,UL Listed compatible addressable monitor/control devices per signaling line circuit(ILI-MB-E3 or ILI-S-E3 only) • Accommodates 126 Gamewell-FCI Approved,UL Listed compatible sensors/modules per signaling line circuit(IL195-MB-E3 or ILI95-S-E3 only) • 80-character alphanumeric LCD display(40 characters user-defined) 4100 event history buffer(non-volatile) • Power-limited • Resettable/non-resettable 2.0 amp @ 24 VDC power output each • Alarm verification • Walk test • Multi-level alarm processing • Positive Alarm Sequence(PAS)operation • NAC coding • Trouble reminder • Integral RS-232 port *Style 7 operation requires System Sensor,M50OX Isolator Module(ILI-MB-E3 or ILI-S-E3)or XP95-LI Line Isolator and XP95-LIB Line Isolator Base(ILI95-MB-E3 or ILI95-S-E3). UL®is a registered trademark of Underwriters Laboratories,Inc. 8 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 System Components System Overview 1.2.1 Optional Features • Remote DACT-E3 Digital Alarm Communicator Transmitter • RPT-E3 ARCNET Repeater • Remote ANU-48 Remote LED Driver • Remote ASM-16 Addressable Switch Sub-assembly • Remote Network Graphic Display • LCD-7100 Remote LCD Display 1 .3 System Components 1.3.1 Control and Indicator Sub-Assembly (LCD-E3) The LCD-E3 provides an LCD display for system status,and the following Switches and LED indicators: • Alarm Acknowledge • Trouble Acknowledge • Signal Silence • System Reset/Lamp test ,°L, ,°- •°a• $2111 °11.o „E$ • Programming buttons O 0 0 0 0 0 0 Eo — Menu/Back ' 000 — Back Space/Edit . 000 — OK 1 .1E. • 12 button keypad Figure 1.3.1 Switch Control Panel LED Indicators • AC Power On (green) Power Fault (yellow) • Alarm (red) Ground Fault (yellow) • Supervisory (yellow) System Silenced (yellow) • System Trouble (yellow) The ILI-MB-E3 or ILI95-MB-E3 can support up to six(6),LCD-E3 sub-assemblies,any or all of which may be remotely located via the local RS-485 serial interface. E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 9 System Overview System Components 1.3.2 Intelligent Loop Interface - Main Board (ILI-MB-E3) These units are the main operating sub-assembly for the E3 control.The units provide two(2), signaling line circuits and terminals for the connection of all sub-assemblies.Each unit can support an LCD-E3,DACT-E3 and up to a total of sixteen(16),ASM-16 and/or ANU-48 sub-assemblies. The units occupy one node on the Broadband network.The Alarm signals lock-in.The Supervisory Signals can be either locked-in or not locked-in,depending on the CamWorksTM.Trouble signals do not lock-in. The following sensors and modules are used with each unit. • The ILI-MB-E3 accommodates the ASD/ATD Series sensors and AMM/MMI/AOM/MMO Series modules. For a comprehensive list,refer to the Compatibility Addendum to Gamewell-FC1 Manuals, P/N 9000-0427. • Municipal Connection/Releasing Output The ILI-MB-E3 provides a non power-limited output for a local energy City Master Box or Releasing Solenoid. For a comprehensive list,refer to the Compatibility Addendum to Gamewell-FC1 Manuals, P/N 9000-0427. • Audible Sounder An Alarm/Trouble/Supervisory sounder is located on the ILI-MB-E3. 1.3.3 Intelligent Loop Interface XP95 - Main Board (ILI95-MB-E3) These units are the main operating sub-assembly for the E3 control.The units provide two(2), signaling line circuits and terminals for the connection of all sub-assemblies.Each unit can support an LCD-E3,DACT-E3 and up to a total of sixteen(16),ASM-16 and/or ANU-48 sub-assemblies. The units occupy one node on the Broadband network.Alarm signals lock-in.The Supervisory Signals can be either locked-in or not locked-in,depending on the CamWorksTM.Trouble signals do not lock-in. The following sensors and modules are used with each unit. • The ILI95-MB-E3 accommodates the Apollo Series of sensors and modules. For a comprehensive list,refer to the Compatibility Addendum to Gamewell-FC1 Manuals, P/N 9000-0427. • Municipal Connection/Releasing Output The ILI95-MB-E3 provides a non power-limited output for a local energy City Master Box or Releasing Solenoid. For a comprehensive list,refer to the Compatibility Addendum to Gamewell-FCI Manuals, P/N 9000-0427. • Audible Sounder An Alarm/Trouble/Supervisory sounder is located on the ILI95-MB-E3. 1.3.4 Power Supply - 9 Amperes (PM-9/PM-9G) The PM-9/PM-9G is a 9 ampere regulated power supply with a battery charger that provides operating power to the panel.The battery charger can maintain batteries up to 55 A/H. (Batteries not furnished). 10 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 Optional Modules System Overview 1 .4 Optional Modules The following subsections list the optional sub-assemblies and features. 1.4.1 Addressable Switch Sub-Assembly (ASM-16) The ASM-16 is a configurable switch input sub-assembly with 16 switches and 48 status LEDs.It may be remotely located via the RS-485 serial interface.Each switch address is fully software programmable to serve as: • A System Control Switch;Reset, Silence,Alarm and Trouble Acknowledge,etc. • A Voice Evacuation Speaker Circuit control switch • A Fire Fighter Communication Circuit control switch • An Auxiliary Control Circuit switch • A status indicating LED,red,green,and yellow • A status indicating LED,labeled to display,"Command Center in Control" 1.4.2 Digital Alarm Communicator Transmitter (DACT-E3) The DACT-E3 provides an integral,remote Digital Alarm Communicator Transmitter(DACT). It is fully programmable from the keypad,which is compatible with Digital Alarm Communicator Receivers(DACRs)that can receive the following formats: • SIA DC8 • SIA DCS20 • Ademco Contact ID • 3+1 1400 Hz • 3+12300 Hz • 4+2 1400 Hz • 4+2 2300 Hz The DACT-E3 can be remotely located via the local RS-485 serial interface. 1.4.3 Repeater (RPT-E3) The RPT-E3 sub-assembly provides a remote interface between the ILI-MB-E3,IL195-MB-E3 and the Broadband Network. The unit can be used with unshielded,twisted-pair wire or fiber-optic cable as the Model(RPTE3-F0). The Model(RPT-E3-UTP)is used with only twisted-pair. 1.4.4 Intelligent Loop Interface - Slave Board (ILI-S-E3) These sub-assemblies provide two(2),additional signaling line circuits.The units are physically identical to the ILI-MB-E3 except some components are omitted.Each unit occupies one node on the Broadband network.The following sensors and modules are used with each unit. • The ILI-S-E3 accommodates the ASD/ATD Series sensors and AMM/MMI/AOM/MMO Series modules. For a comprehensive list,refer to the Compatibility Addendum to Gamewell-FC1 Manuals, P/N 9000-0427. • Audible Sounder An Alarm/Trouble/Supervisory sounder is located on the ILI-S-E3. E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 11 System Overview Optional Modules 1.4.5 Intelligent Loop Interface XP95 - Slave Board (ILI95-S-E3) These sub-assemblies provide two(2),additional signaling line circuits. The units are physically identical to the ILI95-MB-E3 except some components are omitted.Each unit occupies one node on the Broadband network.The following sensors and modules are used with each unit. • The ILI95-S-E3 accommodates the Apollo Series of sensors and modules. For a comprehensive list,refer to the Compatibility Addendum to Gamewell-FCI Manuals, P/N 9000-0427. • Audible Sounder An Alarm/Trouble/Supervisory sounder is located on the ILI95-S-E3. 1.4.6 Remote LED Driver (ANU-48) The ANU-48 LED Driver provides output for up to forty-eight(48),remote LEDs.The ILI-MB-E3 and ILI95-MB-E3 will support up to a total of sixteen(16),ANU-48 and/or ASM-16 units. The ANU-48 can be remotely located via the RS-485 serial interface. 1.4.7 LCD Network Graphic Annunciator (NGA) The NGA mounts in the E3 Series enclosure or it may be remotely located.It provides an LCD display of system events,together with system status indicating LEDs and touch-screen switches for Alarm Acknowledge,Trouble Acknowledge, Signal Silence and System Reset. The NGA occupies one node on the Broadband network.The background display can be programmed to display,"Command Center in Control." 1.4.8 Remote LCD Display (LCD-7100) The LCD-7100 Remote LCD Display provides an 80-character display and function keys for the following: • "Alarm Acknowledge" "System Reset/Lamp Test" • "Trouble Acknowledge" "System Drill Test" • "Signal Silence" It features a key switch that renders the keypad inoperative until activated.The E3 Series System can support up to five(5),LCD-7100 displays. The 80-character display shows all pertinent information except for menus. 1.4.9 Intelligent Network Interface — Voice Gateway (INI-VG) The INI-VG Voice Gateway provides a network interface for the E3 Series Expandable Emergency Evacuation System. • The INI-VGC-FO or INI-VGC-UTP is used in conjunction with the Voice Evacuation Command Center(INCC-C). • The INI-VGX-FO or INI-VGX-UTP is used with the E3 Series®Broadband System. • The INI-VGE-FO or INI-VGE-UTP is used with the E3 Series®Classic System. Each of the INI-VG Series occupy one node on the Broadband Network. 1.4.10 AM-50, 50 Watt Amplifiers (AM-50) The AM-50 amplifiers may be installed in an INX cabinet whenever the E3 control is to be used in conjunction with the E3 Series,Expandable Emergency Evacuation System.It is used to provide 50 watts of audio through two(2),integral Class AB speaker circuits at 25VRMg.Up to four(4),AM- 50 amplifiers can be controlled by an INI-VGX Voice Gateway. 12 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 Specifications System Overview 1 .5 Specifications 1.5.1 Power Supply (PM-9/PM-9G) PM-9 Input Voltage: 120 VAC,60 Hz Input Current: 4.6 amps max. @ 120 VAC 60 Hz Output Voltage: 24 VDC FWR Output Current: 9 amperes Alarm max. continuous Output Current: 5 amperes Standby max.continuous(See Note 1) Operating Temperature: 32°to 120°F(0°to 49°C) Relative Humidity: 0 to 93%,non-condensing at 90°F(32°C) Supervised Non Power-Limited NOTE 1: Continuous standby loads in excess of.560 Amps up to 5 Amps may require Generator Backup or load shedding during an AC power failure. See Section 3.14 Standby Battery Calculations. PM-9G Input Voltage: 240VAC @ 50/60 Hz Input Current: 2.4 amps max. Output Voltage: 24 VDC FWR Output Current: 9 amperes Alarm max. continuous Output Current: 5 amperes Standby max.continuous(See Note 1) Operating Temperature: 32°to 120°F(0°to 49°C) Relative Humidity: 0 to 93%,non-condensing at 90°F(32°C) Supervised Non Power-Limited NOTE 1: Continuous standby loads in excess of.560 Amps up to 5 Amps may require Generator Backup or load shedding during an AC power failure. See Section 3.14 Standby Battery Calculations. 1.5.2 Signaling Line Circuits (ILI-E3 or IL195-E3 Series) • Two(2),Class"A", Style 6, 7,* or Class`B"Style 4 circuits • 24 VDC nominal • Power-limited • Supervised • 40 Ohm max.line impedance • 0.5 µf max.capacitance • Capacity of 159 analog sensors and 159 addressable devices per circuit(ILI-MB-E3 or ILI-S-E3) • Capacity of 126 sensors/modules per circuit(ILI95-MB-E3 or ILI95-S-E3) *Style 7 operation requires System Sensor,M50OX Isolator Module(ILI-MB-E3 or ILI-S-E3)or XP95-LI Line Isolator and XP95-LIB Line Isolator Base(ILI95-MB-E3 or ILI95-S-E3). Refer to the Compatibility Addendum to Gamewell-FC1 Manuals,P/N 9000-0427, Section 1 for a list of UL Listed,compatible sensors/modules. 1.5.3 Notification Appliance Circuits (ILI-MB-E3 or I1-I95-M13-E3) • Two(2),Class"A",Style Z,or Class"B"Style Y circuits. • Power-limited • Supervised • Non-coded • Maximum alarm load-2.0 amp per circuit Refer to the Compatibility Addendum to Gamewell-FC1 Manuals,PIN 9000-0427, Section 2 for a list of UL Listed,compatible notification appliances. E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 13 System Overview Specifications 1.5.4 Alarm Dry Contacts (ILI-MB-E3 or IL195-MB-E3) • Form"C" • Rated 2 amp @ 30 VDC(resistive) 1.5.5 Trouble Dry Contacts (ILI-MB-E3 or IL195-MB-E3) • Form"C" • Rated 2 amp @ 30 VDC(resistive) 1.5.6 Supervisory Dry Contacts (ILI-MB-E3 or IL195-MB-E3) • Form"C" • Rated 2 amp @ 30 VDC(resistive) 1.5.7 Earth Ground Connection (ILI-MB-E3 or IL195-MB-E3) Qj CAUTION: Terminal T133-3 must be connected to an earth ground connection per Article 760 of the National Electric Code. Failure to make proper earth ground connection to a metallic cold water pipe or driven ground rod to this terminal will result in the loss of lightning protection, reduce the tolerance of the system to transients, and will adversely affect the operation of the system. Panel neutral or conduit ground is not acceptable, minimum wire size is 14 AWG. 1.5.8 24 VDC Power, System (ILI-MB-E3 or IL195-MB-E3) • Unregulated FWR • Resettable and non-resettable,2.0 amp maximum per each circuit,2.5 amp maximum combined • Unsupervised • Power-limited 1.5.9 RS-232 Port The RS-232 port consists of the Terminal Block TB6 which provides a standard serial port for the connection to a Listed output device for a supplementary type service. Typical examples of such devices include any UL Listed EDP device(remote printer or video terminal),any UL Listed Signaling Device(such as the Keltron VS4095/5 printer),or any UL Listed Signal System Unit. Ratings: 15 VDC(max.) .05 amp(max.)current 115.2 Kbaud 8 bits, 1 stop bit,no parity 1.5.10 Battery Connection (PM-9 1PM-9G) • Supervised • 24 VDC nominal • Maximum battery size 55 AH • 1.7Amp maximum battery charge current • Non power-limited 1.5.11 City Master Box Output (ILI-MB-E3 or IL195-MB-E3) Voltage: 24 VDC(Nominal)FWR Supervisory Current: .0018 amp Alarm Current: .510 amp(max.) Box Trip Coil Resistance: 14.5 Ohms(max.) Line Resistance: 35 Ohms(max.) Supervised against Opens and Grounds 14 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Specifications System Overview Non Power-limited 1.5.12 Remote Signaling Output (Polarity Reversal) (ILI-MB-E3 or ILI95-MB-E3) Voltage: 24 VDC(nominal)FWR Supervisory Current: .012 amp Alarm Current: .012 amp Line Resistance: 2 ohms(max.) Supervised against Opens and Grounds Non Power-limited 1.5.13 Releasing Service (ILI-MB-E3 or ILI95-MB-E3) Voltage: 24 VDC(Nominal)FWR Supervisory Current: .0005 amp Alarm Current: .700 amp(max.) Line Resistance: 2 Ohms(max.) Supervised against Opens and Grounds Non Power-limited Refer to the Compatibility Addendum to Gamewell-FCI Manuals,PIN 9000-0427, Section 3 for a list of UL Listed,compatible releasing solenoids. E3 Series Installation/operation Manual—P/N 9000-05741 09/03/09 15 Section 2: Installation 2.1 General The E3 Series®is a modular system and is shipped unassembled. The backbox,doors,and sub- assemblies are individually packaged and can be easily assembled. 2.2 Location All components of the E3 Series®System should be located per the following requirements: • Installations are to be indoors only,in dry locations,protected from rain,water,and rapid changes in temperature that could cause condensation.Equipment must be securely mounted on rigid,permanent walls. • Operating temperature shall not exceed the range of 32°to 120°F(0 to 49°C). • Operating humidity not to exceed 93%non-condensing at 90°F(32°Q. • There should be adequate space around the installation to allow easy access for operation and servicing. • All sub-assemblies and components are to be located in conformance to local and national codes. • All installation field wiring shall be in conformance to local and national codes. 2.3 Unpacking Remove all sub-assemblies and accessories from their shipping cartons to access the enclosure. Remove and inspect the enclosure for shipping damage.Inspect all electronic sub-assemblies for damage without removing them from their anti-static protective bags.If any pieces are found damaged,notify the shipping carrier immediately.Report missing components to the Gamewell- FCI Customer Service. 2.4 Mounting Sub-assemblies 1. The ILI-MB-E3 and ILI95-MB-E3 consist of a main operating board with pluggable terminal strips.Install this sub-assembly immediately unless any optional units are to be used in the system.Refer to the Installation Instructions P/N 9000-0579 and P/N 9001-0017.Before installing the ILI-MB-E3 or ILI95-MB-E3 into the system backbox,refer to the Installation Instructions shipped with each sub-assembly for the proper procedures: 2. Install the door after the sub-assemblies are in place.Note that the door can only be installed (or removed)when it is opened at least 90°from the backbox. 16 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 Cabinets Installation 2.5 Cabinets The E3 control panel may be assembled in various cabinets to suit the installation. Typical arrangements are shown.There are four cabinet options: • Cabinets Al and A2 • Cabinet A(remote) • Cabinet B • Cabinet C • Cabinet D • B-Slim Cabinet E3 Inner Door Bonding Strap IFNOTE: Electrical continuity for grounding of the inner door of the cabinets is ensured by a bonding wire. 2.5.1 Cabinet Al, Installation Instructions The E3 Series©Cabinet Al,assembly typically includes the following: • Backbox — Cabinet AI,Trim Rings(Optional Accessory) • Outer Door • Inner Door: — unit • Hardware Kit 0 0 0 0 0 0 0 0 0 'rMGarnewell Figure 2.5.1.1 Cabinet A1, (Standard View) E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 17 Installation Cabinets 2.5.1.1 Cabinet A1, Backbox Installation 1. Prepare the mounting site by pre-drilling four(4),#10 screws using the dimensions shown in the figure below.Use four(4),#10 screws. NOTE: If the fasteners are anchored to wallboard, use#10 wall anchors. Mountings to concrete walls should be backed by plywood to insulate the equipment from possible condensation. 2. To mount the backbox,secure with two(2),410 screws in the two-hole mounting pattern as shown in Locations 1 and 2 of the figure below. 3. Set the backbox over the top,two-hole mounting pattern, and hang the backbox over the two screw heads. 4. Insert and secure two(2),910 screws in the two-hole mounting pattern as shown in Locations 3 and 4 of the figure below. BACKBOX TOP 875" 3. 0" 1 O 1.25" 5.75" BACKBOX 8.75" 1.70" 4.85" 1.00" 1.20" 3.00" 1 2 O O 10.00"7.46"4.00" 30 4 o O Figure 2.5.1.1.1 Cabinet A1, Backbox Installation 18 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Cabinets Installation 2.5.1.2 Cabinet Al, Trim Rings Installation (Optional Accessory) 1. Insert the Cabinet Al,trim top ring over the top two-hole mounting pattern. 2. Secure with two(2),#6 Hex Kep nuts in the two-hole mounting pattern on the top of the backbox as shown in Locations 1 and 2 of the figure below. 3. Insert the Cabinet Al,trim bottom ring on the bottom two-hole mounting pattern. 4. Secure with two(2),#6 Hex Kep nuts in the two-hole mounting pattern on the bottom of the backbox as shown in Locations 3 and 4 of the figure below. 5. Insert the Cabinet Al,trim left ring on the left side of the two-hole mounting pattern. 6. Secure with two(2),#6 Hex Kep nuts in the two-hole mounting pattern on the left side of the backbox as shown in Locations 5 and 6 of the figure below. 7. Insert the Cabinet Al,trim right ring on the right side of the two-hole mounting pattern. 8. Secure with two(2),#6 Hex Kep,nuts in the two-hole mounting pattern on the right side of the backbox as shown in Locations 7 and 8 of the figure below. NOTE: Use the Trim Ring Hardware Kit provided.The Trim top/bottom and Trim right/left rings are interchangeable. E3 Cabinet Al T Trim Fong ® 1 E3 Cabi net Al 2 Left Trim Ring o . 7 NOTE: E3 Cabinet A1, #6 HEX, IMPS NUTS, 3 Right Trim Ring (8 PLACES) 4 E3 Cabinet Al Bottom Trim Mng Figure 2.5.1.2.1 Cabinet A1, Trim Rings Installation E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 19 Installation Cabinets 2.5.1.3 Cabinet Al, Outer Door Installation 1. Mount the outer door on the backbox. 2. Secure with three(3),#6-32 nuts in the three-hole mounting pattern on the left side of the backbox as shown in Locations 1,2,and 3 of the figure below. CABI N ET A 1, BACKBOX CABINET A 1, OUTER DOOR ° 3 2 e � � 2 NN F 1 3 PACES Figure 2.5.1.3.1 Cabinet A1, Outer Door Installation 20 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation 2.5.1.4 Cabinet Al, Inner Door to the Backbox Installation 1. Place the nylon spacer(#10)over the backbox bottom hinge pin as shown in Location 1 of the figure below. 2. Mount the inner door to the backbox by sliding the inner door,top hinge pin hole onto the backbox top hinge pin as shown in Location 2. 3. Align the inner door bottom hinge pin hole with the backbox bottom hinge pin. 4. Slide the door over the inner door bottom hinge pin hole on top of the nylon spacer,and secure using the#8 x.5"screw as shown in Location 2 of the figure below. 5. After the inner door is secured in place,attach the one end of the bonding wire to the top hinge pin using the#8 x.5"screw as shown in Location 3 of the figure below. NOTE: For information on the installation of the opposite end of the bonding wire, see Section 2.5.1.5 Step 2, Location 2 of Figure 2.5.1.5.1. CABINET Al, BACKBOX BACKBOX TOP HINGE PIN INNER DOOR TOP2 HINGE PIN HOL SCREW CABINET A1, #8 x.5" 3 INNER DOOR O BONDING WIRE SCREW #8x.5' 1� N BACKBOX 70 1,04,IVA BOTTOM HINGE PIN INNER DOOR BOTTOM HINGE PIN HOLE Figure 2.5.1.4.1 Cabinet A1, Inner Door to the Backbox Installation E3 Series Installation/operation Manual—P/N 9000-0574:17 09/03/09 21 Installation Cabinets 2.5.1.5 Cabinet Al, Inner Door Installation 1. Mount the on the inner door and secure with four(4),#6-32 nuts in the four-hole mounting pattern as shown in Location 1 of the figure below. 2. Secure the opposite end of the bonding wire to the welded 96 stud on the inner side of the inner door using the#6 nut as shown in Location 2 of the figure below. 3. After the panel is wired,use the thumbscrews to secure the inner door to the backbox as shown in Location 3 of the figure below. NUT, HEX BONDING (#6-32) WIRE 4 PLACES NGA 2 2 1 MODULE 1 CABINET Al, INNER DOOR o ; 3 THUMBSCREWS TO SECURE THE INNER DOOR TO 1 THE BACKBOX 3 Figure 2.5.1.5.1 Cabinet Al, Inner Door Installation 22 E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 Cabinets Installation 2.5.2 Cabinet A2, Installation Instructions The E3 Series,Cabinet Al,assembly typically includes the following: • Backbox – Cabinet A2,Trim Rings(Optional Accessory) • Outer Door • Inner Door: – LCD-E3 Keypad • Hardware Kit O O O O O O O O O O O Figure 2.5.2.1 Cabinet A2, (Standard View) E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 23 Installation Cabinets 2.5.2.1 Cabinet A2, Backbox Installation 1. Prepare the mounting site by pre-drilling four(4),#10 screws using the dimensions shown in the figure below.Use four(4),#10 screws. NOTE: If the fasteners are anchored to wallboard, use#10 wall anchors. Mountings to concrete walls should be backed by plywood to insulate the equipment from possible condensation. 2. To mount the backbox,secure with two(2),410 screws in the two-hole mounting pattern as shown in Locations 1 and 2 of the figure below. 3. Set the backbox over the top,two-hole mounting pattern, and hang the backbox over the two screw heads. 4. Insert and secure two(2),910 screws in the two-hole mounting pattern as shown in Locations 3 and 4 of the figure below. 1 BACKBOX TOP .875" 3.00" t 07 T 1.25" 10.75" BACKBOX 13.25" 1.00'1 11.25" 1.70!!o- 10.35" FU 1.20" s ° a 3.00" 1 ° 2 o 0 ° ° 10.00" 4.00" 7.46" _0 3 ° ° 04 ° ° Figure 2.5.2.1.1 Cabinet A2, Backbox Installation 24 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Cabinets Installation 2.5.2.2 Cabinet A2, Trim Rings Installation (Optional Accessory) I. Insert the Cabinet A2,trim top ring over the top two-hole mounting pattern. 2. Secure with two(2),#6 Hex Kep nuts in the two-hole mounting pattern on the top of the backbox as shown in Locations 1 and 2 of the figure below. 3. Insert the Cabinet A2,trim bottom ring on the bottom two-hole mounting pattern. 4. Secure with two(2),#6 Hex Kep nuts in the two-hole mounting pattern on the bottom of the backbox as shown in Locations 3 and 4 of the figure below. 5. Insert the Cabinet A2,trim left ring on the left side of the two-hole mounting pattern. 6. Secure with two(2),#6 Hex Kep nuts in the two-hole mounting pattern on the left side of the backbox as shown in Locations 5 and 6 of the figure below. 7. Insert the Cabinet A2,trim right ring on the right side of the two-hole mounting pattern. 8. Secure with two(2),#6 Hex Kep nuts in the two-hole mounting pattern on the right side of the backbox as shown in Locations 7 and 8 of the figure below. For information on flush-mounting,refer to the E3 Series Cabinet Trim Rings Installation Instructions,PIN 9001-0058. NOTE: Use the Trim Ring Hardware Kit provided. The trim top/bottom and trim left/right rings are interchangeable. E3 Cabinet A2, Top Trim Ring 5 E3 Cabinet A2, Left Trim Ring 0 7 NOTE: O #6 HEX, 3 KEPS NUTS, E3 Cabinet A2, (8 PLACES) Right Trim Ring 8 E3 Cabinet A2, Bottom Trim Ring Figure 2.5.2.2.1 Cabinet A2, Trim Rings Installation E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 25 Installation Cabinets 2.5.2.3 Cabinet A2, Outer Door Installation 1. Mount the outer door on the backbox. 2. Secure with three(3),#6-32 nuts in the three-hole mounting pattern on the left side of the backbox as shown in Locations 1,2,and 3 of the figure below. CABINET A2, BACKBOX e CABINET A2, OUTER DOOR ° 3 3 2 % 2 � 3 p�gC�csX ° Figure 2.5.2.3.1 Cabinet A2, Outer Door Installation 26 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation 2.5.2.4 Cabinet A2, Inner Door to the Backbox Installation 1. Place the nylon spacer(#10)over the backbox bottom hinge pin as shown in Location 1 of the figure below. 2. Mount the inner door to the backbox by sliding the inner door,top hinge pin hole onto the backbox top hinge pin as shown in Location 2. 3. Align the inner door bottom hinge pin hole with the backbox bottom hinge pin. 4. Slide the door over the inner door bottom hinge pin hole on top of the nylon spacer,and secure using the#8 x .5"screw as shown in Location 2 of the figure below. 5. After the inner door is secured in place,attach the one end of the bonding wire to the top hinge pin using the#8 x.5"screw as shown in Location 3 of the figure below. NOTE: For information on the installation of the opposite end of the bonding wire,see Section 2.5.2.5, Step 2, Location 2 of Figure 2.5.2.5.1. CABINET A2, BACKBOX BACKBOX TOP HINGE PIN INNER DOOR TOP HINGE PIN HOLE 2 CREW 3 #8 x.5"' CABINET A2, BOND NG INNER DOOR WIRE SCREW #8 x.5" O O 4 1 0 � BACKBOX —70 0 O BOTTOM HINGE PIN �Q INNER DOOR BOTTOM HINGE PIN HOLE Figure 2.5.2.4.1 Cabinet A2, Inner Door to the Backbox Installation E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 27 Installation Cabinets 2.5.2.5 Cabinet A2, Inner Door Installation 1. Mount the on the inner door and secure with four(4),#6-32 nuts in the four-hole mounting pattern as shown in Location 1 of the figure below. 2. Secure the opposite end of the bonding wire to the welded 96 stud on the inner side of the inner door using the#6 nut as shown in Location 2 of the figure below. 3. After the panel is wired,use the thumbscrews to secure the inner door to the backbox as shown in Location 3 of the figure below. NUT, HEX BONDING (#6-32) WIRE 8 PLACES LCD-E3 ~� KEYPAD 1 CABINET A2, 1 INNER DOOR m � � o 1 � o 3 ° o THUMBSCREWS 1 TO SECURE THE INNER DOOR TO THE BACKBOX 3 Figure 2.5.2.5.1 Cabinet A2, Inner Door Installation 28 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Cabinets Installation 2.5.3 Cabinet A or AA, 2-Bay Installation Instructions The E3 Series®,Cabinet A or Cabinet AA,2-Bay assembly typically includes the following: • Bacicbox — Cabinet A,Trim Rings(Optional Accessory) • Outer Door • Inner Door,2-Bay: — One(1),LCD-E3 unit — One(1),ASM-16 unit One(1),Blank Plate Optional • Hardware Kit NOTE: Cabinet AA may be used with the 2-Bay and 3-Bay outer door.A microphone can be installed as an optional accessory in the blank plate. For information on the Cabinet A or Cabinet AA installation, refer Section 2.5.3 and Section 2.5.4. 0 0 0 0 0 0 Q 0 0 0 0 Gam*vMl "gym Figure 2.5.3.1 Cabinet A or AA, 2-Bay Standard View E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 29 Installation Cabinets 2.5.3.1 Cabinet A or AA, 2-Bay and 3-Bay Backbox Installation 1. Prepare the mounting site by pre-drilling four(4),#10 screws using the dimensions shown in the figure below.Use four(4),#10 screws. NOTE: If the fasteners are anchored to wallboard, use#10 wall anchors. Mountings to concrete walls should be backed by plywood to insulate the equipment from possible condensation. 2. To mount the backbox,secure with two(2),#10 screws in the two-hole mounting pattern as shown in Locations 1 and 2 of the figure below. 3. Set the backbox over the top,two-hole mounting pattern, and hang the backbox over the two screw heads. 4. Insert and secure two(2),#10 screws in the two-hole mounting pattern as shown in Locations 3 and 4 of the figure below. NOTE:Add knockouts to the left and right side of the rear panel of the backbox. Do not add knockouts in the center or top of the backbox.To add larger knockouts, increase the size of the existing knockouts. CABINET A BACKBOX TOP .875" 3.00" ? 1 0 1.25" 16.75" CABINET AA BACKBOX TOP 1.25" O 4.50" o o o 0 1.25' 16.75" BACKBOX 19.25" .4-1.70'- 15.85" 1.00" 1. 0" 0 r 3.00" 1 0 2 10.00"7.46"4.00" ,i, o IF 3 4 Figure 2.5.3.1.1 Cabinet A or AA, 2-Bay and 3-Bay Backbox Installation 30 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Cabinets Installation 2.5.3.2 Cabinet A or AA, Trim Rings Installation (Optional Accessory) 1. Insert the Cabinet A,trim top ring over the top three-hole mounting pattern. 2. Secure with three(3),96 Hex Kep nuts in the three-hole mounting pattern on the top of the backbox as shown in Locations 1,2 and 3 of the figure below. 3. Insert the Cabinet A,trim bottom ring on the bottom three-hole mounting pattern. 4. Secure with three(3),#6 Hex Kep nuts in the three-hole mounting pattern on the bottom of the backbox as shown in Locations 4,5 and 6 of the figure below. 5. Insert the Cabinet A,trim left ring on the left side of the two-hole mounting pattern. 6. Secure with two(2),#6 Hex Kep nuts in the two-hole mounting pattern on the left side of the backbox as shown in Locations 7 and 8 of the figure below. 7. Insert the Cabinet A,trim right ring on the right side of the two-hole mounting pattern. 8. Secure with two(2),#6 Hex Kep nuts in the two-hole mounting pattern on the right side of the backbox as shown in Locations 9 and 10 of the figure below. For information on flush-mounting,refer to the E3 Series Cabinet Trim Rings Installation Instructions PIN 9001-0058. NOTE: Use the Trim Ring Hardware Kit provided. The trim top/bottom and trim left/right rings are interchangeable. E3 Cabinet A E3 Cabinet A 7 or AA, Top or AA, Left Trim Ring Trim Ring 2 8 O 0 NOTE: o #6 HEX, 4 KEPS NUTS, E3 Cabinet (10 PLACES) A or AA, 10 Right Trim E3 Cabinet A or AA, Ring Bottom Trim Ring Figure 2.5.3.2.1 Cabinet A or AA, Trim Ring Installation E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 31 Installation Cabinets 2.5.3.3 Cabinet A or AA, 2-Bay and 3-Bay Outer Door Installation 1. Mount the 2-bay or 3-bay outer door on the backbox. 2. Secure with three(3),#6-32 nuts in the three-hole mounting pattern on the left side of the backbox as shown in Locations 1,2,and 3 of the figure below. CABINET A or AA, BACKBOX e CABINET A or AA, 2-BAY AND 3-BAY, OUTER DOOR 3 3 2 o 1 0 N� o r 1 3p�gC • FS o Figure 2.5.3.3.1 Cabinet A or AA, 2-Bay and 3-Bay Outer Door Installation 32 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation 2.5.3.4 Cabinet A or AA, 2-Bay Inner Door to the Backbox Installation 1. Place the nylon spacer(#10)over the backbox,bottom hinge pin as shown in Location I of the figure below. 2. Mount the inner door to the backbox by sliding the inner door top hinge pin hole onto the backbox top hinge pin as shown in Location 2 of the figure below. 3. Align the inner door bottom hinge pin hole with the backbox bottom hinge pin. 4. Slide the inner door over the inner door bottom hinge pin hole on top of the nylon spacer,and secure using the#8 x .5"screw as shown in Location 2 of the figure below. 5. After the inner door is secured in place,attach the one end of the bonding wire to the top hinge pin using the#8 x.5"screw as shown in Location 3 of the figure below. NOTE: For information on the installation of the opposite end of the bonding wire,see Section 2.5.3.5, Step 3 and Location 3 of Figure 2.5.3.5.1. CABINET A or AA, BACKBOX TOP 2-BAY BACKBOX HINGE PIN INNER DOOR TOP 2 HINGE PIN HOLE SCREW 3 #8 x.5"' CABINET A or AA, BONDING 2-13AY INNER DOO WIRE SCREW #8x.5" 0 J ww-- "Y J BACKBOX �4 J BOTTOM J HINGE PIN- INNER DOOR F o J BOTTOM HINGE PIN HOLE J Figure 2.5.3.4.1 Cabinet A or AA, 2-Bay Inner Door to the Backbox Installation E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 33 Installation Cabinets 2.5.3.5 Cabinet A or AA, 2-Bay, Inner Door Installation 1. Mount the LCD-E3 keypad on the inner door and secure with eight(8),#6-32 nuts in the eight- hole mounting pattern as shown in Location 1 of the figure below. 2. Mount the ASM-16 on the inner door and secure with four(4),#6-32 nuts in the four-hole mounting pattern as shown in Location 2 of the figure below. 3. Secure the opposite end of the bonding wire to the welded#6 stud on the inner side of the inner door using the#6 nut as shown in Location 3 of the figure below. 4. After the panel is wired,use the thumbscrews to secure the inner door to the backbox as shown in Location 4 of the figure below. NUT, HEX (#6-32) 12 PLACES BONDING LCD-E3 WIRE KEYPAD 3 1 CABINET A, 2-BAY, ° 1 INNER DOOR ° ° 4 ,® I 1� ° 1� ° ° 1 4 ° o ASM-16 ° THUMBSCREWS TO SECURE THE ° 2 INNER DOOR TO THE BACKBOX ° 4 Figure 2.5.3.5.1 Cabinet A or AA, 2-Bay Inner Door Installation 34 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation 2.5.4 Cabinet A or AA, 3-Bay Installation Instructions The E3 Series®Cabinet A or Cabinet AA 3-Bay assembly typically includes the following: • Backbox – INI-VGC • Outer Door • Inner Door,3-Bay: – unit or Blank Plate – MIC – ASM-16s – Blank Plates Optional – NGA • Hardware Kit 0 0 0 0 0 0 0 0 0 0 0 GMTOWL-1I Figure 2.5.4.1 Cabinet A or AA, 3-Bay (Standard View) E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 35 Installation Cabinets 2.5.4.1 Cabinet A or AA, 3-Bay, Inner Door to the Backbox Installation 1. Place the nylon spacer(#10)over the backbox bottom hinge pin as shown in Location 1 of the figure below. 2. Mount the inner door to the backbox by sliding the inner door,top hinge pin hole onto the backbox top hinge pin as shown in Location 2. 3. Align the inner door bottom hinge pin hole with the backbox bottom hinge pin. 4. Slide the door over the inner door bottom hinge pin hole on top of the nylon spacer,and secure using the#8 x .5"screw as shown in Location 2 of the figure below. 5. After the inner door is secured in place,attach the one end of the bonding wire to the top hinge pin using the#8 x.5"screw as shown in Location 3 of the figure below. NOTE: For information on the installation of the opposite end of the bonding wire,see Section 2.5.4.2, Step 3 and Location 4 of Figure 2.5.4.2.1. CABINET A or AA, BACKBOX TOP 3-BAY BACKBOX HINGE PIN INNER DOOR TOP HINGE PIN HOLE 3 CABINET A or SCRE BONDING AA, 3-BAY, #8 x.I.. WIRE INNER DOOR SCREW #8 x.5" 0 J 1 � N Y� J BACKBOX 0% ONS BOTTOM AqC+ o HINGE PIN FR INNER DOOR o BOTTOM HINGE PIN HOLE Figure 2.5.4.1.1 Cabinet A or AA, 3-Bay Backbox Sub-Assembly Installation 36 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Cabinets Installation 2.5.4.2 Cabinet A or AA, 3-Bay, Inner Door Installation 1. Mount the two(2),ASM-16 sub-assemblies on the inner door and secure with eight(S),#6-32 nuts in each of the two(2),four-hole mounting patterns as shown in Locations 1 and 3 of the figure below. 2. Mount the sub-assembly on the inner door and secure with four(4),#6-32 nuts in the four-hole mounting pattern as shown in Location 2 of the figure below. 3. Secure the opposite end of the bonding wire to the welded#6 stud on the inner side of the inner door using the#6 nut as shown in Location 4 of the figure below. 4. After the panel is wired,use the thumbscrews to secure the inner door to the backbox as shown in Location 5 of the figure below. NUT, HEX, (#6-32") BONDING 12 PLACES ASM-16 WIRE 4 CABINET A, 3-BAY, 1 4 INNER DOOR i 2 1 NGA o � o � 2 � � 0 0 1 3 0 0 5m 2 o THUMBSCREWS ASM-16 3 TO SECURE THE INNER DOOR TO THE BACKBOX 5® Figure 2.5.4.2.1 Cabinet A or AA, 3-Bay Inner Door Installation E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 37 Installation Cabinets 2.5.5 Cabinet B Installation Instructions The Cabinet B assembly typically houses the following: • Backbox: – DACT-E3 -ILI-S-E3/11,195-S-E3 (Optional) – RPT-E3 -PM-9/PM-9G – ILI-MB-E3/IL195-MB-E3 -Batteries – E3 Cabinet B,Trim Rings(Optional Accessory) • Outer Door • Inner Door,2-Bay: – LCD-E3 -ASM-16 or blank Plate • Hardware Kit �!I ('aI11eWCll Figure 2.5.5.1 Cabinet B, Standard View 38 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation 2.5.5.1 Cabinet B, Backbox Installation 1. Prepare the mounting site by pre-drilling four(4),#10 screws,using the dimensions shown in figure below.Use four(4),#10 screws. NOTE: If the fasteners are anchored to wallboard, use#10 wall anchors. Mountings to concrete walls should be backed by plywood to insulate the equipment from possible condensation. 2. Secure with two(2),#10 screws in the two-hole mounting pattern as shown in Locations 1 and 2 of the figure below. 3. Set the backbox over the top,two-hole mounting pattern, and hang the Backbox over the two screw heads. 4. Insert and secure two(2),#10 screws in the two-hole mounting pattern as shown in Locations 3 and 4 of the figure below. NOTE:Add knockouts to the left and right side of the rear panel of the backbox. Do not add knockouts in the center or top of the backbox,above the ILI-MB-E3/IL195-MB-E3, behind or below the batteries.To add larger knockouts, increase the size of the existing knockouts. BACKBOX TOP 1.25' BACKBOX DEPTH =4.50" 4.50" 0 1.50" 16.38" BACKBOX 19.38" BACKBOX —p-3.38' 16.00" SIDE PANEL � 1.50" f- 1.35" . . 25" 2. 5„ .50" 2 1 • • 8.00" o 16.69" 9 3/8" IF • 0 bn 4 Figure 2.5.5.1.1 Cabinet B, Backbox Installation E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 39 Installation Cabinets 2.5.5.2 Cabinet B Trim Rings Installation (Optional Accessory) 1. Insert the Cabinet B,trim top ring over the top three-hole mounting pattern. 2. Secure with three(3),#6 Hex Kep nuts in the three-hole mounting pattern on the top of the backbox as shown in Locations 1,2 and 3 of the figure below. 3. Insert the Cabinet B,trim bottom ring on the bottom three-hole mounting pattern. 4. Secure with three(3),#6 Hex Kep nuts in the three-hole mounting pattern on the bottom of the backbox as shown in Locations 4,5 and 6 of the figure below. 5. Insert the Cabinet B,trim left ring on the left side of the three-hole mounting pattern. 6. Secure with three(3),#6 Hex Kep nuts in the three-hole mounting pattern on the left side of the backbox as shown in Locations 7, 8 and 9 of the figure below. 7. Insert the Cabinet B,trim right ring on the right side of the three-hole mounting pattern. 8. Secure with three(3),#6 Hex Kep nuts in the three-hole mounting pattern on the right side of the backbox as shown in Locations 10, 11 and 12 of the figure below. For information on flush-mounting,refer to the E3 Series Cabinet Trim Rings Installation Instructions,PIN 9001-0058. NOTE: Use the Trim Ring Hardware Kit provided. The trim top/bottom and trim left/right rings are interchangeable. E3 Cabinet B, 7 Top Trim Ring E3 Cabinet B 3 Left Trim Ring o j ° ~10 ° NOTES: WB,#6 HEX, E3 Cabinet B, KEPS NUTS Right Trim Rinc (12 PLACESE3 CabBottom Figure 2.5.5.2.1 Cabinet B, Trim Rings Installation 40 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation 2.5.5.3 Cabinet B, Outer Door Installation 1. Mount the outer door on the backbox. 2. Secure with four(4),#6 nuts in the four-hole mounting pattern on the left side of the backbox as shown in Locations 1,2,3,and 4 of the figure below. CABINET By BAICKBCX 4 CABINET R ° OU rER DOOR 3 ° ° ° ° 2 ® 0 ' 0 1 41) 4� Figure 2.5.5.3.1 Cabinet B, Outer Door Installation E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 41 Installation Cabinets 2.5.5.4 Cabinet B, Backbox Sub-Assembly Installation (Typical) 1. Mount the ILI-MB-ENILI95-MB-E3 over the standoffs in the backbox and secure with eight, (8),standoffs,(3/16"hex,#440 x 1.0")in the eight-hole mounting pattern as shown in Location 1 of Figure 2.5.5.4.2. (Note:PCB orientation). 2. Mount the DACT-E3 and the RPT-E3 on top of the ILI-MB-E3/IL195-MB-E3 and secure with eight(8),screws(#4-40 x 3/8")into the eight(8),standoffs as shown in Location 2 of Figure 2.5.5.4.2. (Note: PCB orientation). 3. Set the PM-9/PM-9G over the standoffs in the backbox and secure with six(6),screws(#4-40 x 3/8")in the six-hole mounting pattern as shown in Location 3 of Figure 2.5.5.4.2. (Note: PCB orientation). 4. Place the batteries in the backbox.The cabinet will accommodate two(2)batteries up to a maximum of 18 amp/hours capacity. ILI-M B-E3/11,195-M B-E3 DACT-E3 RPT-E3 0 w w w w w O O O D O le_ PM-9/PM-9G I 00 p� ; PMS,PMPe o a 0 0 0 0 o. ii 2S 0 BATTERIES 0 0 Figure 2.5.5.4.1 Cabinet B, Backbox Sub-Assembly (Standard View) 42 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation CABINET B, BACKBOX D ILI-MB-E3/I LI95-MB-3, 8-hole mounting pattern STANDOFF, ILI-MB-E3/ PM-9 1PM-9G, 3/16",#440 x 1.0" ILI95-MB-E3 6-hole mounting 8 PLACES PER (NOTE:PCB p attern / O ILI-MB-E3/ILI95-MB-E3 PCB ORIENTATION) w SCREW, DACT-E3 o 9M�e.F� #440 X 3/8" (NOTE:PCB AcTF? �QF� 4 PLACES PER ORIENTATION) •" - o DACT-E 3 PCB 2 e,9TT F PM-9/PM-9G (NOTE:PCB hj9 ORIENTATION) RPT-E3 (NOTE:PCB SCREW, ORIENTATION) #4-40 X 6 PLACES PER SCREW, PM-9/PM-9G PCB #4-40 X 3/8" �+ 4 PLACES PER RPT-E3 PCB Figure 2.5.5.4.2 Cabinet B, Backbox Sub-Assembly (Exploded View) E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 43 Installation Cabinets 2.5.5.5 Cabinet B, Inner Door to the Backbox Installation 1. Place the nylon spacer(5/8"x.3141D x.312)over the backbox,bottom hinge pin as shown in Location 1 of the figure below. 2. Mount the inner door to the backbox by sliding the inner door top hinge pin hole onto the backbox top hinge pin as shown in Location 2. 3. Align the inner door bottom hinge pin hole with the backbox bottom hinge pin. 4. Slide the inner door over the inner door bottom hinge pin hole on top of the nylon spacer,and secure using the#8 x .5"screw as shown in Location 2 of the figure below. 5. After the inner door is secured in place,attach one end of the bonding wire to the top hinge pin using the#8 x.5"screw as shown in Location 3 of the figure below. NOTE: For information on the installation of the opposite end of the bonding wire,see Section 2.5.5.6, Step 3 and Location 3 of Figure 2.5.5.6.1. CABINET B, BACKBOX TOP BAC OX HINGE PIN INNER DOOR TOP HINGE PIN HOLE SCREWS 3 #8 x.0-- BONDING WIRE CABINET B, o 0 INNER DOOR o ° ® o 0 o ° 0 0 0 0 o ° SCREW #8x.5" 0 1 ® Ny ACKBOX 0),V BOTTOM— HINGE PIN OZ 140 INNER DOOR BOTTOM x fir? HINGE PIN HOLE Figure 2.5.5.5.1 Cabinet B, Inner Door to the Backbox Installation 44 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Cabinets Installation 2.5.5.6 Cabinet B, Inner Door Installation 1. Mount the LCD-E3 keypad on the inner door and secure with eight(8),#6-32 nuts in the eight- hole mounting pattern as shown in Location 1 of the figure below. 2. Mount the ASM-16 on the inner door and secure with four(4),#6-32 nuts in the four-hole mounting pattern as shown in Location 2 of the figure below. 3. Secure the opposite end of the bonding wire to the welded#6 stud on the inner side of the inner door using the#6 nut as shown in Location 3 of the figure below. 4. After the panel is wired,use the thumbscrews to secure the inner door to the backbox as shown in Location 4 of the figure below. NUT, HEX (#6-32) BONDING 12 PLACES LCD-E3 VH 3 ASW16 'W'k CABINET B, 1 INNER DOOR 1 � �1 THUMBSCREWS OTO SECURE THE INNER DOOR TO THE BACKBOX Figure 2.5.5.6.1 Cabinet B, Inner Door Installation E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 45 Installation Cabinets 2.5.6 Cabinet C, E3-INX-C Plate Installation Instructions The Cabinet C Assembly typically houses the following: • Backbox: — Telephone Assembly-Two Batteries — Microphone Assembly — E3 Cabinet C,Trim Rings(Optional Accessory) • E3-INX C Plate Outer Door • E3-INX C Plate: — ILI-MB-E3/11,195-MB-E3 — PM-9/PM-9G — DACT-E3 — INI-VG — RPT-E3 — Up to a maximum of four(4),AM-50 amplifiers(Optional) • Hardware Kit 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 D 0 D Gamewwell o Figure 2.5.6.1 Cabinet C, Standard View 46 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation 2.5.6.1 Cabinet C, Backbox Installation 1. Prepare the mounting site by pre-drilling four(4),#10 screws,using the dimensions shown in the figure below.Use four(4),#10 screws. NOTE: If the fasteners are anchored to a wallboard,use#10 wall anchors. Mountings to concrete walls should be backed by plywood to insulate the equipment from possible condensation. 2. Secure with two(2),#10 screws in the two-hole mounting pattern as shown in Locations 1 and 2 of the figure below. 3. Set the backbox over the top,two-hole mounting pattern, and hang the Backbox over the two screw heads. 4. Insert and secure two(2),#10 screws in the two-hole mounting pattern as shown in Locations 3 and 4 of the figure below. NOTE:Add knockouts to the left and right side of the rear panel of the backbox. Do not add knockouts in the center or top of the backbox,above the ILI-MB-E3/ILI95-MB-E3, behind or below the batteries.To add larger knockouts, increase the size of the existing knockouts. BACKBOX TOP 1.25" BACKBOX DEPTH —4.50" 4.50" 0 16.38" BPI BACKBOX BACKBOX SIDE PANEL 19.38" X1.50" 1.70" 3.38" 16.00" —2.2 5 1.35" �O .5.250" 1 2 8.00" 0 0 0 30.00"27. 1' 8.00" 0 0 0 3 0 Figure 2.5.6.1.1 Cabinet C, Backbox Installation E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 47 Installation Cabinets 2.5.6.2 Cabinet C, Trim Rings Installation (Optional Accessory) 1. Insert the Cabinet C,trim top ring over the top three-hole mounting pattern. 2. Secure with three(3),96 Hex Kep nuts in the three-hole mounting pattern on the top of the backbox as shown in Locations 1,2 and 3 of the figure below. 3. Insert the Cabinet C,trim bottom ring on the bottom three-hole mounting pattern. 4. Secure with three(3),#6 Hex Kep nuts in the three-hole mounting pattern on the bottom of the backbox as shown in Locations 4,5 and 6 of the figure below. 5. Insert the Cabinet C,trim left ring on the left side of the four-hole mounting pattern. 6. Secure with four(4),#6 Hex Kep nuts in the four-hole mounting pattern on the left side of the backbox as shown in Locations 7, 8,9 and 10 of the figure below. 7. Insert the Cabinet C,trim right ring on the right side of the four-hole mounting pattern. 8. Secure with four(4),#6 Hex Kep nuts in the four-hole mounting pattern on the right side of the backbox as shown in Locations 11, 12, 13 and 14 of the figure below. For information on flush-mounting,refer to the E3 Series Cabinet Trim Rings Installation Instructions,P/N 9001-0058. NOTE: Use the Trim Ring Hardware Kit provided. The trim top/bottom and trim left/right rings are interchangeable. E3 Cabinet C, 7 Top Trim Ring E3 Cabinet C,� ® 10 Left Trim Ring 9 0 0 12 10 ® E3 Cabinet C, 13 Right Trim Ring NOTE: #6 HEX, 4 KEPS NUTS, 5 (14 PLACES) 4 E3 Cabinet C, 6 Bottom Trim Ring Figure 2.5.6.2.1 Cabinet C, Trim Rings Installation 48 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Cabinets Installation 2.5.6.3 Cabinet C, E3-INX-C Plate, Outer Door Installation Mount the E3-TNX C Plate outer door to the backbox,by securing four(4),#6-32 nuts in the four- hole mounting pattern on the left side of the backbox. See Locations 1,2, 3,and 4 of the figure below. CABINET C, BACKBOX O CABINET C,INX E3 OUTER DOOR 4 O 0 3 0 0 o 2 0 N 4p y Figure 2.5.6.3.1 Cabinet C, E3-INX C Plate Outer Door Installation E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 49 Installation Cabinets 2.5.6.4 Cabinet C, E3-INX-C Plate, Installation 1. Mount the ILI-MB-E3/ILI95-MB-E3 over the standoffs on the E3-INX C plate and secure with eight(8),standoffs,(3/16"hex,#4-40 x 1")in the eight-hole mounting pattern as shown in Location 1 of Figure 2.5.6.4.2. 2. Mount the DACT-E3 and the RPT-E3 on top of the ILI-MB-E3/ILI95-MB-E3 and secure with eight(8),screws(#4-40 x 1/4")into the eight(8),standoffs as shown in Location 2 of Figure 2.5.6.4.2. 3. Mount the PM-9/PM-9G over the standoffs on the E3-INX C PLATE plate and secure with six (6),standoffs(1/4"hex,#4-40 x 2 1/4")in the six-hole mounting pattern as shown in Location 3 of Figure 2.5.6.4.2. 4. Mount the PM-9/PM-9G Adapter Plate on top of the PM-9/PM-9G and secure with six(6), screws(#4-40 x 1/4")into the six(6),standoffs as shown in Location 4 of Figure 2.5.6.4.2. 5. Mount the INING on the PM-9/PM-9G Adapter Plate and secure with six(6),screws (#4-40 x 1/4")as shown in Location 5 of Figure 2.5.6.4.2. 6. Mount two(2),AM-50 sub-assemblies on the E3-INX C plate and secure with eight(8), standoffs(3/16"#440 x 1 1/4")in the two(2),four-hole mounting patterns as shown in Location 6. 7. Mount two(2),AM-50 units on top of the two(2),AM-50 units,and secure eight(8),screws (#4-40 x 1/4")into the eight(8), standoffs as shown in Location 7 of Figure 2.5.6.4.2. ILI-M B-E3/ILI95-M B-E3 DACT-E3 RPT-E3 PM-9/PM-9G � � o INING OO e E ® -_ ® =° AM-50 T ❑ AM-50 a� ® ❑ AM-50 ® Alice ❑ � I ® ❑ AM-50 O .......... O Figure 2.5.6.4.1 Cabinet C, E34NX C Plate (Standard View) 50 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation CABINET C, E3-INX-C PLATE ��/9S eFj� 41 �eF3 ILI-MB-E3/ 2 ILI95-MB-E3 SCREW, STANDOFF, #4-40 x''/," 3/16"HEX 8 PLACES �.q ° #4-40 x 1" C�; A 8 PLACES F3 RAC tiIg/A�9 4PM-9/PM-9G - PM-9/PM-9G F3 ADAPTER PLATE STANDOFF, '/<"HEX #4-40 x 2 1/4" 0 4-i.4 6 PLACES 4 o gtii o so 0 Ads AM-50 0 /Ni q� G o So STANDOFF, Q�� • 3/16"HEX #4-40 x 1 '/<" 8 PLACES MAX. SCREW, SCREW, #4-40 x'/," #4-40 x'/<" 12 PLACES 8 PLACES Figure 2.5.6.4.2 Cabinet C, E3-INX-C Plate (Exploded View) E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 51 Installation Cabinets 2.5.6.5 Cabinet C, E3-INX-C Sub-Assemblies Plate to the Backbox Installation Mount the E34NX-C Plate sub-assemblies plate to the studs in the backbox and secure with six(6), #10-32 nuts as shown in Locations 1 thru 6 of the figure below. CAB WT C, BACKOX e 0 1 CAEN Er C, ENNX C SuB-ASSBV13UES PLATE 0 0 1 1,�, 3 0 1 4�� Ott F& �,zo 2 50 0 �N1c 6 0 0 0 o � 6-► NUT, FIEX, #10-32 6 PLACES Figure 2.5.6.5.1 Cabinet C, E3-INX C Plate to the Backbox Installation 52 E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 Cabinets Installation 2.5.7 Cabinet C, E3-INCC-C Plate Installation Instructions The Cabinet C,E3-INCC-C Plate Assembly typically houses the following: • Backbox — Two Batteries(up to 19 AH) • E3-INCC-C Plate Outer Door • E3-INCC-C Plate: — ILI-MB-E3/ILI95-MB-E3 — INI-VGC,INI-VGE — DACT-E3 — PM-9/PM-9G — RPT-E3 • E3-ILI-C Plate: — ILI-MB-E3/ILI95-MB-E3 — RPT-E3 — (2)ILI-E3 or ILI95-E3 Series — PM-9/PM-9G — DACT-E3 • AM-50 Extender Plate(Optional): — AM-50 • INCC-E3 PLATE 7-Bay Inner Door(Optional): — (1)LCD-E3 keypad — Combination of four(4)ASM-16s or ANU-48s — (1),INCC-TEL — (1),INCC-MIC • INCC-E3 8-Bay Inner Door: — (1) — (1),INCC-TEL — Combination of five(5), — (1),INCC-MIC ASM-16s,ANU-48s • Hardware Kit 0 ,Gameymo pia Figure 2.5.7.1 Cabinet C, E3-INCC-C Standard View E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 53 Installation Cabinets 2.5.7.1 Cabinet C, E3-INCC-C Plate, Outer Door Installation Mount the E3-INCC-C Plate outer door on the backbox,by securing four(4),#6-32 nuts in the four-hole mounting pattern on the left side of the backbox. See Locations 1 thru 4 of the figure below. CABINET C, BACKBOX O CABINET C, E3-INCC-C, OUTER DOOR 4 O 4 ® 3 D 3 4 0 . 2 O ' 1 2 1 ® N 4A�y�r �Fs 0Y, Figure 2.5.7.1.1 Cabinet C, E3-INCC-C Outer Door Installation 54 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation 2.5.7.2 Cabinet C, E3-INCC-C Plate Installation 1. Mount the ILI-MB-E3/ILI95-MB-E3 over the standoffs on the E3-INCC-C plate and secure by inserting eight(8),standoffs,(3/16"hex,#440 x 1")in the eight-hole mounting pattern as shown in Location 1 of Figure 2.5.7.2.2. 2. Mount the DACT-E3 and the RPT-E3 on top of the ILI-MB-E3/ILI95-MB-E3 and secure with eight(8),screws(#4-40 x 1/4")into the eight(8),standoffs as shown in Location 2 of Figure 2.5.7.2.2. 3. Mount the PM-9/PM-9G over the standoffs on the E3-INCC-C plate and secure with six(6), screws(#4-40 x.1/4")in the six-hole mounting pattern as shown in Location 3 of Figure 2.5.7.2.2. 4. Mount the INING over the standoffs on the E3-INCC-C plate and secure with six(6),screws (#4-40 x.1/4")in the six-hole mounting pattern as shown in Location 4 of Figure 2.5.7.2.2. ILI-MB-E3/ILI95-MB-E3 DACT-E3 RPT-E3 O O o O PM-9/PM-9G ° sP 0 � _ T ® I= F=®®® A o INING D PO ® A 00 E• 0 0 Figure 2.5.7.2.1 Cabinet C, E3-INCC-C Plate (Standard View) E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Installation Cabinets CABINET C, E3-INCC-C PLATE o � 1 w BFI ° STANDOFF, 3/16"HEX 2 • #4-40 x 1" 8 PLACES • 3 p -9 SCREW, �ArF3 #4-40 x 1/4" • 6 PLACES SCREW, #440 x'/4" //k/ 8 PLACES VG SCREW, o �� #4-40 x'/4" 6 PLACES m Figure 2.5.7.2.2 Cabinet C, E3-INCC-C Plate Installation 56 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Cabinets Installation 2.5.7.3 Cabinet C, E3-INCC-C PLATE, Sub-Assembly Plate to the Backbox Installation Mount the Cabinet C,E3-]NCC-C sub-assembly plate on the studs in the backbox and secure with six(6),#10-32 nuts as shown in Locations 1 thru 6 of the figure below. CABINET C, BACKBOX 0 1 CABINET C, E3-INCC-C, 0 0 SUB-ASSEMBLIES PLATE 3 2 0 1 O9CTF * 4 2 ® 0 F� 5 0 0 0 A 9 90 0 4 //WX eq� � �Fs 6 NUT, HEX #10-32 6 PLACES Figure 2.5.7.3.1 Cabinet C, E3-INCC-C Sub-Assembly Plate to the Backbox Installation E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 57 Installation Cabinets 2.5.7.4 Cabinet C, E3-ILI-C Plate Installation 1. Mount the first,ILI-MB-E3/ILI95-MB-E3 over the standoffs on the E34LI-C plate and secure with eight(8),standoffs,(3/16"hex,#4-40 x 1")in the eight-hole mounting pattern as shown in Location 1 of Figure 2.5.7.4.2. 2. Mount the DACT-E3 and the RPT-E3 on top of the ILI-MB-E3/IL195-MB-E3 and secure with eight(8),screws(#4-40 x 1/4")into the eight(8),standoffs as shown in Location 2 of Figure 2.5.7.4.2. 3. Mount the PM-9/PM-9G on the E34LI-C plate and secure with eight(8),screws(3/16"hex, #4-40 x 1/4")in the eight-hole mounting pattern as shown in Location 3 of Figure 2.5.7.4.2. 4. Mount the second,ILI-E3 or ILI95-E3 Series sub-assembly on the E34LI-C plate and secure with eight(8),standoffs(3/16"hex,#440 x 1/4")into the eight(8),standoffs as shown in Location 4 of Figure 2.5.7.4.2. 5. Mount the third,ILI-E3 or ILI95-E3 Series sub-assembly on top of the second ILI-E3 or ILI95-E3 Series sub-assembly and secure with eight(8),screws(#4-40 x 1/4")into the eight (8),standoffs as shown in Location 5 of Figure 2.5.7.4.2. ILI-MB-E3/ILI95-MB-E3 DACT-E3 RPT-E3 O O O D O Ig- PM-9/PM-9G i rvi ° A El - o a 00 . O C ®®® A 0 ILI-E3 or ILI95-E3 SERIES D ® 00 O ° Figure 2.5.7.4.1 Cabinet C, E3-ILI-C Plate (Standard View) 58 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation CABINET C, E3-ILI-C PLATE 0 F3 1 STANDOFF, 3116"HEX SCREW, o #4-40 X V M-40 X'/4" 3 8 PLACES 3 PLACES 2 RAT F3 �9G SCREW 5 u o 3116"HEX #4-40 X%" 8 PLACES or F3 4a 5 Ser/es 5 STANDOFF, 3116"HEX SCREW, #4-40 X 1" #4-40 X'/4" + 8 PLACES 8PLACES Q/9S� 55 F3 e� or Series Figure 2.5.7.4.2 Cabinet C, E3-I1-I-C Plate (Exploded View) E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 59 Installation Cabinets 2.5.7.5 Cabinet C, AM-50 Extender Plate Installation 1. The AM-50 Extender Plate is an optional plate that can be installed as an add-on plate to either the E3-INCC-C Plate or E34LI-C plates. 2. Mount the AM-50 amplifiers over the screws on the Cabinet C,AM-50 Extender Plate and secure with four(4),screws(#4-40 x U")in the four-hole mounting pattern as shown in Location 1 of the figure below. 3. Place the E3-INCC-C plate or E34LI-C plate over the AM-50 extender plate and install using two(2)nuts(#10-32)in the two-hole mounting pattern as shown in Location 2 of the figure below. CAB-C, AM-50 EXTENDER PLATE 2 NUT, HEX #10-32 2PLACES C,qe Aso AM-50 4.4 2�® 1 O O q�iso O SCREW, #4-40 X 25 LG PHPD, SEMS Figure 2.5.7.5.1 Cabinet C, AM-50 Extender Plate Installation 60 E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 Cabinets Installation 2.5.7.6 Cabinet C, AM-50 Extender Plate to the Backbox Installation 1. Place the Cabinet C,E3-INCC-C plate or E34LI-C sub-assembly plate over the AM-50 Extender Plate. 2. Mount the Cabinet C,E3-INCC-C plate or E34LI-C sub-assembly plate and AM-50 Extender Plate on the studs in the backbox and secure with six(6),410-32 nuts as shown in Locations l thru 6 of the figure below. CAUNf Q BAQ1HX 0 0 0 3 2 0 CABINErQ alNOGC SI BAS'SBVBIJES PLATE (see Note) 0 /4� 0 � 5 e 2 0 0 6 ° 4 ° '� 6 6 NOTE Install theANW NUr,FEX Extender Plate to either the #1032 E34NOC-Cor all -C plAe. 6 yes Figure 2.5.7.6.1 Cabinet C, AM-50 Extender Plate to the Backbox Installation E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 61 Installation Cabinets 2.5.7.7 Cabinet C, INCC-E3, 7-Bay Inner Door to the Backbox Installation 1. Place the nylon spacer(5/8"x .314ID x.312)over the backbox bottom hinge pin as shown in Location 1 of the figure below. 2. Mount the INCC-E3,7-bay inner door to the backbox by sliding the inner door top hinge pin hole onto the backbox top hinge pin as shown in Location 2 of the figure below. 3. Align the inner door bottom hinge pin hole with the backbox bottom hinge pin. 4. Slide the inner door over the inner door bottom hinge pin hole on top of the nylon spacer,and secure using the#8 x 5"screw as shown in Location 2 of the figure below. 5. After the inner door is secured in place,attach one end of the bonding wire to the top hinge pin using the#8 x.5"screw as shown in Location 3 of the figure below. NOTE 1:The 7-bay or 8-bay inner door is optional. NOTE 2: For information on the installation of the opposite end of the bonding wire, Section 2.5.7.8, Step 5 and Location 5 of Figure 2.5.7.8.1. BACKBOX TOP BACKBOX HINGE PIN INNER DOOR TOP HINGE PIN HOLE 2 3 INCC-E3, SCREW, BONDING INNER DOOR #8 x .5 0 o � 0 0 0 o SCREW, o #8x .5"2 N S�By<ON BACKB0X Op `sO BOTTOM k 3 QOQ HINGE PIN INNER DOOR BOTTOM HINGE PIN HOLE Figure 2.5.7.7.1 Cabinet C, INCC-E3, 7-Bay Inner Door to the Backbox Installation 62 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Cabinets Installation 2.5.7.8 Cabinet C, INCC-E3, 7-Bay Inner Door Installation 1. Mount the first,top row of the ASM-16 and LCD-E3 keypad sub-assemblies to the INCC-E3, 7-bay inner door and secure with six(6),#6-32 nuts as shown in Location 1 of the figure below. 2. Interlock the first,bottom row of the ASM-16 and LCD-E3 keypad with the second,top row of the ASM-16 sub-assemblies,and mount the units to the INCC-E3,7-bay inner door by securing six(6),#6-32 nuts as shown in Location 2 of the figure below. 3. Interlock the second,bottom row of the ASM-16 sub-assemblies with the third,top row of the telephone and microphone box,and mount the units to the INCC-E3,7-bay inner door by securing six(6),#6-32 nuts as shown in Location 3 of the figure below. 4. Mount the third,bottom row of the telephone and microphone box to the INCC-E3, 7-bay inner door by securing six(6),#6-32 nuts as shown in Location 4 of the figure below. 5. Secure the opposite end of the bonding wire to the welded#6 stud on the inner side of the inner door using the#6 nut as shown in Location 5 of the figure below. 6. After the panel is wired,use the thumbscrews to secure the inner door to the backbox as shown in Location 6 of the figure below. BONDING WIRE 5 5 � 2 CABINET C, INCC-E3, 7-BAY INNER DOOR �C kF AF3 3 q0 2 SM-164 4 PLACES MAX. 2 T�<�Ay0 a NUT, HEX, o (#6-32) 24 PLACES 6 MICROPHONE THUMBSCREWS BOX o TO SECURE THE 4 INNER DOOR TO THE BACKBOX 6 Figure 2.5.7.8.1 Cabinet C, INCC-E3, 7-Bay Inner Door Installation E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 63 Installation Cabinets 2.5.7.9 Cabinet C, INCC-E3, 8-Bay Inner Door to the Backbox Installation 1. Place the nylon spacer(5/8"x .314ID x.312)over the backbox bottom hinge pin as shown in Location 1 of the figure below. 2. Mount the INCC-E3, 8-bay inner door to the backbox,by sliding the inner door top hinge pin hole onto the backbox top hinge pin as shown in Location 2 of the figure below. 3. Align the inner door bottom hinge pin hole with the backbox bottom hinge pin. 4. Slide the inner door over the inner door bottom hinge pin hole on top of the nylon spacer,and secure using the#8 x .5"screw as shown in Location 2 of the figure below. 5. After the inner door is secured in place,attach one end of the bonding wire to the top hinge pin using the#8 x.5"screw as shown in Location 3 of the figure below. NOTE: For information on the installation of the opposite end of the bonding wire,see Section 2.5.7.10, Step 5 and Location 5 of Figure 2.5.7.10.1. CABINET C, BACKBOX TOP BACKBOX HINGE PIN INNER DOOR TOP HINGE PIN HOLE 3 CABINET C, INCC-E3 SCREW, 8-BAY INNER DOOR BONDING #8 x .5" WIRE 0 0 0 0 0 o SCREW, o #8x .5" 2 1 N ACKBOX S16,- ON BOTTOM O0-+'Sp'4C HINGE PIN '374 FR INNER DOOR 1 �, BOTTOM HINGE PIN HOLE Figure 2.5.7.9.1 Cabinet C, INCC-E3 8-Bay Inner Door to the Backbox Installation 64 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Cabinets Installation 2.5.7.10 Cabinet C, INCC-E3, 8-Bay Inner Door Installation 1. Mount the first,top row of the ASM-16 and sub-assemblies to the INCC-E3, 8-bay inner door and secure with six(6),#6-32 nuts as shown in Location I of the figure below. 2. Interlock the first,bottom row of the ASM-16 and with the second,top row of the ASM-16 sub-assemblies,and mount the units to the MCC-E3, 8-bay inner door by securing six(6),#6- 32 nuts as shown in Location 2 of the figure below. 3. Interlock the third,bottom row of the ASM-16 sub-assemblies with the fourth,top row of the telephone and microphone box, and mount the units to the INCC-E3, 8-bay inner door by securing six(6),#6-32 nuts as shown in Location 3 of the figure below. 4. Mount the fourth,bottom row of the telephone and microphone box to the INCC-E3, 8-bay inner door by securing six(6),#6-32 nuts as shown in Location 4 of the figure below. 5. Secure the opposite end of the bonding wire to the welded#6 stud on the inner side of the inner door using the#6 nut as shown in Location 5 of the figure below. 6. After the panel is wired,use the thumbscrews to secure the inner door to the backbox as shown in Location 6 of the figure below. BONDING 5 WIRE ASM-16 5 PLACES MAX. 2 CABINET C, INCC-E3, 8-BAY INNER DOOR 3 i NGA i 4 F4 2 F'0h0 UT, HEX, NFeo (#6-32) 4 k 24 PLACES • 3 6 MICROPHONE THUMBSCREWS BOX 4 o TO SECURE THE INNER DOOR TO THEBACKBOX 6 Figure 2.5.7.10.1 Cabinet C, INCC-E3, 8-Bay Inner Door Installation E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 65 Installation Cabinets 2.5.8 Cabinet D Installation Instructions The Cabinet D assembly typically houses the following: • Backbox: – Two Batteries(up to 19 AH) – E3 Cabinet D,Trim Ring (Optional Accessory) • Outer Door • Cab D,E3-INX-D,Back Plate: – ILI-MB-E3/ILI95-MB-E3 – INING – DACT-E3 – PM-9/PM-9G – RPT-E3 – Two(2)AM-50 amplifiers • Cab D,E3-ILI-D Plate: – Up to five(5)ILI-MB-E3/ILI95-MB-E3 – INING or ILI-S-ENILI95-S-E3 (optional) – DACT-E3 – PM-9/PM-9G – RPT-E3 • Inner Door 1: – (1),LCD-E3 Display – (1),INCC-MIC – Combination often(10),ASM-16s or – Blank Plate(s)(optional) ANU-48s – (1),INCC-TEL • Inner Door 2(Optional): – (1), – (1),INCC-MIC – Combination of twelve(12),ASM-16s or – Blank Plate(s)(optional) ANU-48s – (1),INCC-TEL • Hardware Kit Gamemll UA i i i I o i i 0 0 0 I � i o i 0 i I 0 o 0 0 0 i 0 i o I i 0 I 0 I I I o i i o i 0 I I i o _- i Figure 2.5.8.1 Cabinet D, Plexiglass Door Figure 2.5.8.2 Cabinet D INX Door 66 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation 2.5.8.1 Cabinet D, Plexiglass and INX Door Backbox Installation 1. Prepare the mounting site by pre-drilling four(4),#10 screws mounted to the studs,using the dimensions shown in the figure below. Use four(4),#10 screws. NOTE: If the fasteners are anchored to a wallboard, use#10 wall anchors.Mountings to concrete walls should be backed by plywood to insulate the equipment from possible condensation. 2. Secure with two(2),#10 screws in the two-hole mounting pattern as shown in Locations 1 and 2 of the figure below. 3. Set the backbox over the top,two-hole mounting pattern,and hang the backbox on the two screw heads. 4. Insert and secure two(2),#10 screws in the two-hole mounting pattern as shown in Locations 3 and 4 of the figure below. NOTE:Add knockouts to the left and right side of the rear panel of the backbox. Do not add knockouts in the center or top of the backbox,above the ILI-MB-E3/ILI95-MB-E3, behind or below the batteries.To add larger knockouts, increase the size of the existing knockouts. BACKBOX TOP t1.25" BACKBOX DEPTH—4.50" 4. 0" 0 1.50" 16.38" BACKBOX BACKBOX SIDE PANEL 19.38" 4.50" 1.70-► .38' 16.00" r2.25" 1.50" 1.35" WA O O .50" 1 2 8.00" O O 8.00" 41.00" 38.31" O O 8.00" 8.00" O O 3 0 Figure 2.5.8.1.1 Cabinet D, INX Door Backbox Installation E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 67 Installation Cabinets 2.5.8.2 E3 Cabinet D, Trim Rings Installation (Optional Accessory) 1. Insert the Cabinet D,trim top ring over the top three-hole mounting pattern. 2. Secure with three(3),96 Hex Kep nuts in the three-hole mounting pattern on the top of the backbox as shown in Locations 1,2 and 3 of the figure below. 3. Insert the Cabinet D,trim bottom ring on the bottom three-hole mounting pattern. 4. Secure with three(3),#6 Hex Kep nuts in the three-hole mounting pattern on the bottom of the backbox as shown in Locations 4,5 and 6 of the figure below. 5. Insert the Cabinet D,trim left ring on the left side of the five-hole mounting pattern. 6. Secure with five(5),#6 Hex Kep nuts in the five-hole mounting pattern on the left side of the backbox as shown in Locations 7, 8, 9, 10 and 11 of the figure below. 7. Insert the Cabinet D,trim right ring on the right side of the five-hole mounting pattern. 8. Secure with five(5),#6 Hex Kep nuts in the five-hole mounting pattern on the right side of the backbox as shown in Locations 12, 13, 14, 15 and 16 of the figure below. For information on flush-mounting,refer to the E3 Series Cabinet Trim Rings Installation Instructions, P/N 9000-0058. NOTE: Use the Trim Ring Hardware Kit provided. The trim top/bottom and trim left/right rings are interchangeable. E3 Cabinet D, Top Trim Ring i �" 0 E3 Cabinet D, 0 012 Left Trim Ring 9 1 0 0 0 14 3 Cabinet D, 0 0 Right Trim Ring F _ . 15 NOTE: 4 0 #6 HEX, 5 KEPS NUTS 16 (16 PLACES) E3 Cabinet D, Bottom Trim Ring Figure 2.5.8.2.1 Cabinet D, Trim Ring Installation 68 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Cabinets Installation 2.5.8.3 Cabinet D, Outer Door Installation 1. Mount the door over the studs on the backbox. 2. Secure with four(4),#6-32 nuts in the four-hole mounting pattern on the left side of the backbox. See Locations 1 thru 6 of the figure below. CABINET D, BACKBOX O 6 CABINET D, 5° O OUTER DOOR O Q ° O O 4 O 3 ° O O ° O •1 2 ° ® N O sA�F' 32 Figure 2.5.8.3.1 Cabinet D, Outer Door Installation E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 69 Installation Cabinets 2.5.8.4 Cabinet D, E3-INX-D Plate Installation 1. Mount the ILI-MB-E3/ILI95-MB-E3 over the standoffs on the E3-INX-D plate and secure with eight(8),standoffs,(3/16"hex,#4-40 x 1")in the eight-hole mounting pattern as shown in Location 1 of Figure 2.5.8.4.2. 2. Mount the DACT-E3 and the RPT-E3 on top of the ILI-MB-E3/ILI95-MB-E3 and secure with eight(8),screws(#4-40 x 1/4")into the eight(8),standoffs as shown in Location 2 of Figure 2.5.8.4.2. 3. Mount the INING on the E3-INX-D plate and secure with six(6),screws(#4-40 x 1/4")into the six-hole mounting pattern as shown in Location 3 of Figure 2.5.8.4.2. 4. Mount the PM-9/PM-9G on the E3-INX-D plate and secure with six(6),screws(#4-40 x 1/4") into the six-hole mounting pattern as shown in Location 4 of Figure 2.5.8.4.2. 5. Mount the AM-50 sub-assembly on the E3-INX-D plate and secure with(8). screws(#4-40 x 1/4")into the eight-hole mounting pattern as shown in Location 5 of Figure 2.5.8.4.2. 6. Mount the AM-50 sub-assembly on the E3-INX-D plate and secure with eight(8),screws(#4- 40 x 1/4")into the eight-hole mounting pattern as shown in Location 6 of Figure 2.5.8.4.2. ILI-MB-E3/ IL195- B-E3 o • • e p _ Iii] s DACT-E3 RPT-E3 s s PM-9/PM-9G __.,a� 0 ❑ 8 a •°w Y 8 INI-VG 00 0 AM-50 I D . 0 AM-50 I 0 0 Figure 2.5.8.4.1 Cabinet D, E34NX-D Plate (Standard View) 70 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation CABINET D, E3-INX-D PLATE 0 2 BF STANDOFF, 3/16" HEX #4-40 x 1" o 8PLACES F3 �9G SCREW, #4-40 x 1/4" SCREW, 3 % 6 PLACES #4-40 x'/4" 8 PLACES . G �l()/ SCREW, #4-40 x'/4" O 4 8PLACES 0 SCREW, #4-40 x 1/4" 6 5 0 4 PLACES 0 0 Q 4*.f SCREW, o #4-40 x 1/4" 6 4 PLACES 0 Figure 2.5.8.4.2 Cabinet D, E3-INX-D Back Plate Installation E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 71 Installation Cabinets 2.5.8.5 Cabinet D, E3-ILI-D Plate Installation 1. Mount the ILI-MB-E3/ILI95-MB-E3 over the standoffs on the E3-ILI-D plate and secure with eight(8),standoffs,(3/16"hex,#4-40 x 1")in the eight-hole mounting pattern as shown in Location 1 of Figure 2.5.8.5.2. 2. Mount the DACT-E3 and the RPT-E3 on top of the ILI-MB-E3/IL195-MB-E3 and secure with eight(8),screws(#4-40 x 1/4")into the eight(8),standoffs as shown in Location 2 of Figure 2.5.8.5.2. 3. Mount the PM-9/PM-9G on the E34LI-D plate and secure with eight(8),screws(#4-40 x 1/4")into the eight-hole mounting pattern,as shown in Location 3 of Figure 2.5.8.5.2. 4. Mount the INING on the E34LI-D plate and secure with six(6),screws(#4-40 x 1/4")into the six-hole mounting pattern,as shown in Location 4 of Figure 2.5.8.5.2. 5. Mount the first ILI-E3 or ILI95-E3 Series sub-assembly on the E34LI-D plate and secure with (8). screws(#4-40 x 1/4")into the eight-hole mounting pattern as shown in Location 5 of Figure 2.5.8.5.2. 6. Mount the second ILI-E3 or ILI95-E3 Series sub-assembly on the E34LI-D plate and secure with eight(8),screws(#4-40 x 1/4")into the eight-hole mounting pattern,as shown in Location 6 of Figure 2.5.8.5.2. 7. Mount the third ILI-E3 or ILI95-E3 Series sub-assembly on top of the ILI-E3 or ILI95-E3 Series and secure with eight(8), screws(#4-40 x L"')into the eight(8)standoffs as shown in Location 7 of Figure 2.5.8.5.2. 8. Mount the fourth ILI-E3 or ILI95-E3 Series sub-assembly on top of the ILI-E3 or ILI95-E3 Series and secure with eight(8), screws(#4-40 x L E")into the eight(8)standoffs as shown in Location 8 of Figure 2.5.8.5.2. ILI-MB-E3/ ILI95- B-E3 DACT-E3 RPT-E3 • • - °PM-9/PM-9G ° 0 0 r IM ... INING 00 ILI-E3 or ° ILI95-MB-E3 SERIES ° o ILI-E3 or ILI95-MB-E3 SERIES ° Figure 2.5.8.5.1 Cabinet D, E3-ILI-D Plate Installation 72 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation CABINET D, E3-1U-D PLATE 0 w w IZ4 w STANDOFF, 2 3/16"HEX #4-40 x 1" 8 PLACES gC ,SACR/EW, #4-40 x 1/4' ' c 8 PLACES 0 SCREW,µ� �1// ��I�(� yySC�REW, M 4 x 1/4' #4-40 x 1/4' 8 PLACES 6 PLACES A 'S A For 7 STANDOFF,MV HEX,#440 x 1„ 8 PLACES SCREW, w #440 x'/4' 8 PLACES 0 9 r �0 94F,� STANDOFF, 3/16"HEX #4-40 x 1" 8 PLACES Or � ® 8 SCREW, #440 x'/4' 8 PLACES Figure 2.5.8.5.2 Cabinet D, E3-ILI-D Back Plate Installation E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 73 Installation Cabinets 2.5.8.6 Cabinet D, E3-ILI-D Sub-Assembly Plate to the Backbox Installation Mount the Cabinet D,E34LI-D sub-assembly plate on the studs in the backbox and secure with eight(8),#10-32 nuts as shown in Locations 1 thru 8 of the figure below. CABINET D, BACKBOX 1 CABINET D, E3-ILI-D PLATE (See Note) 3 2 eF3 OgcrF3 ,p � ® 4♦ o RpT 2 . 5 A 9 F-► c S F30 +a SFR�FS 173 � 6 8 7 � e ®,S,9S M eor FRiFS 173 NOTE:Install NUT, HEX 8 either the E3-INX-D or the E34 LI-D plate #10-32 to the backbox. 8 PLACES Figure 2.5.8.6.1 Cabinet D, E341-I-D Sub-Assembly Plate to the Backbox Installation 74 E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 Cabinets Installation 2.5.8.7 Cabinet D, 13-Bay Inner Door to the Backbox Installation I. Place the nylon spacer(.625 x.312)over the backbox,bottom hinge pin as shown in Location 1 of the figure below. 2. Mount the 13-bay inner door to the backbox by sliding the inner door top hinge pin hole onto the backbox top hinge pin on as shown in Location 2 of the figure below. 3. Align the inner door bottom hinge pin hole with the backbox bottom hinge pin. 4. Slide the inner door over the inner door bottom hinge pin hole on top of the nylon spacer,and secure using the#8 x .5"screw as shown in Location 2 of the figure below. NOTE:The 13-bay or 14-bay inner door is optional. 5. After the inner door is secured in place,attach one end of the bonding wire to the top hinge pin using the#8 x.5"screw as shown in Location 3 of the figure below. NOTE: For information on the installation of the opposite end of the bonding wire, see Section 2.5.8.8, Step 7 and Location 7 of Figure 2.5.8.8.1. CABINET D, BACKBOXTOP BACKBOX HINGE PIN INNER DOOR TOP HINGE PIN HOLE 2' 3 CABINET D, 13-BAY INNER DOOR SCREW, BONDING #8 x .5� WIRE 0 0 0 0 o ® o J J O ° SCREW, J #8 x .5" ° J J Ill 1-` BACKBOX 6257%9,b BOTTOM 372 9CFR HINGE PIN INNER DOOR BOTTOM HINGE PIN HOLE Figure 2.5.8.7.1 Cabinet D, 13-Bay Inner Door to the Backbox Installation E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 75 Installation Cabinets 2.5.8.8 Cabinet D, 13-Bay Inner Door Installation 1. Mount the first,top row of the LCD-E3/ASM-16s sub-assemblies to the 13-bay inner door and secure with six(6),#6-32 nuts as shown in Location 1 of the figure below. 2. Interlock the first,bottom row of the LCD-E3/ASM-16s with the second,top row of the ASM- 16 sub-assemblies.Mount the units to the 13-bay inner door by securing six(6),#6-32 nuts as shown in Location 2 of the figure below. 3. Interlock the second,bottom row of the second set of ASM-16 sub-assemblies with the third, top row of the third set of ASM-16 sub-assemblies. Mount the units to the 13-bay inner door by securing six(6),#6-32 nuts as shown in Location 3 of the figure below. 4. Interlock the third,bottom row of the third set of ASM-16 sub-assemblies with the fourth,top row of the fourth set of ASM-16 sub-assemblies.Mount the units to the 13-bay inner door by securing six(6),#6-32 nuts as shown in Location 4 of the figure below. 5. Interlock the fourth,bottom row of the fourth set of ASM-16 sub-assemblies with the fifth,top row of the telephone and microphone box. Mount the units to the 13-bay inner door by securing six(6),#6-32 nuts as shown in Location 5 of the figure below. 6. Mount the fifth,bottom row of the telephone and microphone box to the 13-bay inner door by securing six(6),#6-32 nuts as shown in Location 6 of the figure below. 7. Secure the opposite end of the bonding wire to the welded#6 stud on the inner side of the inner door using the#6 nut as shown in Location 7 of the figure below. 8. After the panel is wired,use the thumbscrews to secure the inner door to the backbox as shown in Location 8 of the figure below. BONDING WIRE 7 7 1 2 CABINET D, 40 13-BAY, ' 4D/S.4 .Fd INNER DOOR <ql- 3 4 ASM-16,1 10 PLACES MA 8 6 F<Fpyo�ox HEX (#6 3 36 PLACES THUMBSCREWS MAX. 0 TO SECURE THE INNER DOOR TO THE BACKBOX MICROPHONE BOX 8 Figure 2.5.8.8.1 Cabinet D, 13-Bay Inner Door Installation 76 E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 Cabinets Installation 2.5.8.9 Cabinet D, 14-Bay Inner Door to the Backbox Installation 1. Place the nylon spacer(.625 x.312)over the backbox,bottom hinge pin as shown in Location 1 of the figure below. 2. Mount the 14-bay inner door to the backbox,by sliding the inner door top hinge pin hole onto the backbox top hinge pin as shown in Location 2 of the figure below. 3. Align the inner door bottom hinge pin hole with the backbox bottom hinge pin. 4. Slide the inner door over the inner door bottom hinge in bole on top of the nylon spacer, and secure using the#8 x .5"screw as shown in Location 2 of the figure below. 5. After the inner door is secured in place,attach one end of the bonding wire to the top hinge pin using the#8 x.5"screw as shown in Location 3 of the figure below. NOTE 1: The 13-bay or 14-bay inner door is optional. NOTE 2: For information on the installation of the opposite end of the bonding wire,see Section 2.5.8.10, Step 7 and Location 7 of Figure 2.5.8.10.1. BACKBOX TOP CABINET D, HINGE PIN BACKBOX INNER DOOR TOP HINGE PIN HOLE 3 CABINET D, 14-BAY BONDING INNER DOOR SCREW, v WIRE o #8 x .5" ® ° 0 o ® o o o SCREW, #8 x .5" o Ny BACKBOX s?s<ONS, BOTTOM HINGE PIN,r? CFR INNER DOOR BOTTOM HINGE PIN HOLE Figure 2.5.8.9.1 Cabinet D, 14-Bay Inner Door to the Backbox Installation E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 77 Installation Cabinets 2.5.8.10 Cabinet D, 14-Bay Inner Door Installation 1. Mount the first,top row of the/ASM-16s sub-assemblies to the 14-bay inner door and secure with six(6),#6-32 nuts as shown in Location 1 of the figure below. 2. Interlock the first,bottom row of the/ASM-16s with the second,top row of the second set of ASM-16 sub-assemblies and mount the units to the 14-bay inner door by securing six(6),#6- 32 nuts as shown in Location 2 of the figure below. 3. Interlock the second,bottom row of the second set of ASM-16 sub-assemblies with the third, top row of the third set of ASM-16 sub-assemblies,and mount the units to the 14-bay inner door by securing six(6),#6-32 nuts as shown in Location 3 of the figure below. 4. Interlock the third,bottom row of the third set of ASM-16 sub-assemblies with the fourth,top row of the fourth set of ASM-1 6 sub-assemblies, and mount the units to the 14-bay inner door by securing six(6),#6-32 nuts as shown in Location 4 of the figure below. 5. Interlock the fourth,bottom row of the fourth set of ASM-16 sub-assemblies with the fifth,top row of the telephone and microphone box and mount the units to the 14-bay inner door by securing six(6),#6-32 nuts as shown in Location 5 of the figure below. 6. Mount the fifth,bottom row of the telephone and microphone box to the 14-bay inner door by securing six(6),#6-32 nuts as shown in Location 6 of the figure below. 7. Secure the opposite end of the bonding wire to the welded#6 stud on the inner side of the inner door using the#6 nut as shown in Location 7 of the figure below. 8. After the panel is wired,use the thumbscrews to secure the inner door to the backbox as shown in Location 8 of the figure below. BONDING WIRE 7 7 1 2 CABINET D, 14-BAY, 1 INNER DOOR * 3 'VGA ASM-16, 11 PLACES MAX. 4 6 F<<cpy0�eoa. (#6-32)EX 36 PLACES THUMBSCREWS MAX. e TO SECURE THE 5 INNER DOOR TO THE BAC BOX MICROPHONE BOX 6 8 Figure 2.5.8.10.1 Cabinet D, 14-Bay Inner Door Installation 78 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Cabinets Installation 2.5.9 B-Slim Cabinet Installation The B-Slim Cabinet Assembly typically houses the following: • Backbox – batteries • Outer Door – Door Insert – LCD-E3 Display • B-Slim Plate – ILI95-MB-E3/ILI-MB-E3 – RPT-E3 – DACT-E3 – PM-9/PM-9G • Hardware Kit 0 0 0 0 0 0 0 0 0 A c POWER POWER GROUND ALARM SYSTEM SUPERMSORY SYSTEM ON FAULT FAULT TROUBLE SILENCED O TRD SIGMA SYSTEM RESE"I ACKNOWLEDGE ACKNOWLEDGE SILENCE L,MPTEST MENU 1A OW O DOE O EDIT ENTER 0 0 0 Figure 2.5.9.1 B-Slim Cabinet Installation E3 Series Installation/Operation Manual—FIN 9000-0574:17 09/03/09 79 Installation Cabinets 2.5.9.1 B-Slim Cabinet, LCD-E3 Door Insert Installation 1. Mount the LCD-E3 keypad to the LCD-E3 mounting plate and secure with eight(8),#6 Hex Kep nuts in the eight-hole mounting pattern as shown in Location 1 of the figure below. 2. After the panel is wired,use the nut to secure the keyswitch to the LCD-E3 mounting plate as shown in Location 2 of the figure below. 3. Mount the LCD-E3 mounting plate to the B-Slim Cabinet outer door and secure with four(4), #6 Hex Kep nuts in the four-hole mounting pattern as shown in Location I of the figure below. 4. Install the keylock on the B-Slim outer door and secure with the nut as shown in Location 3 of the figure below. LCD-E3 1 LCD-E3 MOUNTING PLATE 4 Qom NUT,HEX, 2 o®m #6,KEP a.-941* 8 PLACES 1 T RR400, �r NUr NUT,HEX, #6,KEP 4 PLACES 1 � NUT 3 KEYLOCK Figure 2.5.9.1.1 B-Slim Cabinet LCD-E3 Door Insert Installation 80 E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 Cabinets Installation 2.5.9.2 B-Slim Cabinet Backbox Installation 1. To prepare the mounting site,pre-drill four(4),#10 screws,using the dimensions shown in the figure below.Use four(4),#10 screws. NOTE: If the fasteners are anchored to a wallboard, use#10 wall anchors. Mounting to concrete walls should be backed by plywood to insulate the equipment from possible condensation. 2. Secure with two(2),910 screws in the two-hole mounting pattern as shown in Locations 1 and 2 of Figure 2.5.9.2.1. 3. Set the backbox over the top,two-hole mounting pattern,and hang the backbox over the two screw heads. 4. Insert and secure two(2),#10 screws in the two-hole mounting patterns as shown in Locations 3 and 4 of Figure 2.5.9.2.1. NOTE:Add knockouts to the left and right side of the rear panel of the backbox. Do not add knockouts in the center or top of the backbox.To add larger knockouts, increase the size of the existing knockouts. 14.094" 3.05" 4.00" 4.00" 1.25" 4.547" 1.25" 15.5 0 2.00 — — — 1.00' - -b 2 11.001, 14.50" -0- 0.094" 21.50" - 3 4 1.094" 12.00" 1.25" h t 1.50" Figure 2.5.9.2.1 B-Slim Cabinet E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 81 Installation Cabinets 2.5.9.3 B-Slim Cabinet Backbox Installation To mount the B-Slim Cabinet outer door to the backbox, secure with four(4),#6 Hex Kep nuts in the four-hole mounting pattern on the left side of the backbox. See Locations 1,2, 3,and 4 of Figure 2.5.9.3.1. B-SLIM CABINET BACKBOX B-SLIM CABINET E3 OUTER DOOR 4 3 0 a 2 0 1 ®tiG T o ® s CFA Figure 2.5.9.3.1 B-Slim Cabinet Outer Door Installation 82 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Cabinets Installation 2.5.9.4 B-Slim-E3 Plate Installation 1. Mount the first ILI95-MB-E3/ILI-MB-E3 to the B-Slim-E3 Plate and secure with eight(8), screws(#4-40)in the eight-hole mounting pattern as shown in Location 1 of Figure 2.5.9.4.2. 2. Mount the PM-9/PM-9G on the B-Slim-E3 Plate and secure with six(6),screws(#4-40)in the six-hole mounting pattern as shown in Location 2 of Figure 2.5.9.4.2. ® 1L195-MB-E3/1L1-MB-E3 ® F= =9 F=q m 0 0 ® ® ® @W @WO PM-9/PM-9G O O O O T PM-9/PM-9G PCB El e c1� t O ® O 010 4B 10 Figure 2.5.9.4.1 B-Slim-E3 Plate Installation E3 Series Installation/Operation Manual—P/N 9000-0574:17 09/03/09 83 Installation Cabinets B-SLIM-E3 PLATE SCREW, #4-40 <� 1 8 PLACES 9S'F3/ � SF,4iFS 1 � 0 SCREW, #4-40 6 PLACES A�-y/A 2 i G 2 m a 0 Figure 2.5.9.4.2 B-Slim-E3 Plate (Exploded View) 84 E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 Cabinets Installation 2.5.9.5 B-Slim-E3 Sub-Assembly Plate to Backbox Installation Mount the B-Slim-E3 sub-assembly plate on the studs in the Backbox and secure with four(4), (#8-32)screws as shown in Locations 1 thru 4 of the figure below. B-SLIM CABINET BACKBOX 1 B-SLIM-E3 PLATE �4F3 3 2 AM 9/A 4 i 3 0 0 0 Q SCREW, #8-32 4 PLACES Figure 2.5.9.5.1 B-Slim-E3 Sub-Assembly Plate to Backbox Installation E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 85 Notes 86 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 ILI-MB-E3 and ILI95-MB-E3 Connections E3 Series System Connections Section 3: E3 Series System Connections 3.1 ILI-MB-E3 and ILI95-MB-E3 Connections The ILI-MB-E3 and ILI95-MB-E3 electrical specifications are provided in the following sub- sections. 3.1.1 Auxiliary Power Output, Resettable/Non-Resettable • TB34 Resettable,24 VDC,max.2.0 amp Special application: Suitable for use with projected beam smoke detector Model BEAM 1224. • TB3-6 Non-resettable,24 VDC,max.2.0 amp Special application: Suitable for use with the FM Series door holders. 19 NOTE: Total output is 2.5 amp maximum combined. • TB3-5,TB3-7 Common negative 3.1.2 Relay Connections • System Alarm Contacts — TB5-2 Normally Open — TB5-3 Common — TB5-1 Normally Closed — Rated 2 amp @ 30 VDC(resistive) — Transfers upon any system alarm except supervisory. • Supervisory Contacts — TB5-5 Normally Open — TB5-6 Common — TB54 Normally Closed — Rated 2 amp @ 30 VDC(resistive) — Transfers upon any supervisory signal. • System Trouble Contacts — TB5-8 Normally Open — TB5-9 Common — TB5-7 Normally Closed — Rated 2 amp @ 30 VDC(resistive) — Transfers on any system trouble,supervisory and/or alarm. E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 87 E3 Series System Connections ILI-MB-E3 and ILI95-MB-E3 Connections 3.1.3 Signaling Line Circuits The ILI-MB-E3 or ILI95-MB-E3 provides two(2), _____ _____ 24 VDC Class A, Style 6,7 or Class B, Style 4 I INPUT/CONTROL signaling line circuits. See Figure 3.1.3.1 for wiring I MODULE information. Style 7 wiring requires the use of an I M50OX Isolator Module(ILI-MB-E3),or XP95-LI I I Line Isolator or XP95-LIB Line Isolator Base I I (ILI95-MB-E3)on both sides of a device. I SMOKE/HEAT ILI-MB-E3 Wiring Instructions I I SLC 1 Style 4 T134-8(+) T134-7(-) I SENSOR SLC 2 Style 4 T1344(+) T134-3 (-) I SLC 1 Style 6 T134-8 out,T134-6 return I T134-7 out,T134-5 return SLC-2 Style 6 T134-4 out,TB4-4-2 return I I T134-3 out,T134-1 return I I ILI95-MB-E3 Wiring Instructions I NCM-1 SLC 1 Style 4 TB7-4(+),T137-3 SLC 2 Style 4 T134-4(+),T134-3 SLC 1 Style 6 T137-4 out(+),T137-3 out(-) I ILI-MB-E3/ T137-2 return(+),T137-1 return SLC 2 Style 6 T134-4 out(+),T134-3 out(-) I ILI95-MB-E3 I T134-2 return(+),T134-1 return (Polarity markings indicate the polarity that should be I maintained throughout the circuit.Polarity connected I to the circuit must be observed on all devices). I Circuit Ratings 24 VDC(nominal) Current: 0.051 amp Max(supervisory) 0.136 amp max. (alarm) DOTTED LINES INDICATE CLASS A 0.100 amp max Steady State STYLE 6 WIRING. (short circuit) Figure 3.1.3.1 Signaling Line Circuits 40 Ohms max.line impedance 0.5 pf max.line capacitance Ground fault test impedance: Zero ohms Wiring: 18 AWG minimum,twisted-pair,unshielded Power-limited Supervised 88 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 ILI-MB-E3 and ILI95-MB-E3 Connections E3 Series System Connections 3.1.4 Notification Appliance Circuits The ILI-MB-E3 or ILI95-MB-E3 provides two(2),24 VDC Class A,Style Z or Class B, Style Y notification EOL appliance circuits. See Figure 3.1.4.1 for wiring information. See the Compatibility Addendum, I-––– __–– I I P/N:9000-0427,for a list of approved compatible I - + devices. I I Wiring Instructions: I I NAC 1–Style Y T132-1 (+),TB2-2(-) I I NAC 2–Style Y TB2-5 (+) T132-6(-) NAC 1–Style Z T132-1 out,TB2-3 return I I NAC 2–Style Z TB2-5 out,TB2-7 return I I TB2-6 out,TB2-8 return I I (Polarity markings indicate the polarity of the circuit in - + In alarm condition).Use UL Listed End of Line Resistor EOL-N(33K),P/N 4700-0484 for Class B,Style Y wiring. I B +� I Circuit Ratings: I I 24 VDC(Nom.)FWR I I Max.alarm load: -2.0 amp/circuit !___ ILI-M B-E3/ ––– Ground fault test impedance: Zero ohms j ILI95-M B-E3 j Supervised-Power-limited Ln A 18 AWG minimum MDL-FC Series Synchronization Modules must be connected. Special application: See Compatibility DOTTED LINES INDICATE CLASS A, Addendum,PIN 9000-0427 for a list of Gamewell-FCI STYLE Z WIRING.REMOVE EOL FOR CLASS A,STYLE Z approved,UL Listed notification appliances. OPERATION Figure 3.1.4.1 Notification Appliance Circuits 3.1.5 ILI-MB-E3 and ILI95-MB-E3 Outputs The ILI-MB-E3 or ILI95-MB-E3 provides output for a Local Energy City Master Box,reversing polarity output for leased line connection,or Releasing Service. Ratings Master Box(NPL) Polarity Reversal(PL) Releasing Service Nominal Voltage 24 VDC 24 VDC 24 VDC Supervisory Current: .0018 amp .012 amp .0005 amp Alarm Current: .510 amp (max.) .012 amp .700 amp Line Resistance 35 Ohms (max.) 2 Ohms(max.) Trip Coil Resistance 14.5 Ohms(max.) Table 3.1.5.1 ILI-MB-E3 and ILI95-MB-E3 Outputs 3.1.6 ILI-MB-E3 and I1-I95-MB-E3 Specifications The following lists the electrical specifications for the ILI-MB-E3 and ILI95-MB-E3. Specifications ILI-MB-E3 ILI95-MB-E3 Operating Voltage: 24 VDC(from PM-9/PM-9G 24 VDC(from PM-9/PM-9G power supply) power supply) Operating Current: 0.081 amp 0.050 amp Alarm Current: 0.150 amp 0.091 amp Operating Temperature: 32°to 120°F(0°to 49°C) 32°to 120°F(0°to 49°C) Relative Humidity: 0 to 93%non-condensing at 90°F 0 to 93%non-condensing at 90°F (32°C) (32°C) Supervised Power-limited E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 89 E3 Series System Connections Intelligent Loop Interface-Main Board Connections 3.2 Intelligent Loop Interface-Main Board Connections Figure 3.2.1 and Figure 3.2.2 illustrate the Intelligent Loop Interface-Main Board(ILI-MB-E3) sub-assembly. .I 1: I Figure 3.2.1 Intelligent Loop Interface-Main Board (ILI-MB-E3) Sub-Assembly 55 b RP L[G Ef JA ARDME 1[R pE ERA 1R7 °°®[ry��m�C31 6 •1�.■ l 6 •��■ l• •Sl •�\1111■ l ,sue wo® S�1R4 V ul5 0l •HN I of HAM a EfTmom Bl •N�HH Z R1C21�ogg /@0� 0- DRIB o ��,o rco ■ ED°�_�, o R"ED RIB �aeay■y4 eye �Qe p ��f■ 'aa �� 03�p� ��m C3 kl R54 M C'�I�.�VI4 R,S�i�pIl o`J°�o�a O �I ■ Y e11! RICA J� •►D Rlr 1 a 1111111 �� 5PIN I■ TB3 as r► ° ooffiw' 0 co_rnm11�1� t �i:�so—"�°� l /o ■ ■ � � `k �� [5 IIY ee f50 ■ ■��,� [9016��■ N2 a 00 ORE RN N3 PH RICE - • N6 0g •� a PROIX1Ci '11111117 � lo,�d �&O-Po10� ■ 4 p rcl •�[]I CAIE COCE N 7L571 R7fY1� X105 M14 I■ / ABC u17 v- RIOQpC42 RM �0 Cx uu cw C ., CE, ■ Ec go es —rea OE ■ �� 0 5, .1 C� PR�al1CT RON 1NE�: � Rs a l"' �1II111 TB2 lj��a W D� N1 � LABEL °a aR'ialII1-_LL-LIII'.T;SI TB.S ■I ■ �, E/�� 6�E E�� e+��CS]11111111 RIQ 'M N,�Mf�' . ■1 � K] ��!P 117.1..■�...�. ASSY IIJ-I�B-E3 / ■ rn I�JJ RN1 1120-0899 REV_ a cJOBK cae ffi � c°a iiiFFF ASSY N-5-E3— pa D� �p ■ m 1120-0905 REV PR�7p1Cr p Q m ■ 1�� ■ �.7w—VR,� a MACE Nr¢I15Ay TRIAL NI111.HA ■ 1 QI ■BFI—I Rn 1r�07 �V I� 0 CIO R37�Q �■ U ■ f p� �0 999��99999 �°z ueoaveo, e1 ii ■ cc)AI b°4 C40 y0°°c�n,lllll11g1q1m1gg11 / y��yT/ 000 00000000 ■ ip n; � 11� Cd ul0 ^ NYi � �'2C G�� "-^ A9CXET MORfEE SM R1 011 Figure 3.2.2 Intelligent Loop Interface-Main Board (ILI-MB-E3) Sub-Assembly 90 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Intelligent Loop Interface-Main Board Connections E3 Series System Connections 3.2.1 Intelligent Loop Interface-Main Board (ILI-MB-E3) Wiring Connections Field wiring connections for the ILI-MB-E3 are shown in Table 3.2.1.1.All wiring is Power limited except the local energy City Box which is non power-limited. Designation Description Comments T131-1,T131-3 +24 V IN +24 VDC Input from PM-9/PM-9G T134-1 TB1-2, TB1-4 GND Common negative from PM-9/PM-9G TB4-2 TB2-1 NAC1 B+ Notification Appliance Circuit 1 (See Note 6) TB2-2 NAC1 B- Notification Appliance Circuit 1 (See Note 6) TB2-3 NAC 1 A+ Notification Appliance Circuit 1 (See Note 6) TB2-4 NAC 1 A- Notification Appliance Circuit 1 (See Note 6) TB2-5 NAC2 B+ Notification Appliance Circuit 2 (See Note 6) TB2-6 NAC2 B- Notification Appliance Circuit 2 (See Note 6) TB2-7 NAC 2 A+ Notification Appliance Circuit 2(See Note 6) TB2-8 NAC 2 A- Notification Appliance Circuit 2(See Note 6) TB3-1 AUX RS485 A Output to LCD-E3,ASM-16,ANU-48, LCD-7100, DACT-E3 (See Note 3) TB3-2 AUX RS485 B Output to LCD-E3,ASM-16,ANU-48, LCD-7100, DACT-E3 (See Note 3) TB3-3 Earth Ground Connect to water pipe ground TB34 Resettable B+ Auxiliary resettable 24 VDC power TB3-5 GND Common negative TB3-6 Non-resettable B+ Auxiliary non-resettable 24 VDC power TB3-7 GND Common negative TB3-8 Municipal Ckt+ Output to Local Energy City Box or Remote Station or Releasing Solenoid - Non Power-limited (See Note 7) TB3-9 Municipal Ckt- Output to Local Energy City Box or Remote Station or Releasing Solenoid — Non Power-limited (See Note 7) TB4-1 SLC 2 A- SLC 2 Style 6/7 Return (See Note 5) TB4-2 SLC 2 A+ SLC 2 Style 6/7 Return (See Note 5) TB4-3 SLC 2 B- SLC 2 Style 4/6/7 Out(See Note 5) TB4-4 SLC 2 B+ SLC 2 Style 4/6/7 Out(See Note 5) TB4-5 SLC 1 A- SLC 1 Style 6/7 Return (See Note 5) TB4-6 SLC 1 A+ SLC 1 Style 6/7 Return (See Note 5) TB4-7 SLC 1 B- SLC 1 Style 4/6/7 Out(See Note 5) TB4-8 SLC 1 B+ SLC 1 Style 4/6/7 Out(See Note 5) TB5-1 Alarm DC NC Alarm relay contact, N/C TB5-2 Alarm DC NO Alarm relay contact, N/O TB5-3 Alarm DC Common Alarm relay contact, Common TB5-4 Supv DC NC Supervisory relay contact, N/C TB5-5 Supv DC NO Supervisory relay contact, N/O TB5-6 Supv DC Common Supervisory relay contact, Common TB5-7 Trbl DC NC Trouble relay contact, N/C TB5-8 Trbl DC NO Trouble relay contact, N/O Table 3.2.1.1 ILI-MB-E3 Field Wiring Connections E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 91 E3 Series System Connections Intelligent Loop Interface-Main Board Connections Designation Description Comments TB5-9 Trbl DC Common Trouble relay contact, Common T136-1 RS232 GND To red lead on download cable P/N 75267 TB6-2 RS232 TxD To black lead on download cable P/N 75267 RS-232 Download or Printer Port TB6-3 RS232 Supervision Optional Printer Supervision T136-4 RS232 Rxd To green lead on download cable P/N 75267 W1,W2,W3 Factory Jumpers Factory User Only(Default OUT) W4 ARCNET Term OPEN =Normal Operation. SHORT = If the ILI-MB-E3 is located at the end of the ARCNET bus. W7, W8 Municipal Jumpers "MB" = For Master Box or Releasing "PR" = For Polarity Reversal (See Note 7) W9 Ground Fault Detection IN = ENABLE OUT = DISABLE(See Note 1) SW2-1 Switch 1 ON =SLC 1 DISABLED (OFF =SLC 1 ENABLED) SW2-2 Switch 2 ON =SLC 2 DISABLED (OFF =SLC 2 ENABLED) SW2-3 Switch 3 ON = NAC 1 &2 DISABLED (OFF = NAC 1 &2 ENABLED) SW24 Switch 4 ON = BUZZER DISABLED (OFF = BUZZER ENABLED) SW2-5 Switch 5 ON = RS-232 115.2 K BAUD (OFF =defined by CAMWorksT"') J1 ILI to PM-9/PM-9G Connects to PM-9/PM-9G J1(See Note 1 &2) COMM Port J2 Local ARCNET Connects to J5 of the next ILI-E3 or ILI95-E3 Series. J5 Local ARCNET Connects to J2 from the previous ILI-E3 or ILI95-E3 Series. J4 ARCNET Repeater Connects to INI-VG J7 or J10 of the RPT-E3. (See Note 4) NOTE 1: Must be IN when connected via ribbon cable from this ILI95-MB-E3 at J1 to a PM-9/PM-9G connector J1. Requires the removal of the JMP-1 on the PM-9/PM-9G. Must be OUT when a ribbon cable is not installed in J1 and the ground fault detection is being provided by another ILI95-MB-E3, ILI-MB-E3 or an INI-VG Series node that is being powered from a common PM-9/PM-9G. NOTE 2: Connect J1 to PM-9/PM-9G J1 only when the PM-9/PM-9G is NOT powering an INI-VG Series sub- assembly in addition to an ILI95-MB-E3, ILI95-S-E3 or an ILI-MB-E3 or ILI-S-E3 sub-assembly. NOTE 3: Use ILI95-MB-E3 Auxiliary RS485 Port(TB3-1 COM A&TB3-2 COM B)to connect to LCD-E3 (E3 annunciator module),LCD-7100(7100 Remote Annunciator Module),ASM-16(Addressable Switch Module),ANU-48 (LED Annunciator Driver Module), DACT-E3(E3 Digital Communicator Transmitter). NOTE 4: RPT-E3(Repeater-E3 Module)is required when this ILI-MB-E3 is networked via ARCNET to an INI-VGE, INI-VGC, INI-VGX, or another RPT-E3 equipped node. Not required for LOCAL ARCNET communication within a single enclosure. (J2 or J5). NOTE 5: For Style 4, use terminals B+&B-only. For Style 6 use terminals B+and B-&connect return wires to A+& A-. For Style 7,wire as for Style 6&use Isolator Modules and/or Isolator Detectors per recommendations as required. NOTE 6: NAC1 and NAC2 are rated as Special Application. NOTE 7: When used for Releasing, must be configured in CamWorks for Releasing in the General Settings Section. Table 3.2.1.1 ILI-MB-E3 Field Wiring Connections (Continued) 19 NOTE: For additional information on the wiring requirements, refer to the ILI-MB-E3 Installation Instructions, PIN 9000-0579. 92 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Intelligent Loop Interface-Main Board Connections E3 Series System Connections 3.2.2 ILI-MB-E3 Wiring Diagram Figure 3.2.2.1 illustrates the field wiring connections for the ILI-MB-E3 sub-assembly. 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WWZ00Wx?d M F £ W22_0.r2 w�❑� OOfW OON�xN¢0'xOOx a Z20 NFW WW W U ®®p. __®p" U U (L CL 33,W yNLUW<,L � J Z F-U W N O>z U F- a 0qp M : N O O O.O F-F-O W W O W_j L) Q UO� a�a¢a¢ ¢_a 3E< 0] m _>a a F-�z ZZ0000W¢N�OLL U coo a , .a.~ae. No M.M. ~ F-+O+0 ZLLZ UUa?Zz��aM WZ v°i w mm`ro 1A23456789 1 2345678 1 234 UjW=❑XX�0QDF-IL0 a MF-: x O @@ @ @ @@ u u u u u 11 11 a uorN ❑ J Y O U F O C N r N M IT N to I,CO(D r r W 0 L Q NW U) FOF❑+� + +�±� WWW WW WWW WW WW Q 0_ WujLL r OZOZ� JJJ_j_j_j_j J_j_j_j_j 3Q W LLF2m Q❑rJ OOOOF-Y F--z=)i,W UOp❑ x LLaN 00¢ ri0m W0W0YU oo>>oo>> Oz O W ZUZ FZ�� JFN 3 W 3:WU J Ca F-Ca W >(D ..0: W Ui O-w 7FN0 m -Mr 0 00.0J NNrrW NNUiLU v - 0 x3 w z�xFO❑❑0 M4wm w�F�IL `nJaQQaaa + rn�0. O ULL O U WW°tSg3a �(F W WmU00 co U)PE52 U-"noU4ivcJiyui 0200 } y N 0 U1 z a ❑wa< QOUO OFJ QN WNZZ -QJNNa J rna W U W UF- QOU ❑g Z WO W J r2OXF U.4 F}�}00 UQUUUUJU �o NyJQ W }JQfn U)Z W 2fF-W NLL Fno NO!w0 J oZ F 2N22 zzrrzz�U.IN 2 UI-zmw Fz55 U' 22w0_x �W�w �3o0 pzFQ y O as as rnIL ZNm0JmN¢WWPZ_¢yyn3 Q dN0.W F_ F F¢ Z z ZZ zZ a � <0MWO¢NO5W Q2xWO Z O Z O W X O O W r U N M U N W O O W 3 W NwN> NWOm F-UaaW3 a¢ ClU>Xaa3Q F Z x Z W O¢}J U N }J O W Q,e¢O o 0 o O 0300.• ZzF-UOr F-UZxzNMNNO.r Z Figure 3.2.2.1 ILI-MB-E3 Wiring Diagram E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 93 E3 Series System Connections Intelligent Loop Interface X195-Main Board Connections 3.3 Intelligent Loop Interface XP95-Main Board Connections Figure 3.3.1 and Figure 3.3.2 illustrate the Intelligent Loop Interface XP95 -Main Board (ILI95-MB-E3)sub-assembly. t1 - f� ` M��- Y I III•. r - Figure 3.3.1 Intelligent Loop Interface XP95-Main Board (ILI95-MB-E3) Sub-Assembly 1Y ILI95{3 PCB I70D-0221 REV 2 JS LOCFL ARCNEI J2 WCPL ARCrvE] w4 J4""F RFPEPIER N]q C34 R32 UI9 DIS Cfll(HA A115 ' Aux tEaN • ARUiEt • csa`QQ cs1 �•• �30FF®pN�» ISO 6 1 6 1 1ERN Sl •••••••■ Alh ■ PTC101 cocoo 01 ••••• ••••• Z OFF ••CN 91 •••••••• Z— o • �~ o 1ju15 QR40 ■p°S7 - I■I 'p m°24 m• PTCD R47 QQ RQ nnn n e000Goej� ■ ■ $�I 7 �p TVs Gy�o77 Rfi1 0 :�o• RO 0© A,0Ula R4sv_.e�p IIDS�_IpI Imo= -M22 • •-�1 R55 R53 bT.�. 44WTT � ` `q p a1{1�}LL PTC4 -3 ��OR] W1 RSP agll {x�I 01 R101 103K101 O�`- •m �r IlP • C4 FACi0RY R4 0�W3 C.4 11111x,Irtip fta1 fl-io R1o10 RII10, q•-1104RP25•11��11 E 03 •• o R�ps C10 -± a �L1M RI13 s8�■DI01 QRIe6 Q^ • •o Ds use O csD OC a 2I2a+-oesl3 RUa�O�ns'-""msP p� "SZJ IQ K2 R34 R39 U4- p# P]14Q Q matAllyQep a - F. •+ •• NS PR lOp •• o u13 ZIIIIIIFT D2osq �pOfOS ggpp J�y Rue� • •; 142 cu Qca UI2 R56Q c1s Ole q1 �TB Delis• 4--Ft/� a ELF yI�I p UI7 ■ ■ CI6 '• •; i ip�° J■■� r N�A18O OC420R18 flits MR n C40 �OOOQA5Il9 QD2QA101ryR&NYOIO��• f ■ ■m �dL yep �f O �■ & 0 D� .yQ={tlo�;,Y� •DJPO■I -Cr y� �' � •y�e■e■OG� opp 0100•Y�YORI1] n ■ ■r• • ��R80 K6 4344 R'V 4 Q ORII6 0 Q m 'iiLSST • I■ _ C32 RIIS QR415 g Q •n 0130 p CII 6 am/��yyy�p Q C49 O 4 RD202 A202 K5�7U1I II.WI. D23 ��r�OC2➢I '1E11.1�1�1'R1�Y U2 MCI ME WNIR(t RM�D2oJ 0A10ZaJ R1PJ !,",,,, iS}• '�✓•(L/� T�'019 AW CI1! "p INSTRUMENTS R�Q QR211 K4 � taQR j RN by Honeywell 0R99 IIIJ•-J-_-_L-_�1I� • N TTT < �..��yy■-SIRpp■pI�45 01 ul6 0I R1210 Q Rn J '--'� Q� •�K7 100ppC57. °°��''�� ASSY IL195-MI343 c,;9 ao�aacs2 K3 • C�m R"' € 1120-0911 REV_ us p pus me • VM�S£y��, ,■Y °� ASSY ILI95-S-E3 us cv0 ■I■ Qcm •��L�1 mip -x--01 it, uv 1120-0912 REV C22 Q �C °" • s]DII R8] a MADE IN USA A73 C1fi 0 _ m• ry �p gs (. Q C25 G20 R39 - •• 1 • '4�ao7� nyL■ 2 n Res ns O p1 PresON •• s�p• c2 Q '- =�}OZ Q ua 4 C24 •a d R3I ■ �p 000wwo?w000 = 31• 87654341 ii • IIE■_�II.yp4 IF 'rym �.1��.�1��1�1 OR1 r000�0000 ■ • ®n s� o�lo -�GS■C45 M1911f1140i014• • • 0000nvL4 q • o iVSa p5 UIO Gog�� SW2 QRIS AFCNET ADDRESS SYA RI 012 Figure 3.3.2 Intelligent Loop Interface XP95-Main Board(ILI95-MB-E3)Sub-Assembly 94 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 Intelligent Loop Interface XP95-Main Board Connections E3 Series System Connections 3.3.1 Intelligent Loop Interface XP95 - Main Board (ILI95-MB-E3) Wiring Connections Field wiring connections for the ILI95-MB-E3 is shown in Table 3.3.1.1. All wiring is Power- limited except the local energy City Box that is non power-limited. Designation Description Comments TB1-1,TB1-3 +24 V IN +24 VDC Input from PM-9/PM-9G TB4-1 TB1-2,TB1-4 GND Common negative from PM-9/PM-9G TB4-2 TB2-1 NAC1 B+ Notification Appliance Circuit 1 (See Note 6) TB2-2 NAC1 B- Notification Appliance Circuit 1 (See Note 6) T132-3 NAC 1 A+ Notification Appliance Circuit 1 (See Note 6) TB2-4 NAC 1 A- Notification Appliance Circuit 1 (See Note 6) TB2-5 NAC 2 B+ Notification Appliance Circuit 2(See Note 6) TB2-6 NAC 2 B- Notification Appliance Circuit 2(See Note 6) TB2-7 NAC 2 A+ Notification Appliance Circuit 2(See Note 6) TB2-8 NAC 2 A- Notification Appliance Circuit 2(See Note 6) TB3-1 AUX RS485 A Output to LCD-E3,ASM-16, ANU-48, LCD-7100, DACT-E3 (See Note 3) TB3-2 AUX RS485 B Output to LCD-E3,ASM-16,ANU-48, LCD-7100, DACT-E3 (See Note 3) TB3-3 Earth Ground Connect to water pipe ground TB3-4 Resettable B+ Auxiliary resettable 24 VDC power TB3-5 GND Common negative TB3-6 Non-resettable B+ Auxiliary non-resettable 24 VDC power TB3-7 GND Common negative TB3-8 Municipal Ckt+ Output to Local Energy City Box or Remote Station or Releasing Solenoid- Non Power-Limited TB3-9 Municipal Ckt- Output to Local Energy City Box or Remote Station or Releasing Solenoid- Non Power-Limited TB4-1 SLC 2 A- SLC 2 Style 6/7 Return (See Note 5) TB4-2 SLC 2 A+ SLC 2 Style 6/7 Return (See Note 5) TB4-3 SLC 2 B- SLC 2 Style 4/6/7 Out(See Note 5) TB4-4 SLC 2 B+ SLC 2 Style 4/ 6/7 Out(See Note 5) TB5-1 Alarm DC NC Alarm relay contact, N/C T135-2 Alarm DC NO Alarm relay contact, N/O TB5-3 Alarm DC Common Alarm relay contact, Common TB5-4 Supv DC NC Supervisory relay contact, N/C TB5-5 Supv DC NO Supervisory relay contact, N/O TB5-6 Supv DC Common Supvervisory relay contact, Common TB5-7 Trbl DC NC Trouble relay contact, N/C TB5-8 Trbl DC NO Trouble relay contact, N/O TB5-9 Trbl DC Common Trouble relay contact, Common TB6-1 RS232 GND To red lead on download cable P/N 75267 TB6-2 RS232 RxD To black lead on download cable P/N 75267 RS-232 Download TB6-3 Supervision Optional Printer Supervision or Printer Port TB6-4 RS232 TxD To green lead on download cable P/N 75267 TB7-1 SLC 1 A- SLC 1 Style 6/7 Return (See Note 5) TB7-2 SLC 1 A+ SLC 1 Style 6/7 Return (See Note 5) Table 3.3.1.1 ILI95-MB-E3 Field Wiring Connections E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 95 E3 Series System Connections Intelligent Loop Interface XP95-Main Board Connections Designation Description Comments T137-3 SLC 1 B- SLC 1 Style 4/6/7 Out(See Note 5) TB74 SLC 1 B+ SLC 1 Style 4/6/7 Out/(See Note 5) W1,W2, W3 Factory Jumpers Factory use only. (Default OUT) W4 ARCNET Term OPEN = Normal Operation. SHORT = If the ILI95-MB-E3 is located at the end of the ARCNET bus. W7,W8 Municipal Jumpers "MB" = For Master Box or Releasing "PR" = For Polarity Reversal W9 Ground Fault Detection IN = ENABLE OUT = DISABLE(See Note 1) SW2-1 Switch 1 ON = SLC 1 DISABLED (OFF =SLC 1 ENABLED) SW2-2 Switch 2 ON = SLC 2 DISABLED (OFF =SLC 2 ENABLED) SW2-3 Switch 3 ON = NAC 1 &2 DISABLED (OFF = NAC 1 &2 ENABLED) SW2-4 Switch 4 ON = BUZZER DISABLED (OFF = BUZZER ENABLED) SW2-5 Switch 5 ON = RS-232 115.2 K BAUD (OFF =9600 BAUD or defined by CamWorkSTM) J1 ILI to PM-9/PM-9G Connects to PM-9/PM-9G J1 (See Note 1 &2) COMM Port J2 Local ARCNET Connects to J5 of the next ILI-E3 or ILI95-E3 Series. J5 Local ARCNET Connects to J2 from the previous ILI-E3 or ILI95-E3 Series. J4 ARCNET Repeater Connects to J7 of the INI-VG J7 or J10 of the Connector RPT-E3. (See Note 4) NOTE 1: Must be IN when connected via ribbon cable from this ILI95-MB-E3 at J1 to a PM-9/PM-9G connector J1. Requires the removal of the JMP-1 on the PM-9/PM-9G. Must be OUT when a ribbon cable is not installed in J1 and the ground fault detection is being provided by another ILI95-MB-E3, ILI-MB-E3 or an INI-VG Series node that is being powered from a common PM-9/PM-9G. NOTE 2: Connect J1 to PM-9/PM-9G J1 only when the PM-9/PM-9G is NOT powering an INI-VG Series sub-assembly in addition to an ILI95-MB-E3, ILI95-S-E3 or an ILI-MB-E3 or ILI-S-E3 sub-assembly. NOTE 3: Use ILI95-MB-E3 Auxiliary RS485 Port(TB3-1 COM A&TB3-2 COM B)to connect to LCD-E3 (E3 annunciator module), LCD-7100(7100 Remote Annunciator Module),ASM-16(Addressable Switch Module),ANU-48 (LED Annunciator Driver Module), DACT-E3(E3 Digital Communicator Transmitter). NOTE 4: RPT-E3 (E3 Repeater Module)is required when this ILI95-MB-E3 is networked via ARCNET to an INI-VGE, INI-VGC, INI-VGX, or another RPT-E3 equipped node. Not required for LOCAL ARCNET communication within a single enclosure.(J2 or J5). NOTE 5: For Style 4, use terminals B+and B-only. For Style 6, use terminals B+and B-and connect return wires to A+and A-. For Style 7,wire as for Style 6 and use Isolator Modules and or Isolator Detectors per recommendations as required. NOTE 6: NAC1 and NAC2 are rated as Special Application. Table 3.3.1.1 ILI95-MB-E3 Field Wiring Connections (Continued) 19 NOTE: For additional information on the wiring requirements, refer to the IL195-MB-E3 Installation Instructions(PIN 9001-0017). 96 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Intelligent Loop Interface XP95-Main Board Connections E3 Series System Connections 3.3.2 IL195-MB-E3 Wiring Diagram Figure 3.3.2.1 illustrates the field wiring connections for the ILI95-MB-E3. QQ25 000 vQ�0�0 ZN Q o�mrn� W 77Jmt W WxWUW WO Q W m m J r2 X70. J~aaQa CL W e'� Q JJ _j_j JJJJ oU Z,(n W00 DOpLLO V r- ¢ W 1-- W3NV¢ Q W W? } }} } }} J J a_j 0 U O M 0 0 Q N Q z x F=Z U FFW z JmF (ANfgy tpNfgfp oaa oU -jJ Z-zZ Oar O MD1 0aOowM n LL _j 7� rnO z QyW mm 4Q mm4Q 222ZJJOaa a0aa Z? NNmm J_v0) U JmwQ ILQJ 000 <<2M2 O�oO a r O N!E-W y a'Zm -UpJp� az0 NNNN NNNN UZZ�mmmxx >F.H F oN F (2M xc y UQCL _j ZON ¢Q as a aaa W Ww�xx000 QapQ Q a Q ZU' 0H W dW-W OUJ UUUU UUUU mmmUZZ2ME xNIX-U' d r ccoo 73 W-?i FQ Jm x X NNNN 777>> VMNr O' M O O mw W0� 7�JZ 0WM JJJJJJJJa'a'a'777JJJmmmm FxN ~ r amV WZLh u-iOno Qom-- NNN NNNN ~NNNN aaa HHHF �° � = WZm Q W j Z JLLz aa8� X888 @00 @ @@ @@@ fm2o W WW NW Q �3WF_zz� Wa 43214321 987654321 ?'z mmWz (�(J7 O w Jm aaUNLL 7 z 7 <0 O O Qx n v LO co aU zZQNw OWN I-70Q LL W x O m J� F Q W m �JN m WNZmQ Za¢ W�a'F Qz Qw Q > > xm0 ciULLu 70>xZ�OJ zO� yQ?JJ I- Oy} J7J r JJU.U.LL 21.— LL 5U) NN �y, xa- <Lu <M OUWJ �N�3JNa'NQ � �NxQFazW _ 0M(n w a u �0�LL C7w3UWNULa xwQ NNWQIL NNz�QO~p I-a.WLLOQ LLILLiwQQ Jx�j ZN>QM O W o wawa } a mt-a_>-a . ,,.�M OOJw7 M ZZ =C WjW Q2 0UJW0 JQ 70 OM N , aWW QQQmm (nOm 3ma OW }�pNaJ W O 0t..)xNW xM<Wz G WWNaY QrUNa(50=� M x a ZJW7Z _jN ~0Na'N r�mo FujYNO Oo MMQQO WF0 0}NSW -j WQzQW} �`"m_ °a O�xOa ZZ aaN F W V LLI-7 W> a Q OWa�7x Nnm u NJ3Oz NW QQ LU a Z W N 7 m x Z x F N 0 m W H F F a x 2 Z 0QZ' ON270 a 7NZryWjN �O NNZmx Q 0 ~ U z 7 F rL F j m a a Y^ II II II II II LLJ WMWF-MOW F W Nome 0<OR 00000 JJQnUo z e x zQ�O VdNE v W oon. x w NNNU�iN FLL3Wpzo07 ��w OLLW°vaiW 0 _ w�❑a a�WP. 00000 x WZx W¢WZZ M o0v?a?U N .0 O w°❑p ?Uwz NNNNN a0rz3:0Z>. 3a �oaF w2nw- w~¢ ❑» ^moo~� y��wy } W N N M �YJ� QZCaUOUzW53 3� 33 nyom�W �FJ3}LL wn❑` �ooNQO a 7�JxF�aQC7 w ZLnVV2m Y7zol_O ❑° Q�Nr-LL 2 OF Z OZ UO� xN Z ¢ J x^ xUQWOFx03 >ot{ a.0jLwNZ FN Z �iO❑p O x�WQa 7 OwF>xFa Q Qa LL��-h wHM2ma J}YZ_J_ 0 7jx F Oz Z W<UU F W�O(7zVxr J3 �<j'mUmNaF a.R ZL o�❑p W LLLLQZQO, ZIyO�J Q¢oaZC�� O7 N 0W2zWz_ ZJalj(/Wj� o�❑~ z-W 000:F-0K0OOQOLL U wzF F-alLa nN wztOm0 70UJxx �^❑0 00 UUO2-F Q}oo J _QF72 Qxw r m � NO°-'U°-�a �a .aw�S o U�� WW3N�W3za'V 0Q a �FUz(90 J7m - M 7UJaJU a'U)=)WWW ��❑ x�J xxWaWWwONWWj Q �ZZ�LL��z� m _ LLWoxo w�❑p ��W x�z�z��3z a ww 00(n M U m m g F-> Q Q 0 00N Qx O zxOON�www w Q wwm�xg aap 3�WyyUjM<CL �? U Z� UWNO>zU HcliQ ��< M Nx� �a� U a F'FQWWQWJ7xUF W 0LL0a0Win< Urr N �o o uiM WwOQQOzaN~QJ a au 01-aJMQaQ Qm m m m<°zN Z F-OZ ��OOZLLJ— .IL N FQ m mss. aa.MHO<a. Ho M.Mo- H H+co c� Z Ixi z W U a?- d z Z ¢ g Q m c J x x m Or @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ X �o ~0 Q1 2 3 4 5 6 7 8 9 1 2 3 4 5 6 7 8 1 2 3 4 W21 aoI I w to II II II II II II II II II p O Q H � NM�NIDhW Tr rr x W 0 U_ Q N w �°o ff Q � Q F-Q+ ±�"� w°wwwww°wwwwww w 0aw lL l-� ? a ' J O7O7H� �7W(Y j7W� UQ00 JJJJJJJJJJ JJ Q a.U) OZN � M VmN >w5wou mm�W mmPW > 0-C2 x V 0Z W 7FN V 'L JW m n oaOQQ NQQayw�a + 00i ~ 0 VLLD Z Z7x 07aW N ,~.,�U .~o _jW W 2,L a. UUNHJUtMa map } N N p W�¢Y z Q .0M3 x �( W H W mJ ml-NH_U_ _tn U m 0 0 W U W UP a0U Q Z Qwnw Q7U7 F 7 QNWNZZ UV J�`�U�J �8 a. NJa N JaN NZ'Ix.6W� Q LLI uwiOtwn0 �0W ~a. UvOZ ~yxy77 az��aaUw a L) x0: ?N 022WO9x U LL W W x W a 3F0 J I- a N 0 Z Qa ZZQQ o,a zJmY00Jax W HQZ JN;J3 Z aNaNa' a �Z H Oa Z ZZ zZ d 11j�UNM W , V NOS aUa2 W W?, W 7z7w °. x00 �UaQw3 a¢WOUQ ¢n.3¢ N W N> N W Q m 0 Q}}J N N }}J 0 W Q> 0 7 0.� 0 ?�? ZZF0:3 FUZa�Z Ng NN ar z Figure 3.3.2.1 ILI95-MB-E3 Wiring Diagram E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 97 E3 Series System Connections Intelligent Loop Interface-Slave Board(ILI-S-E3)Connections 3.4 Intelligent Loop Interface - Slave Board (ILI-S-E3) Connections 3.4.1 Signaling Line Circuits The ILI-S-E3 provides two(2),24 VDC Class A, Style _____ ____ 6,7 or Class B, Style 4 signaling line circuits.See INPUT/CONTROL I Figure 3.4.1 for wiring information. Style 7 wiring I MODULE I requires the use of an M50OX Isolator Module,on both I sides of a device. I I I I Wiring Instructions I I SLC 1 Style 4 T134-8(+),T134-7(-) I SMOKEIHEAT SLC 2 Style 4 T1344(+),T134-3 (-) I SENSOR SLC 1 Style 6 T134-8 out,T134-6 return I T134-7 out,T134-5 return I I SLC-2 Style 6 T134-4 out,T134-4-2 return I �' T134-3 out,T134-1 return I (Polarity markings indicate the polarity that should be I NCM-1 maintained throughout the circuit.Polarity connected I I to the circuit must be observed on all devices). I I Circuit Ratings I I 24 VDC(nominal) j e(-) I LI-S-0 B(+l Current: 0.048 amp max. (supervisory) I I 0.136 amp max. (alarm) I I 0.100 amp max. Steady State – (short circuit) I I 40 Ohms max. line impedance 0.5 gf max. line capacitance ❑ Ground fault test impedance: Zero ohms Wiring: 18 AWG minimum,twisted-pair,unshielded DOTTED LINES INDICATE CLASS A Power-limited Supervised STYLE 61MRING. Figure 3.4.1 Signaling Line Circuits 98 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 Intelligent Loop Interface-Slave Board(ILI-S-E3)Connections E3 Series System Connections 3.4.2 Intelligent Loop Interface - Slave Board Sub-Assembly Figure 3.4.2.1 and illustrate the Intelligent Loop Interface- Slave board(ILI-S-E3)sub-assembly. �M i L JL Figure 3.4.2.1 ILI-S-E3 Signaling Line Circuit Sub-Assembly ys b LO:A Ei J7 LOG ET A EI JI APClfT hR N5 RNA 1e7 0®Ory g+m� 5 ••r�■ 1 e ►r��■ I� �N •sl �•��•r•■ I wq® 6�7R4 • � � V of HH• a of ►HN a '®ON BI ��MM• q segg /i u15 DRIB W- R1C2 �„M�IRI MN ■ R �0 R o fE°RSI _ "ED �11ee0eyaR� �Q�aO muI■ / rnGy■�y■��■■ 03�fQ7 ii m FrA 159;VI 4 RI5?3 rcG YAM��7�! R� �� II■ J7 00 F"fACTORY R2 �TiO�&s� l■ D3 u 00 °fir Y W3 0 CO rllllll1 &L—1 �40. n8°R°O� TM 00 u� a 4 0 "ON ag �:4�l■ RIM•m .. x6 FR R1 O :OR R3V ins R�EP,ROIX1Ci SIIIIII{r es tt R7fY1� y &On /4 ®m nI •■ CH 7271 rN7 :I uI7 v- Rio 42CR� E0 C LAEEL cw - �P20I Oa ■ 34 — vxo3 Rs �, E� a Doi 00 • ■l �� 5°5 "02 �C� PR66U�T P0111 NS : ■��° . .. C DES UL 00 OCp� rn Rj us / �9M0 tlR LABEL �p�o aR�iB • VA Cie dDE ■* ASS'W-h9B-E3 utl c� s�r 8215 RI,S - ■ ■ m I� ■J� RRt 12fl 0899 REV p a c�S eQ / caa iiiFFF ASS'W-5-E3 q° ■ � % 112fl-0905 RE4_ X�y ■ �p ■4 nb'I a MADE IN USA �AIAL NIIR�A 2 ■ TM 1�l ■x .�{yRO uLF o & ctR R�90o �� 0 ■ ■ pa j 6d 9999 X07 ueoaieot e, :i �y ■ y00745 „!!llll1glq1u1Rgg!! ��y A 000- rs um ^ z C��'2 CG82 "" �0 MENU MRRR55 W PI R13 Figure 3.4.2.2 ILI-S-E3 Signaling Line Circuit Sub-Assembly E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 99 E3 Series System Connections Intelligent Loop Interface-Slave Board(ILI-S-E3) Connections 3.4.3 Intelligent Loop Interface - Slave Board (ILI-S-E3) Wiring Connections Field wiring connections for the ILI-S-E3 is shown in Table 3.4.3.1. Designation Description Comments TB1-1,TB1-3 +24 V IN +24 VDC Input TB1-2,TB1-4 GND Common negative from PM-9/PM-9G TB4-2 T134-1 SLC 2 A- SLC 2 Style 6/7 Return (See Note 2) TB4-2 SLC 2 A+ SLC 2 Style 6/7 Return (See Note 2) TB4-3 SLC 2 B- SLC 2 Style 4/6/7 Out(See Note 2) TB4-4 SLC 2 B+ SLC 2 Style 4/6/7 Out(See Note 2) T134-5 SLC 1 A- SLC 1 Style 6/7 Return (See Note 2) TB4-6 SLC 1 A+ SLC 1 Style 6/7 Return (See Note 2) TB4-7 SLC 1 B- SLC 1 Style 4/6/7 Out(See Note 2) TB4-8 SLC 1 B+ SLC 1 Style 4/6/7 Out(See Note 2) TB6-1 RS232 GND To red lead on download cable P/N 75267 TB6-2 RS232 TxD To black lead on download cable P/N 75267 RS-232 Download or Printer Port TB6-3 Supervision Optional Printer Supervision TB6-4 RS232 RxD To green lead on download cable P/N 75267 W1, W2, W3 Factory Jumpers Factory Use Only(Default OUT) W4 Local ARCNET OPEN = Normal Operation SHORT= If the ILI-S-E3 or ILI-S95-E3 is located at the end of the ARCNET bus. W9 Ground Fault Detection Must be open-Jumper removed (See Note 1) SW2-1 Switch 1 ON = SLC 1 DISABLED (OFF= SLC 1 ENABLED) SW2-2 Switch 2 ON = SLC 2 DISABLED (OFF=SLC 2 ENABLED) SW2-3 Switch Unused SW2-4 Switch 4 ON = BUZZER DISABLED (OFF= BUZZER ENABLED) SW2-5 Switch 50N = 115.2 K BAUD (OFF =defined by CamWorksTM) J2 Local ARCNET Connects to J5 of the next ILI-E3 or IL195-E3 Series. J5 Local ARCNET Connects to J2 from the previous ILI-E3 or IL195-E3 Series. J4 Connector Connects to J7 of INI-VG or J10 of the RPT-E3-FO/UTP(See Note 3) NOTE 1: Ground Fault Supervision must be provided by an ILI-MB-E3, IL195-MB-E3 or an INI-VG Series sub- assembly that is powered from a common PM-9/PM-9G power supply. NOTE 2: For Style 4, use terminals B+and B-only. For Style 6, use terminals B+and B-and connect return wiring to A+and A-. For Style 7,wire as for Style 6 and use Isolator Modules and or Isolator Detectors per recommendations as required. NOTE 3: RPT-E3(E3 Repeater Module)is required when this ILI-S-E3 is networked via ARCNET to an INI-VGE, INI-VGC, INI-VGX, or another RPT-E3 equipped node. Not required for LOCAL ARCNET communication within a single enclosure. (J2 or J5). Table 3.4.3.1 ILI-S-E3 Field Wiring Connections NOTE: For additional information on the wiring requirements, refer to the ILI-S-E3 Installation Instructions(PIN 9000-0569). 100 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Intelligent Loop Interface-Slave Board(ILI-S-E3) Connections E3 Series System Connections 3.4.4 ILI-S-E3 Wiring Diagram Figure 3.4.4.1 illustrates the field wiring connections for the ILI-S-E3 sub-assembly. aRWOO �00 wwXa:R ww w y g a a In-NWW W _UU °N~ mOmm a W W W W W W W w UO d.—U aLL00 w Fa J J J J J J J J N W Z W d LL O LL O J 0 O FFFFF�F =gMQ M°'�u� Qn X LLZ N N N N N N N N Z O U Z_ U Q W s iC a_? E In D ED 4400aoa¢ �3 ¢ a a 0a Q'. 0 - NN(nCOU)W nln 0 LL O>OO O? >>>O O y(n(nU)U)W(1)U) L Dap O Za >D¢N p� aQaQaaaa Ln RE)xz3 m w � J J J J J J J J UUUUUUUU ° WNH(7 O FQYVj pJpU NNNN IT N7 0 < NF, ¢} to t0 Ui UUUf�UUUU oa �m pp Zm J J J J J J J J CO m m CO a ¢ W W w 0 NN fn(n(n NNN N _J_J a'W ¢ Or m z ®®a�a�a6� (s) yoao as NLL Z Nw _j I 87654321 4321 aO�OO ww m0 O LL to U U u u LL J J O m m htn LL LL ZOQO O ~ 't II II OO OHNW N^J J U. `p0 L7 F-D O �� Q?> J 0 N �� JQ U: H mm O JNLUN LQL O ~ W WW yN ZJOw0 0 Nap wp 0000 Ui O�J Amy 0 VJN Q"'� ln(L �"mg UwY zz a0U)wrNi M Q ZwW=Z �'"mm � y0 NW JJZON wWH OJN�W N�mz. CO 22 fn N7m a' IL Z U° LL Ow> m m a w H F II II II II II 0UZ' —fnZmW COWW �O ZZZZZ OQZ ��wya N ma �NZ OZ 00000 0 ON20O mn W< —NM14Ln Z fnzm� OQO- lnfnfnCOM 00000 zo3:0 aaaaa w o ❑u u a F W N N N N N Ui 3 O w� CL UJ z '❑_ �Uwz v�iaiu>'iail�i> ~ w J 2 W ~LL CO m o H �W 'a NM oOJW U ��'❑y O�OF w -0 R. �WW?mw weo❑a OoyF-O J Z 3� m�m� �YO00z� o ��Na� a = Q w w� NUOmVay ^❑° z <¢NaLL _j W_ �U. UW z Q�f IZ cn0WNW °wm❑p O OjLUOF Q OZ LO M U.at LU NOmQZU Jam' �<�' anwyU~ w�❑= W LLLLa?a&YezU_M W QW LU M a? ztno ZZ`sFOZW_000¢ NYaNUrL JF�SMO w°❑: Z—W 00W—ZFO~- z U. 0°0 UM2NQ ^ryIn mU—H W W o OOF- 0002�F 0 O LO OW Hmfn Q W JZ JH w"❑o UO�rL Wa'w�NW y UiZOU W z "NmZa= Wzxm w�❑E WaJ YYW¢W�ZVNJ WO °�w~ 7UZa�� w�❑� �TW OON~ayQ2ly� Oa O�U z wl--a-- U U O2� W_—WW¢wapaC7 J F N M J D 0 0 a a 0 O W W O w J 0 m U F mUDw00w >0> 0 Li Em Z W OOOOz<W OLL WZw"OD m+CZ7+0 z�z UUa??FC7 W aM �Z w �0IL 1 234 ww o��W0¢uDiF u n n u u u n n u u>W r 000)° N 0 00000000 0 min W W W w W W w w W W w W J J J J J J J J J J J J 0 >Z00 N 0. �a00 eLa. as Figure 3.4.4.1 ILI-S-E3 Wiring Diagram E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 101 E3 Series System Connections Intelligent Loop Interface XP95-Slave Board Connections 3.5 Intelligent Loop Interface XP95-Slave Board Connections 3.5.1 Signaling Line Circuits The IL195-S-E3 provides two(2),24 VDC Class A, Style 6,7 or Class B,Style 4 signaling line circuits. I IfWJ11 See Figure 3.5.1 for wiring information. Style 7 wiring i MODL LE I requires the use of an M50OX Isolator Module, I I (ILI-S-E3),or XP95-LI Line Isolator or I I XP95-LIB Line Isolator Base(IL195-S-E3)on both sides of a device. Wiring Instructions SNEKS EAT I SLC 1 Style 4 T137-3 (-),T1374(+) S 34SCR I SLC 1 Style 6 T134-3 (-),T1344(+) I SLC 2 Style 4 T137-1 return,T137-2 return I T137-3 out,T137-4 out SLC-2 Style 6 T134-1 return,T134-2 return I I T134-3 out,T134-4 out I I (Polarity markings indicate the polarity that should be NCl%1 I maintained throughout the circuit.Polarity connected I to the circuit must be observed on all devices). Circuit Ratings 24 VDC(nominal) I FWR I g(-) IIJ95-SE3 g(+) Current: 0.051 amp Max(supervisory) I 0.136 amp max. (alarm) I 0.100 amp max. Steady State I (short circuit) I 40 Ohms max.line impedance I 0.5 µf max.line capacitance Ground fault test impedance: Zero ohms Wiring: 18 AWG minimum, DOM®LINES INpCATEagSS A twisted-pair,unshielded S1YLE6WRINIG Power-limited Supervised Figure 3.5.1 Signaling Line Circuits 102 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 Intelligent Loop Interface XP95-Slave Board Connections E3 Series System Connections 3.5.2 Intelligent Loop Interface XP95-Slave Board Sub-Assembly Figure 3.5.2.1 and Figure 3.5.2.2 illustrate the Intelligent Loop Interface XP95 -Slave Board (IL195-S-E3)sub-assembly. I lJ GGmewell 1 9 o 1 -_ _I il�Sit POP I :r. - e Figure 3.5.2.1 IL195-S-E3 Signaling Line Circuit Sub-Assembly AU%1[RNU95 43 PCB I700-0221 REV 2 J5 locAt ARCNEr 112 LOCAL ARCNET • pRCr4iE1 • 114 AReNE!REPEALERO 019 C' 015 C`t A R125 O IBJCEE®UN��1yy°QQmy0- s ••••■ c ••••■ I LERU sl •••••••■ Ipp�- _ ■ Pictm�la� • O C��F. m on®oN RI •••••••• fin _ A I5 p R ��■■ RI7 iP PTC6 R47 pp A48 7�R5 R53�U3&27 ••e6RA"'U14 ��/ii PiG9 113 �FAC7pRY R52 A4ll AAAA Y 4�a R211 oRI�10 Alll •OR104'R225 611 �. C4 R4 O®W3 QC64 11111A`.UB O O. • o R��- C0 -±qd CdN R113-,°-� D101 pA�06 p. ry5gy' •o �" L_6LG7 5 :i C5 USE V O C50 "1 aal�O"3 d�=.�it", os■P°c p2 K�C� iCJ K2 •• o 'R'6 U4� -QQ R214p RI1 V 0162AI 'I• Peel I I'• NB PR °(0°- O R6 129 �J •• •• UI3 74 IT n 6 o q polo��p" KI°Op •■ C110 CI9 $ • TB4 K2 C35 OCA qq 012 R�pCl5 UI6g6mr1 rM24� 6!Q U17 N�RIB•QC420R26 JQ Q� 146 q�9OOoORSOBOp �• K201p�I¢• • �m ws�� nOQ rya / p p Q o21p @ol��■y02�■0yy �p LB2�� IlRG��°DOp n� Q QQp nc160��60elA�c • •1 ABU R6 R24��A27 0 RnSp pAil5gp o 38Q* "1132 11 O AL°Q Qp C�O OR216 0202 R2U2 K5 K' II{{+ O A217 z ////��\\\\ �yry� p ■may■ •�o °RI QP ""QC12 I�I�UI Iewel 62J�YMNOC2➢I U2 Z'LT • � A61p�\Y CSt UI �Q LL"��111®FPE NN7RR R7A222 p3R2202o1O • • ��y0��R 04 RIC INSPX UM 147 O A221 14 g •� TJ'Q ��RZC� RN by Honeywell m 0.o eels - ■ • a61re6s '^0�0 UI m R191 i0 R116 �p �l� OQQQQcsr ASSY IL195-MB-E3 ;ray dM�dOC62 KJ • UI,"�� ••�� is3 676 RNA 1120-0919 REV_ O O �u6 C62 � • y� pcc--�gg ASSY 111195-S-E3 cJe 1 �° c2J0�„'�'Q1' � •a��R71p o�iol 09 1120-0912 REV �1€ 0 127 n LV9 Rtl R11 ❑ NARE IN USA — R73 C26 C . �C1B LL Z .�,• TB1 ;ti ° ' '�I� ° A2 _ _o 1 RIR 7 �6QaoA� p � �-TB6 07� ^9 p- - R65 PiC2 •• p• •S Q �■ �Q °�9°ww°°W°ww = -�62 p 08087654321 C24 31■ • Co qpq cos 101'7 JJ JJJ JJ�J ORI 00[ID O[ILI[I[I[I[IO 4■ • ®a '� �■cssml913llllllllll • O L�6 05 010 �� • • pRls ABCNEL A00RBSS Srn BI Sw2 Figure 3.5.2.2 IL195-S-E3 Signaling Line Circuit Sub-Assembly E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 103 E3 Series System Connections Intelligent Loop Interface XP95-Slave Board Connections 3.5.3 Intelligent Loop Interface XP95 - Slave Wiring Connections Table 3.5.3.1 lists the field wiring connections for the IL195-S-E3. Designation Description Comments TB1-1, T131-3 +24 V IN +24 VDC Input TB1-2, TB1-4 GND Common negative from PM-9/PM-9G T134-2 T134-1 SLC 2 A- SLC 2 Style 6/7 Return (See Note 2) TB4-2 SLC 2 A+ SLC 2 Style 6/7 Return (See Note 2) TB4-3 SLC 2 B- SLC 2 Style 4/6/7 Out(See Note 2) TB44 SLC 2 B+ SLC 2 Style 4/6 17 Out(See Note 2) T136-1 RS232 GND To red lead on download cable P/N 75267 TB6-2 RS232 RxD To black lead on download cable P/N 75267 RS-232 Download or Printer Port T136-3 Supervision Optional Printer Supervision TB64 RS232 TxD To green lead on download cabled P/N 75267 T137-1 SLC 1 A- SLC 1 Style 6/7 Return (See Note 2) T137-2 SLC 1 A+ SLC 1 Style 6/7 Return (See Note 2) TB7-3 SLC 1 B- SLC 1 Style 4/6/7 Out(See Note 2) TB74 SLC 1 B+ SLC 1 Style 4/6/7 Out(See Note 2) W1,W2, W3 Factory Jumpers Factory use only. (Default OUT) W4 Local ARCNET Terms OPEN = Normal Operation. SHORT =If the lL195-S-E3is located atthe end of the ARCNET bus. W9 Ground Fault Detection Must be open-Jumper removed (See Note 1) SW2-1 Switch 1 ON = SLC 1 DISABLED (OFF =SLC 1 ENABLED) SW2-2 Switch 2 ON = SLC 2 DISABLED (OFF =SLC 2 ENABLED) SW2-3 Switch Unused SW24 Switch 4 ON = BUZZER DISABLED (OFF= BUZZER ENABLED) SW2-5 Switch 5 ON = RS-232 115.2 K BAUD (OFF =defined by CamWorksTM) J2 Local ARCNET Connects to J5 of the next ILI-E3 or ILI95-E3 Series. J5 Local ARCNET Connects to J2 from the previous ILI-E3 or ILI95-E3 Series. J4 Connector Connects to J7 of INI-VG or J10 of RPT-FO/UTP(See Note 3) NOTE 1: Ground Fault Supervision must be provided by an ILI-MB-E3, ILI95-MB-E3 or an INI-VG Series sub- assembly that is powered from a common PM-9/PM-9G power supply. NOTE 2: For Style 4, use terminals B+and B-only. For Style 6, use terminals B+and B-and connect return wiring to A+and A-. For Style 7,wire as for Style 6 and use Isolator Modules and or Isolator Detectors per recommendations as required. NOTE 3: RPT-E3(E3 Repeater Module)is required when this ILI95-S-E3 is networked via ARCNET to an INI-VGE, INI-VGC, INI-VGX, or another RPT-E3 equipped node. Not required for LOCAL ARCNET communication within a single enclosure.(J2 or J5). Table 3.5.3.1 ILI95-S-E3 Field Wiring Connections 19 NOTE: For additional information on the wiring requirements, refer to the IL195-S-E3 Installation Instructions(PIN 9001-0018). 104 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Intelligent Loop Interface XP95-Slave Board Connections E3 Series System Connections 3.5.4 IL195-S-E3 Wiring Diagram Figure 3.5.4.1 illustrates the field wiring connections for the ILI95-S-E3 sub-assembly. a 0 0 W J LU a' �Vt01D ��t0 t0 QX W mQmm m M Q �• JJJJ _j_j 0' �a•Z �LL O� Q Q WI' �C LL �F� FFHF ZWNO� OOOO VCOO^2 0m NfnNfn fnNNN -in=JU CMZNLn Qn 0X00 O U�0 z—Z? 0 .. »>P- W E mmQQ mmQQ JFOV d¢ F0aa ZZ LO MmN mV NNNNfoNfnN Wo Wv 01-00 a �XYe zm NtnNtnN(nN(n NWZUx �>F1' p NF� Q�Ui in JJJJ JJJJ wI1 X7XZ 0a ca t= W W W O UUUU UUUU �=0NLL xyr0 ILm <W _j_j WW N CC")N N U N Q N Z �{M N r M a ~d m m W Z UUUU UUU iinnoa00 ZZ JJJJ JJJJ JZapWU? �p�p tO�O NLL N In N in in in<n in N 0.-w'o m 1XI R'o O oo Z W W �� m LU �� J J LL LL. CL_~ � 4321 4321 4321 NN "00 O'� c0 IQl�JJ m m m U_U_ W= OzCO0 H OO JQ z0Q�LU O�DUj J`° OO aY OUOJ "� 4MN^Q J �_ JJ NN C7� O ��UQ�F= O O N _ QQ Ix 0 y N a'N Q • h m W W N N W W T N Uj 0 LL b W�HWa w 3aW WO OON�M OUJWOO --mrc =W0 OZ JJZ�fn �-tO N IL J TM m°o U N Q z W N co=D m w 0;at M O ' Z W W 0 Z LO 2' �= 11 II II II 11 W 1 jH O}NSW U) z ��O YE F- ZZZZz azw° U_NZmw mm� U) 1-0 00000 � a �z TNM� LO W00H � NW W Oaz ovWi=�a N E73 �NZ WI--- 00000 o m LL. aaaaa �"� •+ m� (70�� NNNNN Z LLI O O 3;3;3:3; � U_ Lai �0�u Qa � NUNNN 0 Nz <� w O U)CLQi w p z_j Z � z 3w YmWM w°0� C9aw w w =�UU=W o ��2 3 u) cn cn o w o J Uj v 'nw—�z �°�< zz—�� Q M Qatl LW CO CO °w CJo Z ODfnQO �Ww=��LU �3 z�MM�Z wepp wwwm< —j z^LLI OUMZ_JZ o �a�' wOJfn�O wuQ ZfA QZ_p^LLZILLi H .N.. O� �W mI-~� wv Z—W L—L OYOOH^J WCRI 0 UX� O H zzY~0Mi20 OO -NjJG.a? UZZJZmz wMO'o UTL �UO��H00�z001Qi. Lr� N M W Z W W m Z m O d' J =�W?o . cn03: ��o wo-� ww ZWcnw0N0`�° z~0`nwwW =3L)E-H000 w�0 3:LU YYZ<W�z0>JWO zmz cn Wm� Uj mOaJaQa > o>a LLI OOw�UWWQa0a-0 U r v a 1-O Z ��O W W O W J O a. UZ20WUU m + (�+c9 0�0 wZOOOOWQN~puJ. v)W z1,Lz ?_?00z wz�mmmm � zz--�?�>J WO-0<00 WI c�Z;L't aam�O OUOaNav� WMo�WW0<cni�a0 N M O T N I�OOM r TT U Q D 0 0 0 0 0 0 0 0 0 0 0 0 Z00 WWWWWWWWWWWW aO�� JJJ_j_j JJJ _j_j_j_j +O0?an~. 00 rna a� rna IL Figure 3.5.4.1 ILI95-S-E3 Wiring Diagram E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 105 E3 Series System Connections ILI-E3 and ILI95-E3 Series Programming Address Switch Settings 3.6 ILI-E3 and ILI95-E3 Series Programming Address Switch Settings Figure 3.6.1 illustrates the programming address switch settings for the ILI-E3 and ILI95-E3 Series. II II II r II = II c II = II = II r II II = r =M 0 ry rC300r v0rv0r v0r v 0 rCM 0r4 rv0 NE:= N v NC30 N 4 N v N v N 4 N CM N cm tV EM M11= MIN= MO= M OM M OM MIIr-3 M@I= MNK3 en Elm t`"M a -,r IN= vOM --t 11M vIIM -1 EM vIKM -,r IN= -t EM vEM -t C30 V) =M to OEM Ln NKM to OM uo 01--] to EM Ln IN= to EM u) EM LO v W Elm my v v cov m SK3 to Em cop cow my n 11M r- =M tia Elm nvim 1- a 1- v ^ JIM 11M ry 00 on= oo v ao p 00 v ao 11=1 co v oo M= w CM 00 EM 00 v I O LO U) LO LO II II O II O II O II O 11 = II O II O II = r 4 0— E=M 0r C=M 0rv0rv0— v0— v0r (--M0ry 0 N 4 N 4 N mm N 4 N 4 N 4 N 4 N == N 4 MNo= M EM MNIZ3 MElm M EM M E M MM MMZ3 MWZ3 LO IIIM NNIM to v to v to v N v M v to CM to v 00 I C301 001 OM I oo[==1 001 OM 1 001 v I co I OM I W v o0i OM 1 -1 v 1` 00 O O r N M I* u7 LL V♦ LL Mr 11 =11 r =d = _ r 11 r r cm 0— v 0— v 0— v 0— v 0— v 0— v 0 r CM 0— v 0 v O N [zM 04 C3 04 C30 N CM NC3M NC30 NC3M N =M 04 C30 Z 1L M � M EM M am M am M � M � en E1=1 Ln =W Ln a to a to §K:1 to EM to EM an am an EK=l Ln 0=1 IN= t0 11=3 co IIE3 4 w 4 w 4 t0 4 t0 EM t0 4 U001 0=1 1 001 v 1 00 1 W:31 00 v 00 IK=I 00 v 00 IK=I 00 =M 00 0=1 W 04 N M M M M M M LO M (n U) r-II II II C II O 11 = II O II II T r1--M Or v 0— v 0— C3M O— OM 0- v O�- v O rIZM O— v O E N =M N [== NI-= N1--m NE:M N EM C14 EM N EM VM E MC30 Mc3m MEzM MM=I M0=1 M MM MWZ3 ME1=1 W) EK-1 to EM N p to ==] to [=M N v M y to ME to C30 EM t0 am t0 EM t0 am t0 v v v t0 C30 t0 IK--3 CM r v rIN= n1� r, a r a OM n OM nE=M CO =M CO am m v 00 == 00 =M mM= 00 v 00 M= Oov (n N N 04 N N N N N II C II C II = II C II C II r II r II r II r cm orvor vorvor cm o— v OrvO— ME 0 v0 C'4 r-= N v N v N 4 04 C30 N v N v N =M C30 M =M M � M 4 M 4 M 4 M 4 M 4 M CM 4 W 'T � � v � � OM IT v � � � 11 to CM W) CM to 4 to 4 to 4 Wn W= to O= M 11M SK3 CM 0 EM 0 EM w01--i EM (0 4 t0 4 MM 4 nIR-) I- EM ti CM n E EM n v [.- cm f` ON--] NIE3 QZ 00 M=1 00 v 00 §1=1 00 v 00 M=I 00 v oo O= 00 E3M §1=1 0 0 O 04 _M �_ LO _O ti 00 Q Z 0 r I 10 r 0 I r I 0 rEZM r v 0r v Or a 0 r v Or v Or v Or 1--M 0r v 0 0 C-4 EM N == 04 4 N C30 N == 04 EM 04 4 N EM N EM MCZM M y M y M y M y M y M y M CM M y r EM -q v V 4 4 -q v v -,r @I= r 11=1 11=1 = to 11=1 to EM Lf) W::3 to 59--3 to Nom Lf) IK=l to v N CM LO v W CM 0 v t0 am t0 OM CD IK--I IK--3 to v CM t0 v oo CM 00 IK3 00 v 00 IN= 00 v 00 W= oo v 00 IK--j 00 v W O101 II O N O M IO ti 0 i0 Jr 4 0r 4 r =W rCM r v r v r 4 0— =M 0— =M r [--M QN � N v N � N CM N 4 N v N v N CM N CM N � M y M y M =M M EM M y V) C30 MC30 M CM M CM M CM cv a va v =W vC30 v4 -t CM vv -T CM vCM Z LO v to v to =M to E=M to CM to CM to =W In =M M 0=1 uY ME:] a n v r` v r` p n p I- a rn a n EM r EM r- C30 r-- CM Nov � � 001� 00 � 0ov 001� 00 v 00 NO= w � w � Figure 3.6.1 ILI-E3 and ILI95-E3 Series Address Switch Settings 106 E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 PM-9 1PM-9G Power Supply Connections E3 Series System Connections 3.7 PM-9/PM-9G Power Supply Connections The PM-9G electrical specifications are provided in the following sub-sections. 3.7.1 PM-9/PM-9G AC Power Connection The following power source connections must be made in compliance with the National Electrical Code,NFPA 70,Article 760,the applicable NFPA Standards,and according to the requirements of the Authority Having Jurisdiction(AHJ). • PM-9 connection of 120 VAC,60 Hz • PM-9G connection of 240 VAC,50/60 Hz Such requirements include: • Connections must be made to a dedicated branch circuit. • Connections must be mechanically protected. • All means of disconnecting the circuit must be clearly marked: "FIRE ALARM CIRCUIT CONTROL" • Connections must be accessible only to authorized personnel. PM-9 The PM-9 can draw up to 4.6 amps max. @ 120 VAC 60 Hz when under full load. See Figure 3.7.1.1 for the AC wiring and ground connections. See Table 3.7.5.1 for AC input and battery connections. See Table 3.7.5.2 for ground fault options and programming. PM-9G The PM-9G can draw up to 2.4 amps max.@ 240 VAC 50/60 Hz when under full load.Figure 3.7.1.2 illustrates the PM-9G AC power connection. See Table 3.7.8.1 for AC input and battery connections. See Table 3.7.8.2 for ground fault options and programming.. NOTE: Always apply AC power first,then connect the batteries. O O 3 m • 120 VAC Neutral (White) GROUND 240 VAC NEUTRAL 0 (GREEN) (WHITE) z GROUND 120 VAC Hot 0 (GREEN) (Black) 240 VAC HOT (BLACK) • • CB1 • • CIRCUIT BREAKER • • • • DD CIRCUIT BREAKER DD Figure 3.7.1.1 PM-9 AC Power Connection Figure 3.7.1.2 PM-9G AC Power Connection E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 107 E3 Series System Connections PM-9 1PM-9G Power Supply Connections 3.7.2 PM-9/PM-9G Battery Connections • Two(2),twelve volt batteries are connected in series to the PM-9/PM-9G. • TB3-1 is positive. (For PM-9,see Table 3.7.5.1 and for PM-9G,see Table 3.7.8.1 ) • TB3-2 is negative. (For PM-9,see Table 3.7.5.1 and for PM-9G,see Table 3.7.8.1 ) • 14 AWG wire minimum • Observe polarity See Table 3.14.1 for Battery Calculations 3.7.3 PM-9 and PM-9G Specifications PM-9 The following list the electrical specifications for the PM-9. Input Voltage: 120 VAC @ 60 Hz Input Current: 4.6 amps @ 120 VAC @ 60 Hz Output Voltage: 24 VDC FWR Output Current: 9 Amperes Alarm max.continuous Output Current: 5 amperes Standby max.continuous(See Note 1) Operating Temperature: 32°to 120°F(0°to 49°C) Relative Humidity: 0 to 93%,non-condensing at 90°F(32°C) Supervised Non Power-Limited NOTE 1: Continuous standby loads in excess of.560 Amps up to 5 Amps may require Generator Backup or load shedding during an AC power failure. See Section 3.14 Standby Battery Calcula- tions. PM-9G The following list the electrical specifications for the PM-9G Input Voltage: 240VAC @ 50/60 Hz Input Current: 2.4 amps max. Output Voltage: 24 VDC FWR Output Current: 9 amperes Alarm max. continuous Output Current: 5 amperes Standby max.continuous(See Note 1) Operating Temperature: 32°to 120°F(0°to 49°C) Relative Humidity: 0 to 93%,non-condensing at 90°F(32°C) Supervised Non Power-Limited NOTE 1: Continuous standby loads in excess of.560 Amps up to 5 Amps may require Generator Backup or load shedding during an AC power failure. See Section 3.14 Standby Battery Calculations. 108 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 PM-9 1PM-9G Power Supply Connections E3 Series System Connections 3.7.4 PM-9 Power Supply Sub-Assembly Figure 3.7.4.1 and Figure 3.7.4.2 illustrate the PM-9 Power Supply sub-assembly. jil x. if 0 Ir "IJ-D920 REV JO W USA x. , . Figure 3.7.4.1 PM-9 Power Supply Sub-Assembly • • • • • • 6„ C4 • u • • T1 m ■• • • • ■ • • • N D5 C24� R36 • 131 C1 W R631.3 D6 ■ • C6 R16 R � R39 rc ... • • • C13- • • +� Q "016 R43 N 01D10 U9 R48 Q�U O OC}p • • • R21 C9 • • 1 0��-1 -C31 PS] 018 �r• • Ci] R1] 4M'RR45- U7 OC34 �V• L!!J 1 C3]O • R60 PSi R2 • D13�j D� • • • Dycm R35 r 4 R28 Q�, W �� C2a�� 1[6 • • Da oO 0 W� q_U3 mR32CUM■ y ■ < OOR56 R49- R2] R191��IR20 • • • R26 • ° P� I�C_f-1II GNDSIG R54 �40 u12 C15t LJ CS 120-1 RI8 R22 • m ° RS] R61 D2 R11 a MOVS 1 Q BR1 1 • 0 112 D3— Q� ■ • R4 04 Q • O rco I�R7 01 015 • • C14 ui 021 PM-9 PCB c1D Me. cts <•• °a 1= a P-,C R31 1700-0209 III ° �t MOV6 q° MADE IN USA 2 C27 120-0865 REV Ja P1 CRM 1s- oR1 _ • •N • • o • ii us • • ova MDVI L2 • • • • ®W1 LLm° Figure 3.7.4.2 PM-9Power Supply E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 109 E3 Series System Connections PM-9 1PM-9G Power Supply Connections 3.7.5 PM-9 Power Supply Wiring Connections Table 3.7.5.1 lists the field wiring connection to the PM-9 Power Supply. Designation Description Comments TB1-1 HOT/BLK Connect to hot, 120VAC, 60Hz- Non Power-limited TB1-2 GND/GRN Connect to ground and isolated earth ground - Non Power-limited TB1-3 NEUT/WHT Connect to neutral 120VAC, 60Hz TB3-1 BATT+ Battery positive input- Non Power-limited TB3-2 BATT- Battery negative input- Non Power-limited TB4-1 24VOUT +24 VDC FWR Output to AM-50 amplifiers or IL195-E3/ILI-E3 Series, TB1-2: used to power two (2), AM-50 amplifiers or the IL195-E3/ILI-E3 Series TB4-2 GND GND (-) Output to AM-50 amplifiers or IL195-E3/ILI-E3 Series, TB1-1: used to power two (2), AM-50 amplifiers or the IL195-E3/ILI-E3 Series TB4-3 24VOUT +24 VDC FWR Output to AM-50 amplifiers or IL195-E3/ILI-E3 Series, TB1-2: used to power 2nd pair of AM-50 amplifiers, IL195-E3/ILI-E3 Series, and INI-VG TB4-4 GND GND (-) Output to AM-50 amplifiers or IL195-E3/ILI-E3 Series: TB1-1: to second pair of AM-50 amplifiers, IL195-E3/ILI-E3 Series, INIVGC TB4-5 24VOUT +24 VDC FWR Output to other sub-assemblies: INI-VG or IL195-E3/ILI-E3 Series T134-6 GND GND (-) Output to INI-VG or IL195-E3/ILI-E3 Series JMP1 IN for GND Fault Detection (See Note 1) J1 10-PIN Ribbon Cable Connect to the IL195-MB-E3 or ILI-MB-E3 Connector J1, or INI-VG Connector J4 JMP2 Factory Use Only LED 2 Green Lights to indicate AC power LED 3 Yellow Lights to indicate no or low battery fault LED 4 Yellow Lights to indicate ground fault NOTE: AC "Brown Out' condition indicated by: LED 2 (grn) OFF LED 3 (yel) LIT LED 4 (yel) LIT NOTE 1: Must be OUT if this sub-assembly is monitoring the IL195-MB-E3/ILI-MB-E3 Series. Table 3.7.5.1 PM-9 Terminals, Jumpers and LEDs Table 3.7.5.2 lists the details for the Ground Fault supervision and settings. Designation Description Comments Ground Fault Supervision Jumper Settings CamWorks Settings ILI-MB-E3, IL195-MB-E3 W9 shorted on ILI, ILI Supervision of PM-9 enabled. JMP1 Open on PM-9 INI-VGX JMP1 shorted on PM-9, VGX Supervision of PM-9 W9 Open on ILI enabled Only one node connected to a PM-9(by Ribbon Cable)must have"Supervision of the PM-9" Enabled in CAMWorks.All additional Nodes powered from a common PM-9 are to have their Ground Fault jumpers open or disabled and the supervision of the PM-9 disabled in CAMWorks. Table 3.7.5.2 Ground Fault Supervision 110 E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 PM-9 1PM-9G Power Supply Connections E3 Series System Connections 3.7.6 PM-9 Wiring Diagram Figure 3.7.6.1 illustrates the wiring diagram for the PM-9 sub-assembly. W O _j O z z a ~ W a o zz W w O U W Z O = ~ O- Z Z Z U OU O W O z M W m = J 0 CO a J 0 W U W I- NZJNmJmo: W QQam O i Q Q a M Q 0 W F- U Z m z O F- W W a �_ J U pJ W O p = 0 � LL U W J Q Co P D m 0 H L U Z U a NO� 0 W Q M W Q w W W w 0! p U w U U m 0 a Li.I J FW- z _j to W a Z F- W O OZ U o a a a a? Oz LL 0 M W Y m U � J Z Q ,n F_ W m - O O D Z 0 W W W U U Dj Z U Z > Z W a Z > 0 > O z O Z Q ix 0 0 CD = W o U U d LL <n M 3n ID N ONO r1N HOJ6 D O 4 D3 v Q a Q fo P z IX Z D: LU w_ O_ W Sl0 9lOM ~ ~ O = a op n ZN zs I-B z w O 0- � z :L SOON019 Z 12n n n n n n7 0 d p W W W J J N J J J < 0 O Z LL ~ w O O LL o m m D! W W LL 0 0 O O O C7 } } O W r �6 00 0"at w W w CM7 Q M w J 0 ,`^� J N J O = LL O Q a LL o Z LL LL z p a } Z o W z J a v W 0L) a LL _ ° O+ m c9 � m O m ■■■ z w 0+: 24VOUTGND 24VOUT(9 Gz ND a 24VOUTGND W TB3 TB4 U m m O W v W W v W W ± W ° W W ~ - Z a. F a > a0a > aza ; E3 Series System Connections PM-9 1PM-9G Power Supply Connections 3.7.7 PM-9G Power Supply Sub-Assembly Figure 3.7.7.1 and Figure 3.7.7.2 illustrate the Power Supply(PM-9G)sub-assembly. • FRDUCT UL LABEL N I- F Re Fay WOY3 "'U" DATE CODE FIRE CONTROL INSTRUKRIS PW-9G P0 :z IIZD-0927 REV i �w L. MADE IN JSA 4 AM {?p O D Figure 3.7.7.1 Power Supply (PM-9G) Sub-Assembly • • • C48o • • Al O • PRODUCT n • R6a • O UL • L1 14 • D5 • • • al c2a • LABEL • • •" on • • • °��:,, • cs- m - Clt • • • • •�� R46 � P53 CISp 0E 010 R43 R40 • • • RI6 U9 016" • • • • R21 C9 • • • =G11 I Q1�O O 130 P52 018 �ry • �� C3] OR52R459b U7 Q C34 • • 09 R290 • 02 PSI 03 � R24��011 • R17 O R28 61 m R51p� .I< 013 �• . • • �08 R25o5°(, p�us a. .� 0a. . D� �' • . . m R600 �� R50°°R47 R27 R19RN 021 ~ �R41 05 RI JMP?R22 122 •® Q z CM Mkp R49 • �O O1 U12 CUQ Q T FOR I240V BAR CODE LABEL PRODUCT • _ •® WMOV5 PM:'LP02— OR PRODUCT DATE CODE •'•• • • I I pR54 D3a .0 SERIAL NUMBER 1- o RIO R4 OR56 D4a pRIJ LABEL • BRCa • •(: + z �® 15 o Q 015 ° • p'Q� UI C25 FIRE CONTROL INSTRUMENTS ao. �• •N • - c44 fie 12 PM-9G PCB C14 Mov�� 145O dam o czs 1120-0927 REV_M ca7 m n is ADE IN USA • i i JMPI YI O�R0OC4J • •_ • Li 6 8 MOVI P54 9• • - C19 • • r'V(' Figure 3.7.7.2 Power Supply (PM-9G) Sub-Assembly 112 E3 Series Installation/Operation Manual—FIN 9000-05741 09/03/09 PM-9 1PM-9G Power Supply Connections E3 Series System Connections 3.7.8 PM-9G Power Supply Wiring Connections Table 3.7.8.1 list the field wiring connections to the PM-9G Power Supply. Designation Description Comments TB1-1 HOT/BLK Connect to hot, 240 VAC, 50Hz/6OHz- Non Power-limited TB1-2 GND/GRN Connect to ground and isolated earth ground - Non Power-limited TB1-3 NEU/WHT Connect to neutral 240 VAC, 50Hz/6OHz T133-1 BATT+ Battery positive input- Non Power-limited TB3-2 BATT- Battery negative input- Non Power-limited TB4-1 24VOUT + 24 VDC FWR Output to AM-50 amplifiers or IL195-E3/ILI-E3 Series, TB1-2: used to power two (2)AM-50 amplifiers or the IL195-E3/ILI-E3 Series TB4-2 GND GND (-) Output to AM-50 amplifiers or IL195-E3/ILI-E3 Series, TB1-1: used to power two (2), AM-50 amplifiers or the IL195- E3/ILI-E3 Series TB4-3 24VOUT + 24 VDC FWR Output to AM-50 amplifiers or IL195-E3/ILI-E3 Series, TB1-2: used to power 2nd pair of AM-50 amplifiers, IL195-E3/ILI-E3 Series, and INI-VG TB4-4 GND GND (-) Output to AM-50 amplifiers or IL195-E3/ILI-E3 Series: TB1-1: to second pair of AM-50 amplifiers, IL195-E3/ILI-E3 Series, and INI-VGC TB4-5 24VOUT + 24 VDC FWR Output to other sub-assemblies: INI-VG or IL195-E3/ILI-E3 Series TB4-6 GND Common (-) Output to INI-VG or IL195-E3/ILI-E3 Series JMP1 IN for GND Fault Detection (See Note 1) J1 10-PIN Ribbon Cable Connect to the IL195-MB-E3 or ILI-MB- E3 Connector J1, or INI-VG Connector J4 JMP2 Factory Use Only LED 2 Green Lights to indicate AC power LED 3 Yellow Lights to indicate no or low battery fault LED 4 Yellow Lights to indicate ground fault NOTE: AC "Brown Out' condition indicated by: LED 2 (grn) OFF LED 3 (yel) LIT LED 4 (yel) LIT NOTE 1: Must be OUT if this sub-assembly is monitoring the IL195-MB-E3/ILI-MB-E3 Series. Table 3.7.8.1 PM-9G Terminals, Jumpers and LEDs Table 3.7.8.2 lists the details for the Ground Fault supervision and settings. Designation Description Comments Ground Fault Supervision Jumper Settings CamWorks Settings ILI-MB-E3, IL195-MB-E3 W9 shorted on ILI, ILI Supervision of PM-9G JMP1 Open on PM-9G enabled. INI-VGX JMP1 shorted on PM-9G, VGX Supervision of PM-9G W9 Open on ILI enabled Only one node connected to a PM-9G (by Ribbon Cable)must have"Supervision of the PM-9G" Enabled in CAMWorks.All additional Nodes powered from a common PM-9G are to have their Ground Fault jumpers open or disabled and the supervision of the PM-9G disabled in CAMWorks. Table 3.7.8.2 Ground Fault Supervision E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 113 E3 Series System Connections PM-9 1PM-9G Power Supply Connections 3.7.9 PM-9G Wiring Diagram Figure 3.7.9.1 illustrates wiring diagram for the PM-9G sub-assembly. W O H U Z z Z Z Q W LU Q D W U W Z O W U) O = LU Z Z U OU O W 0: = cwn CO U ° O m W ~ z w Y z w U } U O J 2 U CO z J fn J m M W W Q W W � M LL LU nay= Q J � Q = z m Z O D! W p U U ~ O p Q 0 v w J m w 0 I Q o w J Q of w a W w w W a v W L z U g U Y m = a w F- O z I- z p a J z rn to R � H 0 I- � CO z OU 0 0 0 H Q Q z Z LL d U W W 00 H F- Y U U U W W a z o z z w m w o w 0 O z 0 x M U' U W z U En W > M J W > = O > J Z Q (r Z W O O a N N ( NEUTI WHT GNDI GRN HOTI E 9 LL U Z O Q O T B 1 z LL 0 J 1 J 2 Q O F_w O m p a Z m z U LL a z 12n n n n n n7 a C1 LU LU C11 W -J J 0. H c M LL 0 J =3 ° W O O z M LL LL LL a O LL 0 � N F- 1 6 U' O ° O O ° W ° J �� an n 00 w M L c7 0 w ~ �— � ~ J 0 Q > a LL o Z LL LL z' O a } z �; oow °z F_ a N a' W W F =) 0 d � F- m0 0w o oa+ z Q CO 0 ° CO o �- U O Q a + CO O w 0 24VOUT Ui GND 24VOUT GND 24VOUT GND ° TB3 TB4 U ° m CO w w W w vw w +�_w w ± W w LLJ j ± z a > a a > a > Q w a- a- 0 Q G! a a Q N Q Q N Q Q N Q Q1 Z 1- F- Gr mQ YWYW z ? zW ? zW ? zW ? zW ? zW ? LQ0maa Q z Q Q Q Q W H H H F- > 0 a 0 0 N o CO mm CO x D � x � x D D x � v W Q W z Z W O W O W O w O w O w 0 N LL (L a) LL Figure 3.7.9.1 PM-9G Wiring Diagram 114 E3 Series Installat on/Operation Manual P/N 9000-0574T 09/03/09 ASM-16 Addressable Switch Connections E3 Series System Connections 3.8 ASM-16 Addressable Switch Connections The remote Addressable Switch(ASM-16)is an optional sub-assembly that may be programmed to perform auxiliary switching functions.Connections are made to the following: • ILI-MB-E3 or ILI95-MB-E3 TB3 to the ASM-16 TB • LCD-E3 J1 to the ASM-16 J2 The address of the ASM-16 in the system is set via a DIP Switch.Up to sixteen(16),ASM-16 sub- assemblies can be installed.The first address must be set to Number 32. For additional information on the connections and addressing information,refer to the ASM-16 Installation Instructions,PIN 9000-0550. 3.8.1 Specifications The following list the electrical specifications for the ASM-16. Operating Voltage: 24 VDC(from PM-9/PM-9G power supply) Operating Current: 0.011 amp(with no LEDs lit) Operating Temperature: 32°to 120°F(0°to 49°C) Relative Humidity: 0 to 93%,non-condensing at 90°F(32°C) Supervised Power-limited E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 115 E3 Series System Connections ASM-16Addressable Switch Connections 3.8.2 Addressable Switch Sub-Assembly (ASM-16) Sub-Assembly Figure 3.8.2.1 and Figure 3.8.2.2 illustrate the Addressable Switch(ASM-16)sub-assembly. Its" 'WIN -L I 0 Ifif 14111111 P_ TVSJ Cal C17 C-0 J4 FWATCA (MINAL-A PM, OWN 1W Lam 0 CMMCTM Figure 3.8.2.1 ASM-16 Rear View Figure 3.8.2.2 ASM-16 Front View 116 E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 ASM-16Addressable Switch Connections E3 Series System Connections 3.8.3 ASM-16 Wiring Connections For the ASM-16,ANU-48,INI-VG Series,ILI-MB-E3/ILI95-MB-E3,LCD-E3 or remote enclosure installations,use the wiring connections in Table 3.8.3.1,and refer to Notes A-F in Figure 3.8.4.1 for the ribbon cable and hardwire locations. ASM-16 or ANU-48 to ASM-16 or ANU-48 Wiring Designation Description Designation From ASM-16 or AN U-48 Ribbon Cable To ASM-16 or ANU-48 J1 Ribbon Cable Connect To: J1 -LCD-E3 J1,J2 -ANU-48 J3 -INI-VGC, INI-VGX, INI-VGE J1,J2,J3-ASM-16 J2 Ribbon Cable Connect To: J1 -LCD-E3 J1,J2 -ANU-48 J3 -INI-VGC, INI-VGX, INI-VGE J1,J2,J3-ASM-16 J3 Ribbon Cable Connect To: J1 -LCD-E3 J1,J2 -ANU-48 J3 -INI-VGC, INI-VGX, INI-VGE J1,J2,J3-ASM-16 J4 Emulator Factory Use Only J5 Factory use only JMp1 Termination Install Jumper only if the last device is on RS-485 bus. Note: See Note A in Figure 3.8.4.1 for the ribbon cable connection. ASM-16 or ANU-48 to ASM-16 or ANU-48 Wiring From ASM-16 or AN U-48 RS-485 COM A from previous device/to next device. Connect To: T131-1 COMM A Single Discrete Wire TB3-1 ILI-MB-E3/ILI95-MB-E3 TB6-3 INI-VGC, INI-VGX, INI-VGE TB1-3 DACT-E3 TB1-1 ASM-16,ANU-48 TB1-5 LCD-E3 T131-1 LCD-7100 TB1-2 COMM B Single Discrete Wire RS-485 COM B from previous device/to next device. Connect To: TB3-2 ILI-M B-E3/ILI95-MB-E3 TB6-2 INI-VGC, INI-VGX, INI-VGE TB1-4 DACT-E3 TB1-2 ASM-16,ANU-48 TB1-6 LCD-E3 TB1-2 LCD-7100 Table 3.8.3.1 ASM-16 or ANU-48 Wiring Connections E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 117 E3 Series System Connections ASM-16 Addressable Switch Connections ASM-16 or ANU-48 to ASM-16 or ANU-48 Wiring From ASM-16 or AN U-48 RS-485 COM A from previous device/to TB1-3 +24V Single Discrete Wire Connect To: ASM-16 or ANU-48 to ASM-16 or ANU-48 Wiring Designation Description Designation TB1-3 +24V Single Discrete Wire TB1-3 +24V TB3-6 ILI-MB-E3/ILI95-MB-E3 TB6-1 INI-VGC, INI-VGX,INI-VGE TB1-4 GND Single Discrete Wire Connect To: Common TB1-4 GND TB3-5 or TB3-7 ILI-MB-E3/ILI95-MB-E3 TB6-4 INI-VGC, INI-VGX, INI-VGE Note:See Note B in Figure 3.8.4.1 for the hardwire connection. INI-VGC, INI-VGX or INI-VGE Wiring From INI-VGC, INI-VGX or IN[-VGE To ASM-16 or ANU-48 J3 RS-485 Local Ribbon Cable I J1,J2 or J3 Note: See Note C in Figure 3.8.4.1 for the ribbon cable connection. From INI-VGC, INI-VGX or INI-VGE To ASM-16 or ANU-48 ASM-16 or ANU-48 to ASM-16 or ANU-48 Wiring TB6 RS-485 Remote ASM-16 or AN U-48 TB-1 TB6-1 +24V Single Discrete Wire TB1-3 +24V TB6-2 COMM B Single Discrete Wire TB1-2 COMM B TB6-3 COMM A Single Discrete Wire TB1-1 COMMA TB64 GND Single Discrete Wire TB1-4 GND Note: See Note D in Figure 3.8.4.1 for the hardwire connection. ILI-MB-E3/ILI95-MB-E3 Wiring From ILI-MB-E3/ILI95-MB-E3 To ASM-16 or ANU-48 TB3-1 COMM A Single Discrete Wire TB1-1 COMMA TB3-2 COMM B Single Discrete Wire TB1-2 COMM B TB1-3 +24V Single Discrete Wire TB1-3 +24V TB1-4 GND Single Discrete Wire TB1-4 GND Note:See Note E in Figure 3.8.4.1 for the hardwire connection. LCD-E3 From LCD-E3 To ASM-16 or ANU48 J1 I I Ribbon Cable J1,J2,or J3 Note1: See Note F in Figure 3.8.4.1 for the ribbon cable connection. Note2: JMP1 -Termination leave out. JMP2-Factory Programming leave in. JMP3-Factory Programming leave in. JMP4-External Buzzer Connector. Table 3.8.3.1 ASM-16 or ANU-48 Wiring Connections (Continued) 118 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 ASM-16 Addressable Switch Connections E3 Series System Connections 3.8.4 ASM-16 or ANU-48 Wiring Connections Figure 3.8.4.1 illustrates the ASM-16 and ANU-48 wiring connections. NOTE A: ASM-16 or ANU-48 to ASM-16 or ANU-48 wiring ASM-16/ANU-48 to ASM-16/ANU-48 RS-485 Connection O o] 101 A 1 0 Z2J 0 0 J3 A J3I0 J3M ^ J2 ;1 J2 J1 A A F NOTE C and F: From local INI-VG or LCD-E3 J1 1 1 SW n® 1 SW n® (RS-485 Local) JMP 1 a JMP 1 JMP 1 NOTE A: ASM-16 or ANU-48 to ASM-16 or ANU-48 wiring p NOTE B,D and - ASM-161ANU-48 to !_� REM® ® ® HARDWARE RS-485 Port ASM-16/ANU-48 RS-485 REM (to/from module in connection Different INCC cabinet) 0 0 0 IA-- 0 o From ILI-MB-E3 or IL95-MB-E3 J3 A J30 J3- TB3-1,TB3-2,TB1-3 and TB1-4 O J1 J J1 RS-485 RIBBON CABLE Connector(to/from module) In same INCC Cabinet) Sw n® SW 1� Sw n® JMP 1 JMP JMP 1 V" M NOTE B: III To next ASM-16 or ANU-48 TB1 remote in next INCC 0 0 0 0 0 o cabinet NOTE A: ASM-16 or ANU-48 to ASM-16 or ANU-48 wiring ASM-16/ANU-48 to ASM-16/ ANU-48 RS-485 connection O Figure 3.8.4.1 ASM-16 and ANU-48 Wiring Connections E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 119 E3 Series System Connections ASM-I6Addressable Switch Connections 3.8.5 ASM-16 Wiring Diagram Figure 3.8.5.1 illustrates the field wiring connections for the ASM-16. J1, J2 AND J3 ARE RS-485 RIBBON CABLE "IN" AND/OR "OUT" CONNECTIONS TO NEXT/PREVIOUS MODULE (NOTE POSITION PIN 1) J3 J3 RS-232 PORT 1 9 CONNECTIONS -ANU-48-C OR J2 -ASM-C SERIES J1, J2, OR J3, AND 0 J1 - INI-VG-C J3 J1 RS-232 PORT J2 CONNECTIONS J2 RS-232 PORT -ANU-48-C J1 OR J2 CONNECTORS -ASM-C SERIES -ANU-48-C J1 OR J2 N J1, J2, OR J3, AND -ASM-C SERIES - INI-VG-C J3 J1, J2 OR J3, AND - INI-VG-C J3 N SW1 46000000 1 2 3 4 5 6 7 8 FACTORY JMP1 T131 RS-485 PORT USE ONLY CONNECTS TO THE JMP3 a JMP2 INI-VG-C J5 T131 TO INI-VG-C SYSTEM GND (-) 4 TO T136-4 24 VDC (+) w 3 TO T136-1 RS-485 COM B n, 2 TO T136-2 RS-485 COM A j 1 TO T136-3 REMOTE El JMP4 REAR SIDE VIEW JMP4 o REMOVE SHUNT AND PLACE SA-C CONNECTOR FOR EXTERNAL SOUNDER Figure 3.8.5.1 ASM-16 Wiring Diagram 120 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 ASM-16 Addressable Switch Connections E3 Series System Connections 3.8.6 ASM-16 Programming Address Switch Settings Figure 3.8.6.1 illustrates the ASM-16 programming address switches. NOTE: Set the first address in the program to switch 32. Set this switch 6 UP when connected �to the ILI-MB-E3 or ILI95-MB-E3. Fff CONTROL INS1RlNIENTS • •*00• O • MADE IN USA � 9*00• a C14 _ 12345878 12345678 o�s� 00888008 80008800 — 8280 �" 0" • r R260 , OR2 Imo c,s OR3 12345678 12345678 `s 051 Cl 03 OLI O R7 Ja a10 RNa uR U, '5 ORS °. ii Rm0 C70 ORe nnnnnnnn_ 12345878 12345678 ii i' � 1 , , ORIO — 00000000 00000000 — 1 OR67 ORB N R320 �� R55 Rs3 RS1 N 8330 �s 0100000090 on 12346678 12344678 070 a, VMS R% Rs2 OR,3 00000000 i]00°0000 = 1 00 srnT'Iiuonnua� , • aCl1 us I Us RI2 12345678 12345678 O �O RI6 = oo°00000 oo��0000 = 1 I Iii ma's CO rMo NUNVN�� 0R71 C4U2 0 U3 TO MOICI 'y 12345678 123466781 _ d' RZOL 0000000 � � *0 )] JW31;2 CO O 7 O ■ RIB • rc O UIO RB, Gomm • _ 12345678 12345678 I I Ix0 am 00088008 80008800 — � � }.0 0' cn in R640Rasel °� ■ yY 610 UI2 a OO�Op m nnnnnnnn nnnnn nn �o�d,gba0 REYOIE 12345678 12345678 = 00000000 00008800 — . �0 l a MUTM eowRa W4 •ij we ICA R59R60011 CONNECTOR Set this switch 6 DOWN when connected to the INI-VGC. Figure 3.8.6.1 ASM-16 Programming Address Switch Settings E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 121 E3 Series System Connections Digital Alarm Communicator Transmitter(DACT-E3)Connections 3.9 Digital Alarm Communicator Transmitter (DACT-E3) Connections The DACT-E3 digital communicator transmitter is an optional sub-assembly that features numerous formats for the communication to a central station.It provides the following functions: • Line seizure-takes control of the phone lines,disconnecting any premises phones using the same lines • Off/On-Hook-perform on and off-hook status to phone lines • Listen for dial tone-440 Hz tone typical in most networks • Dialing the Central Station phone number-programmable • Discern proper Central Station"ACK"and"Kiss-off'tone • Transmit data to the Central Station • Verify that data has been accepted by the Central Station • Hang-up and release phone lines • Communicate in a variety of formats • Remote via the RS-485 serial interface 3.9.1 Central Station Reporting UL Listed receivers compatible with the E3 Series®are listed in Table 3.9.1.1. Manufacturer Receiver Model Formats Silent Knight Model 9000. SIA-8 SIA-20 SK4/2 3/1 14 3/1 23 Silent Knight Model 9800/9500 SIA-8 SIA-20 SK4/2 3/1 14 3/1 23 Contact ID Ademco Model 685 3/1 14 3/1 23 Sur-Guard SG-MLR2-DG SIA-8 (Version. 1.64 or higher) SIA-20 SK4/2 3/1 14 3/1 23 Contact ID Osborne Hoffman Quickalert SIA-8 SIA-20 If you are using the Model 9000 and the message, "HELP,"appears on the printer after attempting to download,the 9000 software must be upgraded. The Model 9000 must have the Model 9307 software package, Revision 900501 or later,to print the PROGRAMMING PASS and PROGRAMMING FAIL messages. Table 3.9.1.1 UL Listed Receivers Compatible with the E3 Series 122 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 Digital Alarm Communicator Transmitter(DACT-E3)Connections E3 Series System Connections 3.9.2 Telephone Requirements • DC Ringer Equivalence Number(REN)=0.513 • AC Ringer Equivalence Number= 1.3 • Complies with FCC Part 8 The REN is used to determine the quantity of devices that may be connected to the telephone line. Excessive RENs on the telephone line may result in the devices not ringing in response to an incoming call.In most,but not all areas,the sum of the RENs should not exceed five(5). To be certain of the number of devices that may be connected to the line,as determined by the total RENs,contact the Telephone Company to determine the maximum PEN for the calling area. 3.9.3 Specifications The following list the electrical specifications for the DACT-E3. Operating Voltage: 24 VDC(from PM-9/PM-9G power supply) Operating Current: 0.018 amp Alarm Current: 0.018 amp Operating Temperature: 32°to 120°F(0°to 49°C) Relative Humidity: 0 to 93%,non-condensing at 90°F(32°C) Supervised Power-limited E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 123 E3 Series System Connections Digital Alarm Communicator Transmitter(DA CT-E3)Connections 3.9.4 Digital Alarm Communicator (DACT-E3) Sub-Assembly Figure 3.9.4.1 and Figure 3.9.4.2 illustrate the Digital Alarm Communicator(DACT-E3)sub- assembly. 07944-C38 R49 "I C2 WS R2.4 -MD C71 Oj RI williffiIIIII11w M"C70 e-71 R70 MTPI ?i -F�y R73 I WHICICICIII - STATUS STATUS RIO R11 U7 0- R12 CI R1 Ln Ln Li _j R23 K2 .- Figure 3.9.4.1 DACT-E3 Sub-Assembly C37R44-C38 R4g C32 R36 R34 U9 O COP 0000 5 � • R49 U8 R35 M U2 Uq N,0 TVS2 TVS1 oaaaao �3�� • R47 R48 R42-R46 C76 O� R38 o R79-R78 R74° O C77 COO JOE_ C2 R2 n+�� C35 4 4 R76 D2C5"POEM M C72 R77 R.1511. QC71 ♦ P; 'I� R31��Q QC70 AO Lll IJ R7a J W ♦ Y1 p U3 L, C73nnnmm�nnnn a' ♦ �� R72R71 R30 R32 R50 N ♦ TP1 o i ♦ C1 � � D3 C30 R31 R33 TB1 , ,d LED3O LEDJ LED18 ,4 STANDBVLINO LINE1 O] W STATUS STATUS V W � RV1 Rio U5 R11 U7 • D12"D13 r PTC1 �� R12 0 R1 Q 1 • • • i�]ii]D11 � Q • D10 C10 R40 C36 ♦ • • Rv2 1-1-1-1 ♦ �-I�� K • • RVS Rv3 1 1-1 R21 R2D1 2 1 ♦ 122 93 D23 U6 ♦ • • • [ii[ii K3 • ■ ♦ D21 K R22 ��c T1 • • • �*1�*1 D ♦ 4 CM C20 1 4 • • 1-1-1-1 i i MEN • • ♦ R23 K2 • • TB2 C21 3 4 • Figure 3.9.4.2 DACT-E3 Sub-Assembly 124 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Digital Alarm Communicator Transmitter(DACT-E3)Connections E3 Series System Connections 3.9.5 DACT-E3 Event Reporting Codes The DACT-E3 can be configured to allow each SLC device to report a unique 3-digit code by selecting the Extended DACT Reporting Feature. To enable this feature,each ILI-MB-E3 and ILI- S-E3 must have V1.3 of the ILI Firmware installed.This feature is also available for the ILI95-MB- E3 and IL195-S-E3. The Extended DACT Reporting Feature is disabled by default.The user must specifically enable this feature through configuration programming using CAMWorksTM.If this feature is disabled,use the standard codes(enclosed in the brackets in Table 3.9.5.1).If this feature is enabled,the optional fields, (enclosed in the parentheses in Table 3.9.5.1)will be substituted for the standard codes.For additional information regarding this feature, see Notes 4 and Note 5 in Table 3.9.5.1. NOTE:To use the Extended DACT Reporting Feature, all ILI-MB-E3 and ILI-S-E3 nodes on the network must have V1.3 Firmware installed. SIA 4/2 Event (See Note 2) Contact ID (See Note 3) 3/1 Fire Alarm (Smoke or Manual Station) FA[GGT] (UUU) 1 110 [00] (NN)[GGT] (UUU) 0 [T](U) 0 Fire Alarm Restored FH [GGT] (UUU) 3 110[00](NN)[GGT](UUU) 2[T] (U) 2 Waterflow Alarm SA[GGT] (UUU) 1 113[00](NN)[GGT](UUU) 0[T] (U) 0 Waterflow Alarm Restored SH [GGT] (UUU) 3 113[00](NN)[GGT](UUU) 2 [T] (U) 2 Trouble(except Waterflow or Special AMM/PID) FT[GGT] (UUU) 1 373[00](NN)[GGO](UUU) 8[T] (U) 8 Trouble Restored FJ [GGT] (UUU) 3 373[00](NN)[GG0](UUU) 7[T] (U) 7 Trouble(Waterflow AMM/PID) ST[GGT] (UUU) 1 370[00](NN)[GGO](UUU) 8[T] (U) 8 Trouble Restored (Waterflow AMM/PID) SJ [GGT] (UUU) 3 203[00](NN)[GGO](UUU) 7[T] (U) 7 Trouble(Special AMM/PID) UT[GGT] (UUU) 1 370[00](NN)[GG0](UUU) 8[T] (U) 8 Trouble Restored (Special AMM/PID) UJ [GGT] (UUU) 3 370[00](NN)[GG0](UUU) 7[T] (U) 7 Supervisory/Tamper(Module) SS [GGT](UUU) 1 203[00](NN)[GGT](UUU) 6[T] (U) 6 Supervisory Restored (Module) SR[GGT] (UUU) 3 203[00](NN)[GGT](UUU) 7[T] (U) 7 PAS/Action/Supervisory(Sensor) FS[GGT] (UUU) 1200[00](NN)[GGT](UUU) 6[T] (U) 6 PAS/Action/Supervisory Restored (Sensor) FR[GGT] (UUU) 3 110[00](NN)[GGT](UUU) 7[T] (U) 7 Disable(except Waterflow or Special AMM/PID) FB [GGT] (UUU) 1 571 [00](NN)[GGO](UUU) 8[T] (U) 8 Disable Restored FU [GGT] (UUU) 3 571 [00](NN)[GG0](UUU) 7[T] (U) 7 Disable (Waterflow AMM/PID) SB [GGT] (UUU) 1 570[00](NN)[GGO](UUU) 8[T] (U) 8 Disable Restored (Waterflow AMM/PID) SU [GGT] (UUU) 3 570[00](NN)[GGO](UUU) 7[T] (U) 7 Disable (Special AMM/PID) UB [GGT] (UUU) 1 570[00](NN)[GG0](UUU) 8[T] (U) 8 Disable Restored (Special AMM/PID) UU[GGT](UUU) 3 570[00](NN)[GGO](UUU) 7[T] (U) 7 AC Fail AT 0 1 301 [00] (NN) [000] (UUU) 8[T] (U) 8 AC Fail Restored AR 0 3 301 [00] (NN) [000] (UUU) 7[T] (U) 7 Phone Line 1 Fault LT 1 1 351 [00] (NN) [000] (UUU) 81 8 Phone Line 1 Fault Restored LR 1 3 351 [00] (NN)[000] (UUU) 71 7 Phone Line 2 Fault LT 2 1 352[00] (NN) [000] (UUU) 82 8 Table 3.9.5.1 DACT-E3 Event Reporting Codes E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 125 E3 Series System Connections Digital Alarm Communicator Transmitter(DA CT-E3)Connections SIA 4/2 Event (See Note 2 Contact ID (See Note 3) 311 Phone Line 2 Fault Restored LR 2 3 352 [00] (NN)[000] (UUU) 72 7 Automatic Test(NORMAL) RP 0 1 602 [00] (NN)[000] (UUU) 90 9 Automatic Test(With Exception) RP 991 1 602 [00] (NN)[991] (UUU) 91 9 For Contact ID and SIA Formats: GG =group number assigned to the device, 00-99 (For networked systems, GG = Node number) NN =00(standalone systems)or node number(networked systems only) UUU = User-configured ID code(events originating from SLC devices, if configured)or event type code(non SLC device events). For more details, see, "3.9.5.1 Reporting Codes for Non-SLC-Device Events". T =Type of device or event causing the event to be reported. 0 = Non-loop event 1 =Any event or device type not listed below 2 = Manual Station 3 =Supervisory Device (Non-latching) 4 =Supervisory Device (Latching) 5 =Waterflow(Non-silenceable) 6 =Smoke Alarm 8 = Multi-level Device NOTE 1: Special AMM/PIDs include the following functions: Reset Switch, Silence Switch, Drill Switch, Alarm Acknowledge Switch, Trouble Acknowledge Switch. NOTE 2: In SIA format, two separate reports are made to transmit the extended codes(if configured). See Notes 4 and Note 5. NOTE 3: In 4/1 format,the"one's"digit of the user-assigned code will be reported (if configured). See Notes 4 and Note 5. NOTE 4: The standard code format(in brackets)will always be used to report events originating from 7100, INI-VGC, INI-VGX, INI-VGE or NGA nodes. NOTE 5: The DACT-E3 will report 000 as the"UUU"digits if an event occurs on an SLC device that does not have a user-configured code assigned to it and the system is configured to report custom DACT codes.The node number will also be reported. Table 3.9.5.1 DACT-E3 Event Reporting Codes 126 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Digital Alarm Communicator Transmitter(DACT-E3)Connections E3 Series System Connections 3.9.5.1 Reporting Codes for Non-SLC-Device Events For events that do not originate on SLC devices,the DACT-E3 reports extended codes in the range 900-999.These codes are not user-configurable.Figure 3.9.5.1.1 lists the extended codes. Code Event Comment 000 Phone Line Test Automatic DACT test OK. 001 -899 SLC Device Codes User-defined in device configuration 900 Reserved 901 SLC 1 Loop Break, Short, or Disconnect 902 SLC 2 Loop Break,Short,or Disconnect 903 NAC 1 Fault, Short,or Disconnect 904 NAC 2 Fault, Short,or Disconnect 905 Municipal Circuit Master Box Trouble 906 Aux Power Fault Resettable or Non-Resettable B+ Fault 907 Municipal Circuit Supervision 908 Positive Ground Fault 909 Negative Ground Fault 910 RS-232 Supervision Fault 911 Annunciator Fault 912 PM-9/PM-9G Supervision Fault 913 Battery Low 914 Battery Fault 915 AC Fault 916 DC Fault 917 Reserved 918 Battery Charger Fault 919-924 Reserved 925 DACT Account 1 Fault 926 DACT Missing 927 DACT Report Timeout 928 DACT Account 2 Fault 929 DACT Line 1 Fault 930 DACT Line 2 Fault 931 INI Communication Fault 932 INI Node Number Fault Issued if node address DIP switches do not match the node number in the node's configuration. 933 Net Port 1 934 Net Port 2 935-950 Reserved 951 -981 Cross Zone 1 -31 Cross Zone 31 (981)is used to report Group Cross Zone Events. 982 Node Missing Faults Node not reported 983 Node Extra Faults Node not reported, reports only when Extra Node enabled 984 LCD Display Faults Address not reported 985 ASM/ANU Faults Address not reported 986 External Faults e.g. INI-VG troubles that have no ILI equivalent 987-999 Reserved 991 Test with Exception Automatic DACT test OK, but Trouble condition present in the system. 992-999 Reserved Table 3.9.5.1.1 Non-SLC Device Events Reporting Codes E3 Series Installation/Operation Manual—P/N 9000-0574T 09/03/09 127 E3 Series System Connections Digital Alarm Communicator Transmitter(DA CT-E3)Connections 3.9.6 DACT-E3 Wiring Connections Table 3.9.6.1 lists the DACT-E3 wiring connections. Designation Description Comments T131-1 COM A IN COM A from ILI-MB-E3/IL195-MB-E3 TB1-2 COM B IN COM B from ILI-MB-E3/IL195-MB-E3 T131-3 COM A OUT COM A OUT to other devices T1314 COM B OUT COM B OUT to other devices T131-5 +24 V IN +24 VDC from PM-9/PM-9G TB4-1,TB4-3 or TB4-5 T61-6 GND GND from PM-9/PM-9G T134-2,T134-4 or T134-6 T132-1 T1 Tip Line 1 Tip IN from street Non power-limited T132-2 T1 Ring Line 1 Ring IN from street Non power-limited TB2-3 P1 Tip Line 1 Tip OUT to phone Non power-limited T132-4 P1 Ring Line 1 Ring OUT to phone Non power-limited TB2-5 T2 Tip Line 2 Tip IN from street Non power-limited T132-6 T2 Ring Line 2 Ring IN from street Non power-limited T132-7 P2 Tip Line 2 Tip OUT to phone Non power-limited T132-8 P2 Ring Line 2 Ring OUT to phone Non power-limited Table 3.9.6.1 DACT-E3 Wiring Connections 128 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Digital Alarm Communicator Transmitter(DACT-E3)Connections E3 Series System Connections 3.9.6 DACT-E3 Wiring Connections (Continued) Figure 3.9.6.1 illustrates the field wiring connections for the DACT-E3. LED1 LINE 1 STATUS: OFF = LINE 1 INACTIVE ON = LINE 1 TRANSMITTING DATA FLASHING = LINE 1 FAULT LED2 LINE 2 STATUS: OFF = LINE 2 INACTIVE ON = LINE 2 TRANSMITTING DATA FLASHING = LINE 2 FAULT LED3 STANDBY: OFF = NORMAL STANDBY MODE ON = TRANSMITTING OR IN TROUBLE i FROM ILI-MB-E3 OR ILI95-MB-E3 TB3 PIN1 RS485 COM A IN FROM ILI-MB-E3 OR ILI95-MB-E3 TB3 PIN2 N RS485 COM B IN RS485 COM A OUT TO NEXT DEVICE w RS485 COM A OUT RS485 COM B OUT TO NEXT DEVICE P RS485 COM B OUT FROM ILI-MB-E3 OR ILI95-MB-E3 TB3 PING 24 VDC (+) FROM ILI-MB-E3 OR ILI95-MB-E3 TB3 PIN7 a' SYS NET(-) TB1 O LED3 LED2 a LED1 STANDBY LINE2 LINE1 STATUS STATUS TELCO LINE 1 TIP IN FROM STREET TELCO LINE 1 RING IN FROM STREET T1 LINE 1 TIP OUT TO PREMISES PHONE(S) w LINE 1 RING OUT TO PREMISES PHONE(S) TELCO LINE 2 TIP IN FROM STREET cn K1 TELCO LINE 2 RING IN FROM STREET— LINE 2 TIP OUT TO PREMISES PHONE(S) ~ LINE 2 RING OUT TO PREMISES PHONE(S) O° TB2 IMPORTANT DACT-E3 MUST BE THE FIRST DEVICE TO THE TELCO LINES Figure 3.9.6.1 DACT-E3 Wiring Diagram E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 129 E3 Series System Connections Repeater(RPT-E3)Connections 3.10 Repeater (RPT-E3) Connections The Repeater,RPT-E3 is an optional sub-assembly that provides the interface between the ILI-MB- E3 or I1,195-MB-E3 and the Broadband Network.It can also be used with the NGA.The RPT-E3 is available in two versions: • RPT-E3-FO • RPT-E3-UTP 3.10.1 RPT-E3-FO The RPT-E3-F0 communicates to the network by means of fiber-optic cable or copper,unshielded, Misted-pair wire. 3.10.2 RPT-E3-UTP The RPT-E3-UTP connects to the network by means of unshielded,twisted-pair copper wire.It is similar to the RPT-E3-F0 with the exception that connectors U4,U5,U6 and U7 are omitted. 3.10.3 Specifications The following list the electrical specifications for the RPT-E3. Operating Voltage: 24 VDC FWR(from PM-9/PM-9G power supply) Operating Current: 0.013 amp Operating Temperature: 32°to 120°F(0°to 49°C) Relative Humidity: 0 to 93%,non-condensing at 90°F(32°C) Supervised Power-Limited 130 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 Repeater(RPT-E3) Connections E3 Series System Connections 3.10.4 Repeater RPT-E3 Sub-Assembly Figure 3.10.4.1 and Figure 3.10.4.2 illustrate the Repeater(RPT-E3)sub-assembly. DI 922 M12 J3 T02 i24 �24 R34 Rig LI f- 4019 '021 TBI C14 Cl r *R43 Ulu C10 D24 Q C5 T2 RI I 02 V fou RU R9 f Oil U2 01 law D3 nnx �O F NEW i ASSY RPT-13-UTP ASSY 40 1120-090R32 w77 1 RH ILL �6 r Figure 3.10.4.1 Repeater RPT-E3 Sub-Assembly J10 T62 • J3 O � 15 •��•��• 1 � � 16 •••••••• 2 K3 D7 R22 R42 CM ARCNET D25 43R28 ® C250 4MOD16 R24�a�y'-�pOC24 R25 U9 ■ U12 C27 15 V O C26 Q COO D 55 ,a,Q O R21 R41 R20 O Q ti 1 R30 R29 L1 K3 D19 017'(83 . ■TP2 R38 TP1 020 T84 . n 0 Vy4 C13 ■ C11 ,■may■, R43 QCO40� In C10 �D21 D va 0• U1 O U11 C5 T2 D2 U8 1 ■RI C79O C23 ,y�,,�U3 Q R6�Q �-■ R1943 O ]� E 2 02��RI0 c0�■ R16 �]�L�FE R4 R8 C4 Ti C21 • OC3 Q �� " 0 1DQC20a a OC22 R3 R5o g: �� 01 ■ D11 R7 D1 10 U8 U2 R234 ®J2 R9 D3 C7 •• R GFI R16 X1 Q� •• ,o CB PRODUCT R33�, ®J, R1 T% UL R350 ®JB,aU, 143 R3 LABEL R37p Emig 57 PNR R18 CD O6U jj ASSY RPT-E3-UTP 1120-0902 REV_ 15 CC ASSY RPT-E340 1120-0903 REV R32 4[b EmJ4 R1 R34 C11 EmJ5,,aaU,, •• R360 EmJ6 N 00 PRODUCT R17p 03 DATE • 1 CODE I • Figure 3.10.4.2 Repeater RPT-E3 Sub-Assembly E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 131 E3 Series System Connections Repeater(RPT-E3) Connections 3.10.5 Repeater-E3 Wiring Connections Table 3.10.5.1 lists the field wiring connections for the RPT-E3. Designation Description Comments TB1-1 ARCNET PORT 1A Broadband Network(See Note 1) TB1-2 ARCNET PORT 1B Broadband Network(See Note 1) TB1-3 ARCNET PORT 2A Broadband Network(See Note 1) TB1-4 ARCNET PORT 2B Broadband Network(See Note 1) TB2 Earth Ground Local Differential ARCNET(See Note 2) TB3-1 COM A IN Local Differential ARCNET(See Note 3) TB3-2 COM B IN Local Differential ARCNET(See Note 3) TB3-3 COM A OUT Local Differential ARCNET. Connect to NGA TB1-3. (See Note 3) TB3-4 COM B OUT Local Differential ARCNET. Connect to NGA TB1-4. (See Note 3) TB4-1 +24V IN Do not use, if J10 is used. (+24 VDC IN from TB3-6 ILI-MB-E3/ILI95-MB-E3) TB4-2 Common—IN Do not use, if J10 is used. (-GND IN from TB3-7 ILI-MB-E3/ILI95-MB-E3) TB4-3 +24 V OUT Do not use, if J10 is used. T134-4 Common—OUT Do not use, if J10 is used. J10 ARCNET Connector to ILI-MB-E3 or ILI95-MB-E3 or ILI-S-E3 or ILI95-S-E3, J4 (See Note 4) U5 Fiber Port 2 IN (See Note 5) U7 Fiber Port 2 OUT (See Note 5) U4 Fiber Port 1 IN (See Note 5) U6 Fiber Port 1 OUT (See Note 5) J1 ARCNET Term Short when using the Local Differential ARCNET wiring to Terminal TB3.This is the last device on the local net. Note: If the first and last devices are closed,then the device between the two must be OPEN. If the ILI-E3 or ILI95-E3 Series is the first device and the NGA is the last device,then the RPT-E3 or J1 would be OPEN. J2 GFI Short to enable Ground Fault Detection on the ARCNET Network when using copper wiring. J3 GND FLT Short to enable Ground Fault Detection when remotely connected to a Listed power source that does not provide earth detection. OPEN when connected to DC power supplied from an ILI-MB-E3 or IL195- MB-E3, PM-9/PM-9G or INI-7100. J4 Transmitter Light Comm port 1 fiber-optic transmitter drive current Output Control Jumper contributes to drive current when closed. Contributes 12.5%of maximum drive J4, J5&J6 OPEN-minimum drive, 12.5%of maximum. J4, J5&J6 CLOSED-maximum drive, 100% To match drive used on INI boards: SHORT J4, J5 and J6. J5 Transmitter Light Comm port 1 fiber-optic transmitter drive current Output Control Jumper contributes to drive current when CLOSED. Contributes 25%of maximum drive J4, J5&J6 OPEN-minimum drive, 12.5%of maximum. J4, J5&J6 CLOSED-maximum drive, 100% To match drive used on INI boards: SHORT J4, J5 and J6. Table 3.10.5.1 Repeater-E3 Wiring Connections 132 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Repeater(RPT-E3) Connections E3 Series System Connections Designation Description Comments J6 Transmitter Light Comm port 1 fiber-optic transmitter drive current Output Control Jumper contributes to drive current when CLOSED. Contributes 50%of maximum drive J4, J5&J6 OPEN-minimum drive, 12.5%of maximum. J4, J5&J6 CLOSED-maximum drive, 100% To match drive used on INI boards: SHORT J4, J5 and J6. J7 Transmitter Light Comm port 2 fiber-optic transmitter drive current Output Control Jumper contributes to drive current when CLOSED. Contributes 12.5%of maximum drive. J7, J8&J9 OPEN-minimum drive, 12.5%of maximum. J7, J8&J9 CLOSED-maximum drive, 100% To match drive used on INI boards: SHORT J7, J8 and J9. J8 Transmitter Light Comm port 2 fiber-optic transmitter drive current Output Control Jumper contributes to drive current when CLOSED. Contributes 25%of maximum drive. J7, J8&J9 OPEN-minimum drive, 12.5%of maximum. J7, J8&J9 CLOSED-maximum drive, 100% To match drive used on INI boards: SHORT J7, J8 and J9. J9 Transmitter Light Comm port 2 fiber-optic transmitter drive current Output Control Jumper contributes to drive current when CLOSED. Contributes 50%of maximum drive. J7, J8&J9 OPEN-minimum drive, 12.5%of maximum. J7, J8&J9 CLOSED-maximum drive, 100% To match drive used on INI boards: SHORT J7, J8 and J9. NOTE 1: TB1 -RPT-E3 UTP Network Connections using unshielded,twisted-pair 18 AWG min. 3,000' (914.4 m)maximum between the following nodes: — RPT-E3 TB1-1 (COM1A)to: INI-7100 TB1-3 INI-VG TB1-3 or another RPT-E3 TB1-3 —RPT-E3 TB1-2 (COM113)to: INI-7100 T131-4 INI-VG TB1-4 or another RPT-E3 TB1-4 —RPT-E3 TB1-3(COM2A)to: INI-7100 TB1-1 INI-VG TB1-1 or another RPT-E3 TB1-1 —RPT-E3 TB1-4(COM213)to: INI-7100 TB1-2 INI-VG TB1-2 or another RPT-E3 TB1-2 NOTE 2: TB2 must be used when the RPT-E3 is used remotely from a main system cabinet such as in a remote network display. Connect to a local cold water earth or via an additional conductor connected to T63-7 of the ILI-MB- E3 or ILI95-MB-E3 or Terminal TB4-4 of an INI-7100. NOTE 3: Use TB3(differential ARCNET)to connect an NGA to the RPT-E3 NOTE 4: When J10 is used to connect the RPT-E3 to the ILI-E3 or ILI95-E3 Series, do not use TB4. NOTE 5: U4, U5, U6 and U7 are omitted on the RPT-E3-UTP. U5, U7, U4&U6-RPT-E3 FO Network Connections using standard ST connector fiber-optic cable,multi-mode,up to 200 u (optimized for 62.5/125 u). Signal loss up to 8 dB maximum between the following nodes: —RPT-E3 U6(TX1)to: INI-7100 J7 (RX2) INI-VG J8 (RX2)or another RPT-E3 U5(RX2) —RPT-E3 U4(RX1)to: INI-7100 J6(TX2) INI-VG J6 (TX2)or another RPT-E3 U7 (TX2) —RPT-E3 U7(TX2)to: INI-7100 J4 (RX1) INI-VG J5(RX1)or another RPT-E3 U4 (RX1) —RPT-E3 U5(RX2)to: INI-7100 J1 (TX1) INI-VG J2 (TX1)or another RPT-E3 U6 (TX1) Network Connections using fiber-optic cable(available on RPT-E3 FO only).The RPT-E3 FO can support both unshielded,twisted pair and fiber-optic network connections. Table 3.10.5.1 Repeater-E3 Wiring Connections (Continued) E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 133 E3 Series System Connections Repeater(RPT-E3) Connections 3.10.5 Repeater-E3 Wiring Connections (Continued) Table 3.10.5.2 lists the Transmitter Output Power Jumper Settings for the RPT-E3. Port 1 Port 2 Transmit Power J4 J5 J6 J7 J8 A OPEN OPEN OPEN OPEN OPEN OPEN 12.5% SHORT OPEN OPEN SHORT OPEN OPEN 25.0% OPEN SHORT OPEN OPEN SHORT OPEN 37.5% SHORT SHORT OPEN SHORT SHORT OPEN 50.0% OPEN OPEN SHORT OPEN OPEN SHORT 67.5% SHORT OPEN SHORT SHORT OPEN SHORT 75.0% OPEN SHORT SHORT OPEN SHORT SHORT 87.5% SHORT SHORT SHORT SHORT SHORT SHORT 100.0% Table 3.10.5.2 Transmitter Output Power Jumper Settings 134 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Repeater(RPT-E3) Connections E3 Series System Connections 3.10.6 RPT-E3 Wiring Diagram Figure 3.10.6.1 illustrates the field wiring connections for the RPT-E3. CONNECT TO EARTH GROUND AND ENABLE J10 CONNECT TO GROUND DETECTION WHEN REMOTELY LOCAL ILI-MB-E3 OR IL195-MB-E3 MOUNTED J4 ARCNET CONNECTOR (NOTE: NOT APPLICABLE WHEN USING (NOTE PIN 1 POSITION) FIBER-OPTIC CONNECTIONS) ARCNET LOCAL DIFFERENTIAL fi F16 2J10® W® TB2 d COM B OUT TO NGA TB1-4 ARCNET LEAVE OPEN i– z ch COM A OUT TO NGA TB1-3 TB3 W N COM B IN z —TB4 HARD-WIRED POWER Q COM A IN CONNECTIONS NOT 1 REQUIRED WHEN J10 USED G24VDCOUTT TOO NGA B1-2 TTB4 Cl) GND(-)IN FROM T133-7 ILI-MB-E31 N ILI95-MB-E3 1 +24VDC IN FROM T133-6 ILI-MB-E31 ILI95-MB-E3 d ARCNET PORT 2B D112 12 SHORT TO T131 ARCNET PORT 2A RX2 ENABLE N ARCNET PORT 1B D11 GROUND FAULT 1 ARCNET PORT 1A R X1 DETECTION ®J2 U5 FROM PREVIOUS NODE D110 GFI (RX2) TX1 CONNECTOR TX ®J7 D18 ®J8 U7 FROM PREVIOUS NODE C2 ®J9 (TX2) RX1 CONNECTOR PWR See Table 3.1: RPT-E3 Wiring Connections and Table 3.2: U4 TO NEXT NODE Transmitter Output Settings (RX1) TX2 CONNECTOR ®J4 ®J5 U6 TO NEXT NODE ®J6 (TX1) RX2 CONNECTOR LEDS D12 ON = RECEIVING NETWORK TRANSMISSIONS INTO ARCNET PORT 2 OR U5 OFF OR BLINKING = NOT RECEIVING NETWORK TRANSMISSIONS INTO ARCNET PORT 2 OR U5 D11 ON = RECEIVING NETWORK TRANSMISSIONS INTO ARCNET PORT 1 OR U4 OFF OR BLINKING = NOT RECEIVING NETWORK TRANSMISSIONS INTO ARCNET PORT 1 OR U4 D10 ON =TRANSMITTING TO NETWORK OFF = NOT TRANSMITTING TO NETWORK D18 ON = POWERED OFF = NOT POWERED OPEN SHORTED NOTE: 2-PIN SHUNT PLACED OVER PINS Figure 3.10.6.1 RPT-E3 Wiring Diagram E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 135 E3 Series System Connections ANU-48 Remote LED Driver Connections 3.11 ANU-48 Remote LED Driver Connections The ANU-48 remote LED driver is an optional sub-assembly that provides output to a remote annunciator which may be located up to 3,000 feet from the panel.Up to fifteen(15),additional annunciators can be connected. Table 3.11.1 lists the resistance limitations for the connecting circuit. NOTE: If more than four(4),ANU-48 sub-assemblies are installed, an external regulated and power-limited power supply Listed for use with fire protective signaling units is required. Quantity of the ANU-48 assemblies 1 2 3 4 Maximum resistance of the 24 VDC power 40 20 14 10 circuit(ohms)to the most distant ANU-48. Table 3.11.1 ANU-48 Resistance Limitations 3.11.1 Specifications The following are the ANU-48 electrical specifications. Operating Voltage: 24 VDC FWR(from PM-9/PM-9G power supply) Operating Current: 0.011 amp*(See Note) Operating Temperature: 32°to 120°F(0°to 49°C) Relative Humidity: 0 to 93%,non-condensing at 90°F(32°C) Supervised Power-limited NOTE: WIRING REQUIREMENTS *Add .003 amp for any LED to be lit for any condition when powered internally. When powered externally,each output driver circuit provides a maximum of.050 amp with a maximum of 2.4 amp per ANU-48 sub-assembly(48 circuits). Each load must have a minimum resistance of 544 Ohms when the external power is supplied from a PM-9/PM-9G.When powered internally, each LED must have a current limiting resistor in series to limit the current to .003 amp max per LED. (Example: 8.87K 1%or 9.1 K 5%). 136 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 ANU-48 Remote LED Driver Connections E3 Series System Connections 3.11.2 ANU-48 Sub-Assembly Figure 3.11.2.1 and Figure 3.11.2.2 illustrate the ANU-48 Remote LED Driver sub-assembly. J Figure 3.11.2.1 ANU-48 Sub-Assembly •- LED' U1-0 J7� ••••• 10 G1 • ■ LEOP- 1 ■■■■■ 4 CI4 r LE - ■ LEM- 64 TB6 ! LE65- ■ LED6- LEO11_ ANTI-48 F°L'9 a5�-0 on On3 lld � LED9- N15 17[][-[S21F PC9 REV lftm-EErno- 1128-794 ASSY RCV R3 J2 EEC'LED1 5- hAAPE//�E�IN USA TB7 RI 4- *C1U V8 C9 U4 U5 D U16 1 1111111111 C7 r r LE617-�'E� ■� ■ LED 6r- LE * 61 - 1 • LE07o- TB8 ■ LE071- C16 RN 814 P17 RI5 R19 n - ■ LEU72- U17 {1111111 ++i■+■■+■ r LED25- t 1111111 U13 M VOV S/8Y Vsy/Y m LE.4- RR44 RR11 R1 LE676- ■ LE677- S1Y1 1 R 3 a 5 6 7 B • ! LE�� V1&^ �C11 U9 B0000000 �� U6 • TB9 ■ LE079- r LEN- 1 JMP7 ■ LE631- LEO32- R240®" 1 �� LEO33- r LE O31- ■ LE63fi- U19 UY It111UU3111 � TB70 LEU31- C9 iO @,111,111 ■ LEU3- 1 M1 L'639- ® LE64a C14� U10 JMP4 C90 W LE6}1- u2o JMP5® U1 U7 0 LEM4_ ■ LEU41r TB77 s LEDSa- ! LE6}� _ �/q�Ri3gip 1 m ■ LEDiB-�'C30 U17 �IV V�pj QQ C2 Rfi Rg ~ LEM ■ * {�q p 0000i TB12�` R4 R li/V V R 11000OR12 825 a s a%st s ■ JMP3JMP TB5 810811 Q541 a •°O r � � 11E 1 872�� * •r*rrlrrr* �C17 826 • EPM. EX 82361 � 1 SWITCH CONFIG 72 Figure 3.11.2.2 ANU-48 Sub-Assembly E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 137 E3 Series System Connections ANU-48 Remote LED Driver Connections 3.11.3 ANU-48 Wiring Connections Table 3.11.3.1 lists the field wiring connections for the ANU-48. NOTE: For ASM-16 or ANU-48 wiring details, Section 3.8.3 ASM-16 or ANU-48 Wiring Connections(Table 3.8.3.1 and Figure 3.8.4.1). Designation Description Comments TB1-1 COMM A Single Discrete Wire(To ANU-48 TB1-1 COMM A) TB1-2 COMM B Single Discrete Wire(To ANU-48 TB1-2 COMM B) TB1-3 +24 Single Discrete Wire (To ANU-48 TB1-3+24) T131-4 GND Single Discrete Wire (To ANU-48 T131-4 GND) T135-1 SW1 *SPST-maintained or momentary TB5-2 SW2 *SPST-maintained or momentary T135-3 SW3 *SPST-maintained or momentary TB54 SW4 *SPST-maintained or momentary TB5-5 SW5 *SPST-maintained or momentary T135-6 SW6 *SPST-maintained or momentary T135-7 SW7 *SPST-maintained or momentary TB5-8 SW8 *SPST-maintained or momentary TB5-9 Common for SW1, SW2 TB5-10 Common for SW3, SW4 TB5-11 Common for SW5, SW6 TB5-12 Common for SW7, SW8 TB6-1 to-8 LEDs 1 to 8 Negative outputs to remote LEDs TB7-1 to-8 LEDs 9 to 17 Negative outputs to remote LEDs TB8-1 to-8 LEDs 18 to 26 Negative outputs to remote LEDs TB9-1 to-8 LEDs 27 to 33 Negative outputs to remote LEDs TB10-1 to-8 LEDs 34 to 42 Negative outputs to remote LEDs TB11-1 to-8 LEDs 43 to 48 Negative outputs to remote LEDs TB 12-1 to-8 LED1-48+ Positive common output for remote LEDs TB13-1 EXT PWR+ + From external power supply(max. 24 VDC) TB13-2 EXT PWR- -From external power supply J1 RS-485 input connection to ANU-48 J2 RS-485 connection to next ANU-48 J3 Program Factory use JMP1 Factory use JMP2 IN when using internal power JMP3 IN when using external power JMP4 Factory use JMP5 Factory use *5V @0.5ma. Max NOTE 1: LED outputs are power-limited and unsupervised (the ANU-48 must be located within 20 feet of the annunciator). Cable connections are color coded to the LEDs. NOTE 2:When more than four(4)ANU-48's are required, use an external regulated, power-limited, power supply Listed for use with fire protection signaling units. NOTE 3: Programmable SPST switches maintained or momentary(must be unsupervised and located within 20 feet). Cable connections are color coded to programmable N/O switches. Table 3.11.3.1 ANU-48 Wiring Connections 138 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 ANU-48 Remote LED Driver Connections E3 Series System Connections 3.11.4 ANU-48 Wiring Diagram Figure 3.11.4.1 illustrates the field wiring connections for the ANU-48. ANNUNCIATOR LEDS ARE COMMON POSITIVE(+)CURRENT LIMIT RESISTOR(9.1K OHMS NOT SHOWN) J1 AND J2 ARE RS485 RIBBON CABLE REQUIRED FOR EACH LED TO SET. "IN"AND/OR"OUT"CONNECTIONS 3 mA(0.003 AMPS)EACH WHEN ACTIVE TO NEXT/PREVIOUS MODULE (SEE NOTE 1) (NOTE 2 POSITION PIN 1) LED1- i1 io J1 RS232 PORT LED2- LED3- 9 CONNECTIONS: NOTE 1: LED4- ANU-48 A OR J2, FOR OTHER LED DRIVE (+) LED6- LED5- TB6 qSM-16 J1,J2 OR J3, CURRENTS CALCULATE LED7- REQUIRED CURRENT 00 LED8- LCD-E3 A AND INI-VG J3 LIMIT RESISTOR AND LED10-LED9 J2 RS232 PORTJ2 USE EXT PWR SUPPLY. LED12-LED11- TB7 CONNECTIONS: ° 27.3V/DRIVE CURRENT (+ LED13- F. ANU-48 J1 OR J2, (AMP)=LIMIT RESISTOR LED14-LED15- ASM-16 J1,J2 OR J3, EX.27.3/.008=3413 OHMS °O LED16- LCD-E3 J1 AND USE 3.3K OHM RESISTOR LED18-LED17- LED19- -INI-VG J3 N (+ LED20-LED21- TB8 LED22-LED23- 00 LED24- sw1 U_E LED25- D26- 00000 (+ LED28-LED29- TB9 ^1 z s 4 s s 7 8 LED30- LED31- a LED32- T131 RS485 PORT LED33- JMP1 CONNECTS TO LED34- LED35- ILI-MB-E3,ILI95-MB-E3 TO ILI-E3 (+) LED36-LED37-�B1 D JMP4 OR INI-VG OR LED38 LED39- o o T131 v ILI95-E3 LED40- JMP5 SYSTEM GND(-) TO TB1-4 LED42-LED41- INSTALL w TO TB1-3 LED43- 24 UDC(+) LED44- TB* JMP4& RS485 COM B n> TO T63-2 (+) LED46-LED45- JMP5 RS485 COM A j TO TB3-1 LED47- REMOTE- LED48- TO INI-VG 00 wowa�o�a + TB5 4 TO TB6-4 TB12 JMP3JMP2 SWITCH CONFIG 3 TO TB6-1 COMMON POSITIVE + fO J exr TB13 2 TO TB6-2 ( ) 2 TO TB6-3 TO ANNUNCIATOR LEDs PWR PWR EXTERNAL PWR SUPPLY+24 VDC(+ N a W .0 Z EXTERNAL PWR SUPPLY-24 VDC(- ai ai ai u�i 0 0 2 0 INSTALL JMP2&REMOVE M 202 M N � ° U,10 JMP3 WHEN THE ANU-48 U (n w w N I a0 RECEIVES PWR FROM INSTALL JMP3 AND N ca THE LOCAL J1 OR J2 CABLE REMOVE JMP2 WHEN THE 3 UO)LO OR HARDWIRE PWR INPUTS ANU-48 IS CONNECTED TO `� TB1 TERMINAL 3(+)AND 4(-) THE EXT.POWER ON TB13 Figure 3.11.4.1 ANU-48 Wiring Diagram E3 Series Installation/operation Manual P/N 9000-0574:F 09/03/09 139 E3 Series System Connections ANU-48 Remote LED Driver Connections 3.11.5 ANU-48 Programming Address Switch Settings The address of the ANU-48 in the system is set via the DIP Switch.Figure 3.11.5.1 illustrates the ANU-48 address DIP switches and the ANU-48 programming address switch settings.For addressing instructions, see the ANU-48 Installation Instructions, PIN 9000-0564. NOTE: Set the first address in the program to switch 32. Set this switch 6 UP when connected �to the ILI-MB-E3 or ILI95-MB-E3. a- LEDI- U14 J7� aaaaa 10 Dl a a LEI- { ■aaaa Q C14 a LED3- _ 12345$78 12345$78 r a LDS- P-q U11 + _ TB6 a LEOS- 00000000 188800000 LEM- ANTI-48 PC9 �$��1 m LEM- U15 17Ua0212 M REV anT 12345$78 12345$78 • LEmo- 1ADEIN A RCV_ a2 D3 J2 +-� * LEDI1- MADE IN USA L1 L - 00000000 00000000 — TB7 LEma OC10 ua D5 as LEDII- as m LEO1, U15 C70 as _ 12345$78 12345$78 _ -ILLED24-LE617- L00000000 000000 04-TB8 LEM- LED21- R21 R19 R17 AISR19 nnnnnnnn LED22- U17 ED23- o13 12345$78 _ Id m LED2i @C11 SN1 00000000 r J + LED29 U18 U4 U6 r TB9 a LE.. 12345$78 12345$78 _ EEOi� JMP9 N tit 0000000 00��0000 1 LEDa� R241 0" 1 � r LED3s- U19 07 E6,- TB70 L y■�. 1C�1 1234567 _ LED39- C4 11111 { T� �+ �0�00000 0000000 EEa U2or C120 U10JMP4® C9� LE131- JMP59E U1 U7 0 r a LED42- � LEO7� ct _ 12345$78 12345$78 TB77 LEDia- Q0000000 Q��0000 # LFG37- # CID M GM " LEP4B- 12345$78 12345$78 ,{ TB� � u1z R R7MellowR25 000 0000 = I o * JMP3JMP M TB5 P10 R11 D5 w a ago • I'Mmm R2�I1 M aaaaaa•a•a 0 R7s EXT XT 6+ WR- R23� B 1 SWITCH CGNFIG 12 Set this switch 6 DOWN when connected to the INI-VGC. Figure 3.11.5.1 ANU-48 DIP Switches 140 E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 LCD-E3 Panel Display Connections E3 Series System Connections 3.12 LCD-E3 Panel Display Connections The LCD-E3 provides an 80-character display of system events including indicating LEDs and control switches.It may be remotely located via a local RS-485 serial interface.The ILI-MB-E3 or ILI95-MB-E3 will support up to six(6),LCD-E3 displays. See Table 3.12.3.1 for the field wiring connections. 3.12.1 Specifications The following list the electrical specifications for the LCD-E3. Operating Voltage: 24 VDC FWR(from PM-9/PM-9G power supply) Operating Current: 0.024 amp Alarm Current: 0.028 amp Operating Temperature: 32°to 120°F(0°to 49°C) Relative Humidity: 0 to 93%,non-condensing at 90°F(32°Q Supervised Power-limited E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 141 E3 Series System Connections LCD-E3 Panel Display Connections 3.12.2 LCD-E3 Sub-Assembly Figure 3.12.2.1 and Figure 3.12.2.2 illustrate the LCD-E3 sub-assembly. ACPOWER POWER GROUND ALARM SYSTEM SUPERVISORY SYSTEM ON FAULT FAULT TROUBLE SILENCED -QZ ABC DEF ACKNOWLEDGE AtARM TROUBLE SIGNAL SYSTEM RESET� ACKNOWLEDGE MENU BACKSPACE) OKI EOrT Aw Figure 3.12.2.1 LCD-E3 Sub-Assembly R2O DISPLAY BACKLIGHT J3 1615 Rib Q1 R15 R19 C • 2 1 ■TP1 J4 1 2 C2 ) U •• C5 I! R36 O R26 �� •• U3 • R27 U4 C8 �1 Q D1 "C3� g •• ip ��n pR291 � 1 2 D2 1 L7 R7 R5� Vy�C4C91" "R3� •• SRS='C �R32 •• R2p i 1 RM34 — — p R33 •• TB1 1 ..T131" TVS6 OR4 x111111111147 J2g 910 ■ +24V R18 C6 17 R14p1 •• ■ GND ■Q+ ■ • 1COR17 R13Q •• ■ R5485A TVS42 Q2 i Y1 R11 ••o R11� ••��R25 ■ RS485B H1 PRODUCT RDQ ••,,, I\ lJ li ••YI Ij:p R24 ■ RS485A�TVS2 p Rg •• o R23 ■ RS485BID TVS5 n UC R6 Q •• R22 ■ GAMEWELL-FCI LABEL ■ rvc IS1 ••• LCD-E3 PCB •• •• PRODUCT • 1120-0898 REV_ R COTE CODE . W1 W2 SW ADDRESS Figure 3.12.2.2 LCD-E3 Sub-Assembly 142 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 LCD-E3 Panel Display Connections E3 Series System Connections 3.12.3 LCD-E3 Wiring Connections Table 3.12.3.1 lists the field wiring connections for the LCD-E3. Designation Description Comments TB1-1 +24 +24V in from ILI-MB-E3 or ILI95-MB-E3 TB3-6 non-resettable B+ TB1-2 GND ILI-MB-E3 or ILI95-MB-E3 TB3-7 TB1-3 RS-485A RS-485A output from ILI-MB-E3 or ILI95-MB-E3 T131-4 RS-485B RS-485B output from ILI-MB-E3 or ILI95-MB-E3 TB1-5 RS-485A RS-485A input from ILI-MB-E3 or ILI95-MB-E3 TB1-6 RS-485B RS-485B input from ILI-MB-E3 or ILI95-MB-E3 TB1-7 GND Connect to earth ground TB1-8 Not used J1 Local RS-485 Alternate RS-485 connection J2 Keypad To keypad J3 Display To display J4 Factory use W1 RS-485 Termination W1 should be closed if it is the first or last device on the RS-485 bus. Otherwise,W1 should be open. W2 Keypad Keypad IN = Disabling OUT= Enabling Table 3.12.3.1 LCD-E3 Wiring Connections E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 143 E3 Series System Connections LCD-E3 Panel Display Connections 3.12.4 LCD-E3 Wiring Diagram Figure 3.12.4.1 illustrates the field wiring connections for the LCD-E3. w -' z0 O Q O w w 0 � N UF— ? 0 O O O z O p Q a. r r 7 Z Z 00 to m 0 W a qZ � � WUxZ Cn cnOzCO 000 WO oW Uj eC- U) oo ? � W � O O F H z M Q Lu W a RS485 J 1 D o cno � cn maw Q z E5 N•••••°D H a� W O O •••••a� KEYPAD J LL —t- U O N 0000000000 (n O 9' Z �- n N 0000000000 N W W J 7' � � W 0 W Q J Z N J Y (Nn = � W LU C(`' La (n �H� mom 00 w � Ixz � z O Of 0 LL In� a ) 1 O Cn Q 4 � N©S rN 00000 0 IV �� 00000 dSl °' • N • N • �j • r Q m a m M•- 00000000 r > 0 CO 00 00 00 00000000 N N Z DISPLAY + 0 W W e: Of Z r m 1 2 3 4 5 6 7 8 8 LO u- W 0) O ° O of co O O O N r N M m M M ' M PM C) M M (") M ' �i ' WO W CO T m W m W m W m m m CO m o m M m ~m M m M m M F H F F- (.) � � � W I- � C, W W W I- MO I- MQ X O J m W C", J m J m J m W W I; W w Z Z Z Z JO rn O U UO 'n O L O L6 O D U O D U OWE HJJW W -j -j I— JJ P O LL J LL J LL J LL J Figure 3.12.4.1 LCD-E3 Wiring Diagram 144 E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 LCD-7100 Remote Display Connections E3 Series System Connections 3.13 LCD-7100 Remote Display Connections The E3 Series®System can accommodate up to five(5),Remote Display sub-assemblies via the RS-485 serial interface.The LCD-7100 Serial Remote Annunciator provides an 80-character display and function keys for the following: • "Alarm Acknowledge" "System Reset/Lamp Test" • "Trouble Acknowledge" "System Drill Test" • "Signal Silence" The 80-character display shows all pertinent information except for menus.Keypad functions are enabled only when the keylock is turned to the"Unlocked"position,with the exception of the "Trouble Acknowledge"switch that silences the local audible trouble sounder. Operating LEDs provided are: • "Alarm" "Power Fault" • "Supervisory" "System Silenced" • "SystemTrouble" "NAC#1 Silenced"and"NAC#2 Silenced" 3.13.1 Mounting The LCD-7100 is flush or surface mounted on a standard four-gang electrical box. 3.13.2 Specifications The following are the LCD-7100 specifications: Operating Voltage: 24 VDC FWR(from PM-9/PM-9G power supply) Operating Current: 0.012 amp Alarm Current: 0.023 amp Operating Temperature: 32°to 120°F(0°to 49°C) Relative Humidity: 0 to 93%,non-condensing at 90°F(32°C) Supervised Power-limited 3.13.3 LCD-7100 Remote Display Sub-Assembly Figure 3.13.3.1 illustrates the LCD-7100 remote display sub-assembly. '9.Y TfAWX Wtg�e; LAW n Figure 3.13.3.1 LCD-7100 Remote Display Sub-Assembly E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 145 E3 Series System Connections LCD-7100 Remote Display Connections 3.13.4 LCD-7100 Wiring Connections Table 3.13.4.1 lists the field wiring connections for the LCD-7100. Designation Description Comments TB1-1 COM-A Connect to BSM TB5-2 or ILI-MB-E3 or IL195-MB-E3 TB3-1 (18 AWG min.twisted-pair) TB1-2 COM B Connect to BSM TB5-1 or ILI-MB-E3 or IL195-MB-E3 TB3-2 (18 AWG min.twisted-pair) TB1-3 Earth GND Connect to earth ground TB1-4 Not used TB1-5 +24 VDC Connect to BSM TB4-2 or ILI-MB-E3 or IL195-MB-E3 TB3-6 (16 AWG min.twisted-pair) TB1-6 24V Common Connect to BSM TB4-3 or ILI-MB-E3 or IL195-MB-E3 TB3-7 (16 AWG min.twisted-pair) Table 3.13.4.1 Remote LCD Display Wiring Connections 146 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Standby Battery Calculations E3 Series System Connections 3.14 Standby Battery Calculations To determine the standby battery calculations,refer to Table 3.14.1. Total Total Supv. Alarm Supv. Alarm Qty Module Description Current Current Current Current ILI-MB-E3 Intelligent Loop Interface, Main Board 0.081 A 0.150 A ILI95-MB-E3 Intelligent Loop Interface, Main Board-95 0.050 A 0.091 A ILI-S-E3 Intelligent Loop Interface, Expansion 0.081 A 0.150 A Board, 95 two additional SLCs ILI95-S-E3 Intelligent Loop Interface, Expansion 0.050 A 0.091 A Board,two additional SLCs LCD-E3 LCD display/Switch Control 0.024 A 0.028 A RPT-E3 ARCNet Repeater 0.013 A 0.013 A DACT-E3 Digital Communicator 0.018 A 0.018 A ASM-16 Auxiliary Switch Sub-Assembly 0.011 At 0.011 At (See Note 5)(See Note 5) ANU-48 Remote LED Driver 0.011 A$ 0.011 A$ (See Note 6) See Note 6) PM-9 Power Supply 0.050 A 0.050 A PM-9G Power Supply 0.027 A 0.050A LCD-7100 Remote Display Module 0.012 A 0.023 A NGA LCD Annunciator 0.200 A£ 0.200 A£ (See Note 4)(See Note 4) Smoke and heat sensors Notification Appliances Auxiliary Power Devices Miscellaneous devices TOTALS A Total Supervisory Current(See Note 7) B Enter number of standby hours required"*(See Note 2) C Multiply Line A times hours in Line B-enter D Total alarm current from above E Enter alarm sounding period in hours. F Multiply Line D times Line E-enter G Total of Lines C&F-enter H Multiply Line G by 1.2---enter(Total ampere/hours required"**)(See Note 3) NOTES: NOTE 1: *With all LEDs and optional buzzer energized. NOTE 2:**24 hrs for NFPA 72 protected premises or Central Station signaling, or Auxiliary,or Remote Supervising Station Fire Alarm Systems. NOTE 3: ***Use the next size battery with a capacity greater than required. (Use only Gamewell-FCI Model B-1. 9R, B-6R, B-7R, B-1 7R, B-31 R, or B-55R batteries). NOTE: Maximum standby current for 60 hours when using 55 A/H batteries is .560 A. NOTE 4:£Normal operating current. During power failure,current drops to 0.045 amp since back light is extinguished. NOTE 5: t Add .003 amp for any LED to be lit for any condition when powered internally. NOTE 6:$Add .003 amp for any LED to be lit for any condition when powered internally.When powered externally,a max.output current of.050/point is available for a maximum total output of 2.4 amp/ANU-48. NOTE 7: Continuous standby loads in excess of.560 Amps up to 5 Amps may require Generator Backup or load shedding during an AC power failure. Table 3.14.1 Battery Standby Chart E3 Series Installation/Operation Manual-P/N 9000-05741 09/03/09 147 E3 Series System Connections Analog Sensors 3.15 Analog Sensors The E3 Series 9,signaling line circuits accommodate only Gamewell-FCI approved,UL Listed, Factory Mutual Approved analog sensors and bases.Each ILI-E3 Series signaling line circuit can accommodate 159 sensor address points,using Address numbers 01 to 159.The ILI95-E3 Series accommodates 126 sensors/modules,using Address numbers 01 to 126. For a list of approved sensors and bases,refer to the Compatibility Addendum,PIN 9000-0427. 3.15.1 Address Switches Addresses are set on each sensor or module. 3.15.2 Drift Compensation The E3 Series®contains a program that performs continuous testing of analog sensors,including sensitivity tests.This program will compensate all analog sensors for age and environmental conditions.If a problem occurs in a sensor,a"Failed Test","Dirty"or"Very Dirty"indication for the specific device will appear on the system display and will be recorded in the Event Log and the Serial Port. 3.15.3 Addressable Modules The E3 Series®accommodates only Gamewell-FCI approved,UL Listed,Factory Mutual Approved addressable modules.Each ILI-E3 Series SLC can accommodate 159 addressable module points,using Addresses 01 through 159.The ILI95-E3 Series accommodates 126 sensors/modules,using Address numbers 01 to 126.The modules that occupy this address range consist of Monitor(input)modules and Control(output)modules. For a list of approved modules,refer to the Compatibility Addendum to Gamewell-FCI Manuals, P/N 9000-0427. 3.15.4 Monitor Modules Dry contact devices and two wire smoke detectors can be monitored by these modules,which act as the interface between the manual station,waterflow switch,etc. and the control panel. For a list of approved modules,refer to the Compatibility Addendum to Gamewell-FCI Manuals, P/N 9000-0427. 3.15.5 Control Modules Notification appliances,relays and circuits using compatible voltages(through an internal dry contact)can be controlled by these modules. For a list of approved modules,refer to the Compatibility Addendum to Gamewell-FCI Manuals, P/N 9000-0427. 3.15.6 System Response to Input Devices The E3 Series System allows the programming of the response of the system to an activated input device by the selection of the"Input Device Type."The reaction of the system may be an Alarm, Supervisory or Tamper event when an input module(AMM type)or sensor(smoke detector)is set to the appropriate device type.Also,most SLC input device types,such as a Supervisory device, may produce either a latching or self-restoring event as selected in the configuration programming tool(CAMWorksTM).For more information,see the CAMWorks "HELP"menu. IFNOTE: UL 864 requires that PAS (positive alarm sequence)be used only for alarm signals from automatic alarm devices such as smoke detectors. To provide the PAS Bypass function, an input device(such as a monitor module or ASM switch) must be provided and programmed for this purpose using the configuration programming tool (CAMWorks). 148 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 LED Indicators(LCD-E3) Programming/Operation Instructions Section 4: Programming/Operation Instructions 4.1 LED Indicators (LCD-E3) Figure 4.1.1 illustrates the LED indicators. Table 4.1.1 lists the LCD-E3 indicators and a description. O O O O O O O AC POWER POWER GROUND ALARM SYSTEM SUPERVISORY SYSTEM ON FAULT FAULT TROUBLE SILENCED � a ABC (DEF a � QG K M ALARM TROUBLE SIGNAL SYSTEM RESET/ ACKNOWLEDGE ACKNOWLEDGE SILENCE LAMP TEST PRS TU 7 8 9 a o o 11 Ell] MENU BACKSPACE OK/ EDIT ENTER Figure 4.1.1 LCD-E3 LED Indicators Designation Description Comments AC Power On (green) Lights to indicate the presence of 120 VAC input. Alarm (red) Lights when system is in alarm,flashes until alarm is acknowledged. Supervisory (yellow) Lights when supervisory condition exists,flashes until trouble acknowledge is performed. System Trouble (yellow) Lights to indicate trouble condition,flashes until trouble is acknowledged. Power Fault (yellow) Lights during a LOW or NO Battery condition. Ground Fault (yellow) Lights to indicate a ground on a field conductor. System Silenced (yellow) Lights when a System Silence has been pressed. Flashes when system silence is pending. Table 4.1.1 LCD-E3 LED Indicators E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 149 Programming/Operation Instructions Audible/Visual Condition Indications 4.2 Audible/Visual Condition Indications Table 4.2.1 lists the Audible/Visual Condition Indicators. Condition Audible/Visual Status Indication Alarm Alarm situations are indiated by a one-half second on and one-half second off pattern from the system sounder and the illumination of the red alarm LED. Supervisory Supervisory events are indicated by a continuous tone from the system piezo sounder and the illumination of the supervisory LED. Trouble Trouble conditions are indicated by a continuous tone from the system piezo sounder and the illumination of the yellow trouble LED. Acknowledged Acknowledgement of any of these conditions will silence the system sounder leaving the appropriate LEDs illuminated. Trouble Reminder The system defaults to automatic trouble resound so an acknowledged trouble won't be overlooked. The time interval and disabling of this function can be programmed in the configuration tool (CAMWorksTM) Table 4.2.1 Audible/Visual Condition Indicators 150 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 Switches(LCD-E3) Programming/Operation Instructions 4.3 Switches (LCD-E3) Figure 4.3.1 illustrates the LCD-E3 switches. Table 4.3.1 lists the LCD-E3 switches and a description. O O O O O O O AC POWER POWER GROUND ALARM SYSTEM SUPERVISORY SYSTEM ON FAULT FAULT TROUBLE SILENCED QZ ABC DEF ALARM TROUBLE SIGNAL SYSTEM RESET/ 4I JKL M6 ACKNOWLEDGE ACKNOWLEDGE SILENCE LAMP TEST (PR TU 7 S 9 a o o O �° o MENU BACKSPACE/ OK/ EDIT ENTER Figure 4.3.1 LCD-E3 Switches Designation Comments Alarm Acknowledge Silences the panel audible sounder.This must be pressed once for each Alarm condition present in the system. Trouble Acknowledge Silences the panel audible sounder.This must be pressed once for each Trouble or Supervisory condition present in the system. Signal Silence Press once and any outputs programmed as silenceable will be deactivated. (All applicable silence LEDs will light).A second activation will re-activate the previously silenced outputs. This switch only functions if an Alarm or Supervisory condition exists in the system. Lamp Test/Reset Press momentarily and all LEDs(including all elements in the display) will light momentarily. Press and hold to reset the system. Menu/Back Used to access certain system functions,e.g.Walk Test.The display will prompt the operator as to which function applies. "Menu" is pressed to initially put the E3 Series®into menu mode. The "Back" function will step the operator out of the menu mode one element at a time. BKSP/Edit Used in menu operations. The display will prompt the operator as to which function applies. OK Accepts any changes made in the menu field. Numeric Keys These 12 keys allow the user to choose a specific point address by using the numbers for point sensitivity reading, disabling an address, etc. Table 4.3.1 Switches E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 151 Programming MAIN LCD-E3 Menu Selections Section 5: Programming UL 864 Programming Requirements HNOTE: NOTICE to users, installers,Authorities Having Jurisdiction (AHJ), and other involved parties: This product incorporates field programmable software. In order for the product to comply with the requirements in the Standard for Control Units and Accessories for Fire Alarm Systems, UL 864 9th Edition,certain programming features or options must be limited to specific values or not used at all as indicated below. Settings Permitted in Program Feature Permitted in UL 864 Possible Settings UL 864 Trouble Reminder Yes Enabled or Disbabled Enabled System programming is performed via a portable computer and the Gamewell-FCI CamWorksTM Configuration. The following menu options are available via the optional LCD-E3 display/keypad module. 5.1 MAIN LCD-E3 Menu Selections Table 5.1.1 lists the Main LCD-E3 Menu selection and description. Menu Selection Description CONFIG. Pressing CONFIG on the main menu automatically opens the Autoconfig Menu, where automatic configuration of the system is accomplished. There are two modes: "Clear and Reconfigure"—Can be used to initialize a completely new sub-assembly prior to FCP configuration. "Update SLCs only" This feature provides the ability to preload the system with a full configuration, then use Autoconfigure to activate only those circuit devices that are physically present. The process can be repeated as new SLC sections are connected or temporarily removed. Table 5.1.1 Main LCD-E3 Menu Selections 5.2 WALK / DRILL Menu Selection Table 5.2.1 lists the Walk/Drill Menu selection and description. Menu Selection Description Drill ON/OFF Is a simple ON or OFF selection. ON will activate the NACs, while OFF will deactivate the NACs. Audible Test Is a simple ON or OFF selection for an audible walk test. The NACs will sound twice for a trouble, 3 times for a supervisory signal and 4 times for an alarm. Table 5.2.1 Walk/ Drill Menu Selection 152 E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 I/O Menu Selection Programming 5.3 1/0 Menu Selection Table 5.3.1 lists the I/O Menu selection and description. Menu Selection Description Output ON/OFF Forces the toggling on or off of a specified output. These outputs can include NAC 1, NAC 2, Municipal Circuit (if present) and any Addressable Control Point. Enable/Disable Allows the user to take any addressable device on either SLC and disconnect it through software. While disabled, a point will report a trouble until it is enabled, but will not cause or respond to an alarm. Table 5.3.1 1/0 Menu Selection 5.4 CLOCK Menu Selection Table 5.4.1 lists the Clock Menu selection and description. Menu Selection Description Time Is set in 24 hour notation. It is set with hours, then minutes "HHMM". Date Is set as month, date and year"MMDDYY". Table 5.4.1 Clock Menu Selection 5.5 MISC Menu Selection This selection opens a"MISC OPTS"Menu that allows the user to change the RS232 port Baud rate,or perform a hard reset of the ILI-MB-E3/IL195-MB-E3.Baud rate options are provided to allow connection to a variety of printers. Table 5.5.1 lists the available Baud rates. Baud Rates • 115200 • 4800 • 19200 • 2400 • 9600 • 1200 Table 5.5.1 Baud Rates Although this change is temporary,it doesn't change the configuration. 5.6 LOG Menu Selection Table 5.6.1 lists the Log Menu selection and description. Menu Selection Description Display Log Opens the System Display to all events in the buffer memory. Print Log Sends the entire buffer memory to the RS-232 port. Clear Log (Hard reset)will eliminate all events stored in the buffer memory. Sensitivity Report Will send sensor sensitivity information to the RS-232 port. Table 5.6.1 Log Menu Selection 5.7 INFO Menu Selection This selection displays the Firmware Version and time/date of the last configuration change in the E3 Series®.It shows a code for the type of the most recent configuration update. The codes are as follows: 1. CamWorksTM Configuration Upload. 2. Auto configuration(Options 1 or 2 on the Autoconfig Menu). 3. Network node map change. 4. Manual update via the"CS"terminal command. E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 153 Power Up Procedure General Section 6: Power Up Procedure 6.1 General QWARNING: Prior to the application of power to the system, all circuits must be clear of shorts, grounds and stray voltages. Failure to do so could cause irreversible damage to the equipment 1. Ensure that all cables and optional modules(if any)are installed and secured per the Installation Instructions.DO NOT install any field wiring at this time.Connect the End of Line devices to the notification appliance and municipal(if installed)circuits. 2. Power the panel with AC first.The system will initialize and indicate a"Battery Missing" condition. 3. Connect the batteries,taking care to observe polarity. 4. The system should be in normal condition.You may proceed with the installation of field wiring.Check all wiring prior to connection to the control panel.Do not use this panel as a circuit tester. 6.2 To Set the System Time 1. Press the MENU/Back button on the keypad and enter the Level 1 password,XXXXXX. 2. Press the OK button and the Main Menu will be displayed. 3. Press the Number 4 and the Clock Menu will be displayed. 4. The following numbers indicate the number that opens the time or date setup: – Number 1 opens the Time setup. – Number 2 opens the Date setup. The data is entered by using the keypad and the OK button when each section is completed.The OK button acts as an Enter Key. 5. Press the Reset/Lamptest button and ensure that the time and date remain correct. 6.3 Automatic Configuration 1. Press the Menu/Back button on the keypad and enter the Level 4 password,YYYYYY. 2. Press the OK button and the Main Menu will be displayed. 3. Press the Number 1 and the Configuration Menu will be displayed. 4. Since this is the first time the system is configured,press the Number 1 to initiate the Clear, then Configure process.This will place all of the system settings to the factory default and then read all of the devices correctly connected to the two(2)SLCs.After this process is complete, the system may be given an initial test to ensure all of the devices have been installed into the system memory. 154 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 Automatic Configuration Power Up Procedure Notes E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 155 Test and Maintenance Test Section 7: Test and Maintenance 7.1 Test The system must be tested periodically in accordance with the requirements of NFPA 72,National Fire Alarm Code and/or applicable state and local codes. 7.2 Maintenance We recommend the replacement of the system standby batteries after three years of service unless otherwise indicated by the battery manufacturer.There are no user serviceable components in this equipment. Sub-assemblies should be returned to the factory for servicing. 156 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 Power-Limited–Non Power-Limited Wiring Section 8: Power-Limited — Non Power-Limited Wiring UL Standard 864,(Control Units for Fire Protective Signaling Systems),requires that a minimum of 1/4 inch separation be maintained between power-limited circuits and non power-limited circuits.The control unit is designed so the required separation between these circuits(power- limited vs.non power-limited)is maintained at the field wiring terminals. In order to fully comply with the intent of these requirements,however,the minimum 1/4 inch separation must also be maintained between the field wiring conductors of power-limited circuits and non power-limited circuits.This may be accomplished by routing the field wiring as shown in Figure 8.2.1. Unless otherwise indicated on the unit,all field-wiring circuits are power-limited except: • AC power circuit • Standby battery circuit • Telephone line connections • Master Box/Releasing E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 157 Power-Limited-Non Power-Limited Wiring E3 Series Control Panel Circuit Wiring Requirements 8.1 E3 Series Control Panel Circuit Wiring Requirements Table 8.1.1 provides the circuit wiring requirements for the E3 Series control panel. Circuit Type Circuit Function Wire Requirements Distance Typical Wire Type" (feet/meters) SLC Connects to Twisted-unshielded pair, 12 to 18 AWG 10,000 ft. (3,000 m) 12 AWG (3.1 mm2) (power-limited) intelligent and (3.1 to 0.78 mm2)40 Ohms maximum 8,000 ft. (2,400 m) 14 AWG(2.00 mm2) addressable per length of Style 6&7 loops.40 modules. Ohms combined-branch circuits 4,875 ft. (1,450 m) 16 AWG(1.30 mm2) maximum for Style 4 loop. 3,225 ft. (980 m) 18 AWG(0.78 mm2) MC cable with 2 conductor twisted. Or Shielded wire, in conduit or outside of 1,000 ft. (304.8 m) 12 to 18 AWG conduit or MC cable. (3.1 to 0.78 mm2) MC cable with 3 conductor twisted. Note: Maximum total capacitance of all SLC wiring (both between conductors and from any conductor to ground) should not exceed 0.5 microfarads. EIA-485 Connects to Twisted-unshielded pair with a 3,000 ft.(maximum) 16 AWG(1.30 mm2) (power-limited) LCD-E3,ASM-16, characteristic impedance of 120 and ANU-48 Ohms. 18 AWG(0.78 mm2)minimum. modules EIA-232 Connects to Twisted-unshielded pair. 18 AWG 50/15.24 16 AWG(1.30 mm2) (power-limited) Printers, CRT, (0.78 mm2)minimum (without modem) E3 or PC. NAC E3 12-18 AWG (3.1 to 0.78 mm2).At To meet 1.2 V drop,or 12 to 18 AWG Notification (power-limited) alarm current level, no more than a 1.2 sized to provide the (3.1 to 0.78 mm2) Appliance V drop at the end of the circuit,or sized minimum rated Circuit to provide the minimum rated operating voltage of operating voltage of the appliances the appliances used. used. 24 VDC Power To Transmitter 12-18 AWG (3.1 to 0.78 mm2). Size To meet 1.2 volt drop 12 to 18 AWG Runs Annunciator wire so that no more than 1.2 V drop (3.1 to 0.78 mm2) (power-limited) across wire run from supply source to end of any branch. CHG-120 External battery 12 AWG(3.1 mm2)in conduit 20/6.1 (maximum) 12 AWG(3.1 mm2) charger ARCNET Provides interface Twisted-unshielded pair, low 3,000 ft. (.914 m) 18 AWG (3.1 mm2) (power-limited) between network capacitance 18 AWG nodes. ARCNET should be installed in a separate conduit. Note: Lightning arresters required on circuits extending between buildings; 999 meter length maximum to meet UL 1459. Table 8.1.1 E3 Series Control Panel Wiring Requirements 158 E3 Series Installation/Operation Manual P/N 9000-0574:F 09/03/09 E3 Series Power-Limited and Non Power-Limited Diagram Power-Limited—Non Power-Limited Wiring 8.2 E3 Series Power-Limited and Non Power-Limited Diagram Figure 8.2.1 illustrates the power-limited and non power-limited wiring of the E3 Series control panel. E3 Series Panels DACT-E3 RPT-E3 LEl vEl Non Power-Limited circuit wiring 'Eli ® , e ILI-MB-E3lILI95-MB-E3; Non Power-Limited circuit wiring �———— =_Q. 2FUMI M ®Mm *Non Power-Limited O circuit wiring ®0 0 ® opDO � ® 00 0 ® ® O p ® _ *Non Power-Limited ® o❑ circuit wiring = 0 a 0 �® . �0 •0 08 n NOTE:All other circuits are Power-Limited PM-9/PM-9G —— Dotted line denotes Non Power-Limited wiring NOTE:Route all Non-Power-Limited wiring via individual knockouts on the sides of the cabinet Figure 8.2.1 E3 Series Power-Limited and Non Power-Limited Wiring E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 159 Power-Limited–Non Power-Limited Wiring E3 Series Power-Limited and Non Power-Limited Diagram Notes 160 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 Index A-S Index A G AC Power Connections Ground Fault Supervision PM-9 107, 110 PM-9 110 Address Switch Settings PM-9G 113 ANU-48 140 ASM-16 121 ILI95-E3 Series 106 ILI-E3 Series 106 ILI95-MB-E3 10 AM-50 Series 12 IL195-S-E3 12 ANU-48 12 ILI-MB-E3 10 ASM 115 ILI-S-E3 11 ASM-16 11 INI-VG 12 B L Battery Connection LCD-7100 12 PM-9 14 LCD-E3 9 PM-9G 14 Menus 152 Switches 151 C N Cabinet Installations B-Slim Cabinet 79 NGA 12 Cabinet A or AA,2-Bay 29 Cabinet A or AA,3-Bay 35 P Cabinet Al 17 PM-9 10 Cabinet A2 23 PM-9G 10 Cabinet B 38 Power Supply Connections Cabinet C,AM-50 Extender Plate 60 PM-9 107 Cabinet C,E3-INCC-C Plate 53 PM-9G 107 Cabinet C,E3-INX-C Plate 46 Power-Up procedure 154 Cabinet C,INCC-E3,7-Bay Inner Door to Backbox 62 R Cabinet C,INCC-E3, 8-Bay Inner Door to Backbox 64 RPT-E3 11 Cabinet D 66 Cabinet D, 13-Bay Inner Door to Backbox S 75 Setting Automatic Configuration 154 Cabinet D, 14-Bay Inner Door to Backbox Setting System Time 154 77 Specifications Cabinet D,E3-ILI-D Plate 72 PM-9 108 Cabinet D,E3-INX-D Plate 70 PM-9G 108 Standby Battery Calculations 147 ANU-48 147 DACT-E3 11 ASM-16 147 DACT-E3 Event Reporting Codes 125 DACT-E3 147 Digital 122 ILI95-MB-E3 147 ILI95-S-E3 147 E ILI-MB-E3 147 ILI-S-E3 147 E3 Circuit Wiring Requirements 158 LCD-7100 147 LCD-E3 147 NGA 147 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 161 PM-9 147 PM-9G 147 RPT-E3 147 W Wiring Connections ANU-48 138 ASM-16 117 DACT-E3 128 IL195-MB-E3 87, 95 IL195-S-E3 104, 105 ILI-MB-E3 87, 91 ILI-S-E3 98, 100 LCD-7100 146 LCD-E3 143 PM-9 110 PM-9G 113 Repeater-E3 132 Wiring Diagrams ANU-48 139 ASM-16 120 DACT-E3 129 IL195-MB-E3 97 IL195-S-E3 105 ILI-MB-E3 93 ILI-S-E3 101 LCD-E3 144 PM-9 111 PM-9G 114 RPT-E3 135 162 E3 Series Installation/Operation Manual—P/N 9000-05741 09/03/09 Manufacturer Warranties and Limitation of Liability Manufacturer Warranties. Subject to the limitations set forth herein, Manufacturer warrants that the Products manufactured by it in its Northford, Connecticut facility and sold by it to its authorized Distributors shall be free, under normal use and service, from defects in material and workmanship for a period of thirty six months (36) months from the date of manufacture (effective Jan. 1, 2009). The Products manufactured and sold by Manufacturer are date stamped at the time of production. Manufacturer does not warrant Products that are not manufactured by it in its Northford, Connecticut facility but assigns to its Distributor, to the extent possible, any warranty offered by the manufacturer of such product. This warranty shall be void if a Product is altered, serviced or repaired by anyone other than Manufacturer or its authorized Distributors. This warranty shall also be void if there is a failure to maintain the Products and the systems in which they operate in proper working conditions. MANUFACTURER MAKES NO FURTHER WARRANTIES, AND DISCLAIMS ANY AND ALL OTHER WARRANTIES, EITHER EXPRESSED OR IMPLIED, WITH RESPECT TO THE PRODUCTS, TRADEMARKS, PROGRAMS AND SERVICES RENDERED BY MANUFACTURER INCLUDING WITHOUT LIMITATION, INFRINGEMENT, TITLE, MERCHANTABILITY, OR FITNESS FOR ANY PARTICULAR PURPOSE. MANUFACTURER SHALL NOT BE LIABLE FOR ANY PERSONAL INJURY OR DEATH WHICH MAY ARISE IN THE COURSE OF, OR AS A RESULT OF, PERSONAL, COMMERCIAL OR INDUSTRIAL USES OF ITS PRODUCTS. This document constitutes the only warranty made by Manufacturer with respect to its products and replaces all previous warranties and is the only warranty made by Manufacturer. No increase or alteration, written or verbal, of the obligation of this warranty is authorized. Manufacturer does not represent that its products will prevent any loss by fire or otherwise. Warranty Claims. Manufacturer shall replace or repair, at Manufacturer's discretion, each part returned by its authorized Distributor and acknowledged by Manufacturer to be defective, provided that such part shall have been returned to Manufacturer with all charges prepaid and the authorized Distributor has completed Manufacturer's Return Material Authorization form. The replacement part shall come from Manufacturer's stock and may be new or refurbished. THE FOREGOING IS DISTRIBUTOR'S SOLE AND EXCLUSIVE REMEDY IN THE EVENT OF A WARRANTY CLAIM. Warn-HL-08-2009.fm E3 Series Installation/Operation Manual P/N 9000-0574T 09/03/09 163 Ga, ii FIRE CONTROL INSTRUMENTS by Honeywell Gamewell-FCI 12 Clintonville Road Northford, CT 06472-1610 USA 203-484-7161 fax 203-484-7118 www.gamewell-fci.com ISO 9001 ENGINEERING S MANUFACTURING QUALITY SYSTEMS