NETWORK EMERGENCY VOICE EVACUATION SYSTEM

NetSOLO CLASSIC NETWORK EMERGENCY VOICE EVACUATION SYSTEM Copyright 2004 All Rights Reserved Published in U.S.A. Part No. 9000-0565 Revisi A

IMPORTANT INFORMATION This manual is designed for use by factory trained installers and operators of the Fire Ctrol Instruments, Inc. (FCI) NetSOLO Classic Emergency Voice Evacuati and Fire Alarm Ctrol system. All illustratis, functial descriptis, operating and installati procedures, and other relevant informati are ctained in this manual. The ctents of this manual are important, and the manual must be kept with the system at all times. If building ownership is changed, this manual, including any testing and maintenance informati, must be passed alg to the new owner(s). The NetSOLO Classic panel is part of a system. Manuals and instructis for other devices forming part of the system should be kept together. Purchasers who install this system for use by others must leave the instructis with the user. A copy of these instructis is included with each product and is available from the manufacturer. This equipment is Listed by various listing agencies for use in emergency evacuati and fire alarm systems. Use ly compents that are compatible with this FCI system. The installati MUST be in accordance with the instructis in this manual. Therefore: DO NOT deviate from the procedures described in this manual. DO NOT assume any details not shown in this manual. DO NOT modify any electrical or mechanical features. DO comply with all codes and standards set forth by the Authority Having Jurisdicti The term Authority Having Jurisdicti has become a standard term in the fire alarm industry. An acceptable definiti of Authority Having Jurisdicti is: Fire alarm systems installed in the USA fall under the jurisdicti of some authority. In some areas, this may be a local fire department; in other areas, it may be a building inspector, insurance firm, etc. Different authorities may have their own local requirements for the way the fire alarm system is installed and used. Most local authorities based their requirements the NFPA (Natial Fire Protecti Associati) codes, but there may be important differences. You must install this system in the way in which the Authority Having Jurisdicti requires. If you do not know which authority has jurisdicti in your area, ctact your local fire department or building inspector for guidance. It is important that you tell users to be aware of any requirements defined by the Authority Having Jurisdicti. The installati MUST be in accordance with the following standards: Natial Fire Alarm Code (NFPA 72) Natial Electrical Code (NFPA 70) Life Safety Code (NFPA 101) WARNING: Touching compents, which are improperly installed, applied or! operated, could be hazardous and possibly fatal. Short circuits could cause arcing that could result in molten metal injuries. Therefore, ly qualified technicians familiar with electrical hazards should perform checkout procedures. Safety glasses should be worn, and test equipment used for voltage measurements should be designed for this purpose and be in good working order. ENVIRONMENTAL CONSIDERATIONS It is important that this equipment be operated within its specificatis Recommended operating temperature range: 60 to 80 F (15 to 27 C) Absolute maximum operating temperature range: 32 to 120 F (0 to 49 C) Operating humidity: not to exceed 85%, n-cdensing at 90 F (32 C) Operating this equipment within the recommended temperature range will extend the useful life of the system standby batteries. II

INSTALLATION CONSIDERATIONS Check that you have all the equipment you need to complete the installati. Follow the field wiring diagrams and installati notes in this manual. Install the equipment in a clean, dry envirment (minimal dust). Avoid installing the equipment where vibratis will occur. Remove all electric assemblies prior to drilling, filing, reaming, or punching the enclosure. When possible, make all cable entries from the side, being careful to separate the power limited cductors form the n-power limited cductors. Before making modificatis, verify that they will not interfere with battery, transformer, and printed circuit board locati. Do not over tighten screw terminals. Over tightening may damage threads, resulting in reduced terminal ctact pressure and difficulty with screw terminal removal. Discnect all sources of power before servicing, removing, or inserting any circuit board. Ctrol unit and associated equipment may be damaged by removing and/or inserting cards, subassemblies, or intercnecting cables while the unit is energized. WIRING CONSIDERATIONS This fire alarm ctrol panel ctains power-limited circuits. You cannot cnect external sources of power to these circuits without invalidating their approval. Verify that wiring sizes are adequate for all initiating device and notificati appliance circuits. Most devices cannot tolerate more than a 10% drop from the specified voltage. The installer must ensure that the wiring and devices installed in the system meet the current Natial Electrical Code, NFPA 70, and all applicable state and local building code requirements. Use the cductor size and type required by local codes. (See NFPA 70, Article 760). Wiring resistance must not be more than that shown the field wiring diagrams. To reduce errors and help in servicing the system, all cductors should be labeled or otherwise coded and logged at installati to identify circuit assignment and polarity. If the cductors are logged with a code, keep the log that explains the code with the manual, so that it is available to other people working the panel. Like all solid state electric devices, this system may operate erratically or be damaged when subjected to lightning induced transients. Although no system is completely immune to lightning transients and interference, proper grounding will reduce susceptibility. FCI does not recommend the use of overhead or outside aerial wiring due to the increased susceptibility to nearby lightning strikes. Csult with the FCI Technical Support Department if any problems are anticipated or encountered. To prevent the spread of fire, use proper patching materials to areas where system wiring passes through fire-rated walls or floors. SURVIVABILITY Per the Natial Fire Alarm Code, NFPA 72, all circuits necessary for the operati of the notificati appliances shall be protected until they enter the evacuati signaling ze that they serve. Any of the following methods shall be csidered acceptable as meeting these requirements: (1) A 2-hour rated cable or cable system (2) A 2-hour rated enclosure (3) Performance alternatives approved by Authority Having Jurisdicti MAINTENANCE To keep your fire alarm system in excellent working order, going maintenance is required per the manufacturer s recommendatis and UL and NFPA Standards, and applicable state and local codes. At a minimum, the requirements of Chapter 7 of NFPA, the Natial Fire Alarm Code, shall be followed. A preventative maintenance agreement should be arranged through the manufacturer s local representative. Though smoke detectors are designed for lg life, they may fail at any time. Any smoke detector, fire alarm system, or any compent of that system shall be repaired or replaced immediately. III

SYSTEM RE-ACCEPTANCE TEST To ensure proper system operati, this product must be tested in accordance with NFPA 72, Chapter 7. Re-acceptance testing is required after any modificati, repair, or adjustment to system hardware, wiring, or programming. All compents, circuits, or system operatis known to be affected by a change must be 100% tested. In additi, to ensure that other operatis are not inadvertently affected, at least 10% of initiating devices that are not directly affected by the change, up to a maximum of 50 devices, must also be tested and proper system operati verified. Equipment used in the system may not be technically compatible with the ctrol panel. It is essential to use ly equipment Listed for service with the ctrol panel. OTHER CONSIDERATIONS The equipment was tested according to EC directive 89/336/EEC for Class A equipment and was verified to the limits and methods of EN 55022. FCC WARNING: This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with this instructi manual, may cause interference to radio communicatis. It has been tested and found to comply with the limits for Class A computing devices pursuant to Subpart B of Part 15 of FCC Rules, which is designed to provide reasable protecti against such interference when operated in a commercial envirment. Operati of this equipment in a residential area is likely to cause interference, in which case the user will be required to correct the interference at his own expense. If these instructis are not clear, or if additial informati or clarificati is needed, please csult your local authorized Fire Ctrol Instruments, Inc. distributor. Because of design changes and product improvements, the informati in this manual will be subject to change without notice. FCI reserves the right to change hardware and/or software design, which may subsequently affect the ctents of this manual. FCI assumes no respsibility for any errors that may appear in this manual. Neither this manual nor any part of it may be reproduced without the advance written permissi of Fire Ctrol Instruments, Inc. LIMITATIONS OF FIRE ALARM SYSTEMS FCI recommends that smoke and/or heat detectors be located throughout the protected premises following the recommendatis of the current editi of the Natial Fire Protecti Associati Standard 72, the Natial Fire Alarm Code (NFPA 72), manufacturer s recommendatis, State and local codes, and the recommendatis ctained in the Guide for the Proper Use of System Smoke Detectors, which is made available at no charge to all installing dealers. A study by the Federal Emergency Management Agency (an agency of the United States government) indicated that smoke detectors may not go into alarm or give early warning in as many as 35% of all fires. While fire alarm systems are designed to provide warning against fire, they do not guarantee warning or protecti against fire. Any alarm system is subject to compromise or failure to warn for a variety of reass. For example: Particles of combusti or smoke from a developing fire may not reach the sensing chambers of a smoke detector because: - Barriers such as closed or partially closed doors, walls, or chimneys may inhibit air flow. - Smoke particles may become cold and stratify, and may not reach the ceiling or upper walls where detectors are located. - Smoke particles may be blown away from detectors by air outlets. - Smoke particles may be drawn into air returns before reaching the detector. In general, smoke detectors e level of a structure cannot be expected to sense fires developing another level. The amount of smoke present may be insufficient to alarm smoke detectors. Smoke detectors are designed to alarm at various levels of smoke density. If such density levels are not created by a developing fire at the locati of detectors, the detectors will not go into alarm. IV

Smoke detectors, even when working properly, have sensing limitatis. Detectors that have photoelectric sensing chambers tend to detect smoldering fires earlier than flaming fires, which have little visible smoke. Detectors that have iizati-type sensing chambers tend to detect fast flaming fires earlier than smoldering fires. Because fires develop in different ways and are often unpredictable in their growth, neither type of detector is necessarily best and a given type of detector may not provide adequate warning of a fire. Smoke detectors are subject to unwanted or nuisance alarms. For example, a smoke detector located in or near a kitchen may go into nuisance alarm during normal operati of kitchen appliances. In additi, dusty or steamy envirments may cause a smoke detector to alarm unnecessarily. If the locati of a smoke detector causes an abundance of unwanted or nuisance alarms, do not discnect the smoke detector; call a professial to analyze the situati and recommend a soluti. Smoke detectors cannot be expected to provide adequate warning of a fires caused by ars, children playing with matches (especially in bedrooms), smoking in bed, violent explosis (caused by escaping gas, improper storage of flammable materials, etc.). Heat detectors do not sense particles of combusti and are designed to alarm ly when heat their sensors increase at a predetermined rate or reaches a predetermined level. Heat detectors are designed to protect property, not life. Warning devices (including horns, sirens, bells, and speakers) may not alert people or awaken sleepers who are located the other side of closed or partially open doors. A warning device that activates a different floor or level of a dwelling or structure is less likely to awaken or alert people. Even perss who are awake may not notice the warning if the alarm is muffled by noise from a stereo, radio, air cditier or other appliance, or by passing traffic. Audible warning devices may not alert the hearing-impaired (strobes or other devices should be provided to warn these people). Any warning device may fail to alert people with a disability, deep sleepers, people who have recently used alcohol or drugs, or people medicati or sleeping pills. Please note that: 1) Strobes can, under certain circumstances, cause seizures in people with cditis such as epilepsy. 2) Studies have shown that certain people, even when they hear a fire alarm signal, do not respd or comprehend the meaning of the signal. It is the property owner s respsibility to cduct fire drills and other training exercises to make people aware of the fire alarm signals and instruct the proper reacti to alarm signals. 3) In rare instances, the sounding of a warning device can cause temporary or permanent hearing loss. Telephe lines needed to transmit alarm signals from a premises to a central stati may be out of service or temporarily out of service. For added protecti against telephe line failure, backup radio transmissi systems are recommended. System compents, though designed to last many years, can fail at any time. As a precautiary measure, it is recommended that smoke detectors be checked, maintained, and replaced per manufacturer s recommendatis. System compents will not work without electrical power. If system batteries are not serviced or replaced regularly, they may not provide adequate standby when AC power fails. Envirments with high air velocity or that are dusty or dirty require more frequent maintenance. In general, fire alarm systems and devices will not work without power and will not functi properly unless they are maintained and tested regularly. While installing a fire alarm system may make the owner eligible for a lower insurance rate, a fire alarm system is not a substitute for insurance. Property owners should ctinue to act prudently in protecting the premises and the people the premises and should properly insure life and property and buy sufficient amounts of liability insurance to meet their needs. V

Table of Ctents Important Informati I 1.0 General Descripti 3 1.1 NetSOLO Equipment 4 1.1.1 7100 Fire Alarm Ctrol Panel 4 1.1.2 INI-7100 UTP, Intelligent Network Interface, Unshielded, Twisted Pair 4 1.1.3 INI-7100 FO, Intelligent Network Interface, Fiber Optic 4 1.2 NetSOLO Classic Equipment 5 1.2.1 INCC-C, Intelligent Network Command Center 5 1.3 NetSOLO Classic Sub-assemblies 5 1.3.1 INI-VGE Series, Intelligent Network Interface- Voice Gateway 5 1.3.2 ASM-16 Addressable Switch Sub-assembly 5 1.3.3 AA-100 Amplifier 6 1.3.4 AA-120 Amplifier 6 1.3.5 INCC-E Command Center Enclosure 6 1.3.6 INCC-Exp Command Center Expansi Enclosure 6 1.3.7 CAB Amplifier Enclosures 6 1.3.8 ANU-48 Remote LED Driver Sub-assembly 6 1.3.9 LCD Display Annunciator Sub-assembly (NGA) 6 2.0 Installati 7 2.1 Locati 7 2.2 Unpacking 7 2.3 INCC-E (Single Back Box Applicati) 8 2.4 INCC-E (Multiple Back Box Applicati) 9 2.5 NetSOLO INCC-C Intelligent Network Command Center Assembly 10 2.5.1 INI-VGE Intelligent Network Interface 10 2.5.2 INCC Inner Door 11 2.5.3 ASM-16 Addressable Switch Sub-assembly 12 2.5.4 ANU-48 Remote LED Driver Sub-assembly 13 2.2.5 NGA Remote LED Driver Sub-assembly 13 2.5.6 AA-100, AA-120 Amplifiers 13 2.5.7 DR-C4B, DR-D4B Amplifier Cabinets 13 2.5.8 Voice Paging Microphe Assembly 16 2.5.9 Fire Fighter's Intercom Handset Assembly 17 3.0 Wiring 18 3.1 Power Cnectis 18 7100 /Battery Calculati Chart 20 3.1.2 INI-7100 Intelligent Network Interface 21 3.1.3 INI-7100 Addressing 23 3.2 Intelligent Network Interface, Voice Gateway (INI-VGE) 23 3.2.1 Power Cnectis (INCC-C) 24 3.2.2 NetSOLO Classic Network Cnectis 28 3.2.3 INI-VGE Signaling Line Circuit 30 3.2.4 Fire Fighter Intercom Riser Cnectis 31 3.2.5 Cnectis to Remote ASM-16s 32 3.2.6 Earth Ground Cnecti (INCC-C 32 3.2.7 INI-VGE Addressing 33 9000-565 Rev. A 1 of 46

Table of Ctents (Ctinued) 3.3 Power Amplifiers 34 3.3.1 Primary and secdary power requirements 35 3.3.2 Amplifier Cnectis 36 3.3.3 Adjusting Audio Gain Level 37 3.3.4 LEDs 38 3.3.5 Selecting the Default Backup Te 38 3.3.6 Backup Amplifier 39 3.4 Speaker Circuit cnectis 40 3.4.1 Speaker Switching 40 3.4.2 Speaker Wire 42 4.0 System Operati 43 4.1 7100 LED Indicators 43 4.2 7100 Switches 44 4.3 System Reset 44 4.4 Acknowledge Alarm Events 44 4.5 Silence System Outputs 45 4.6 Trouble / Supervisory Off-Normal Acknowledge 45 5.0 Transient Over-voltage Protecti 46 5.1 Routing of Power-Limited Field Wiring Circuits 46 Page 2 of 46

1.0 General Descripti The NetSOLO Classic Emergency Voice Evacuati System is a peer-to-peer, self-regenerating, token ring passing network csisting of two (2) to sixty four (64) nodes. The NetSOLO Classic system is of modular design. This allows a wide range of cfiguratis from three basic assemblies to form an integrated, distributed fire alarm system with bulk audio evacuati and fire command capability. The network communicati cveys all fire alarm, audio evacuati, voice paging, and fire fighter communicatis over a single pair of wires or fiber optic cable. Wire can be run up to 3,000 feet between each node while fiber optic cable can tolerate up to 8 db loss between each node. A node can csist of: A Model 7100 Series Fire Alarm Ctrol Panel equipped with Intelligent Network Interface Sub-assemblies that accommodate unshielded, twisted wire (INI-7100 UTP) or fiber optic cable (INI-7100 FO). An Intelligent Network Command Center (INCC-C) comprised of up to four (4) Intelligent Network Interface -Voice Gateway (INI-VGE) sub-assemblies, e (1) to six (6) fully programmable Addressable Switch Sub-assemblies (ASM-16), a microphe for paging, and a telephe handset for fire fighter communicatis. Four voice channels, each equipped with up to twenty (20) Series AA-100 or AA-120 amplifiers, The NetSOLO Classic Emergency Voice Evacuati System has been designed and tested to comply with: NFPA 13- Installati of Sprinkler Systems NFPA 72- Natial Fire Alarm Code: - Central Fire Alarm Stati Alarms (Model 7100-2D) - Local Fire Alarm Systems - Auxiliary Fire Alarm Systems - Remote Stati Fire Alarm Systems (Model 7100-2D) - Proprietary Fire Alarms Systems (Model 7100-2D) NFPA 70- Natial Electrical Code NFPA 101- Life Safety Code Americans with Disabilities Act (ADA) UL Std 864 : - Automatic Fire Detector Alarm - Manual Fire Alarm - Supervisory - Automatic Smoke Alarm, n-coded and master-coded operati - Releasing Device Service CSFM (pending) NYC-MEA (pending) Page 3 of 46

1.1 NetSOLO Equipment 1.1.1 7100 Fire Alarm Ctrol Panel The 7100 Series analog, addressable fire alarm ctrol panel provides such standard features as: Two (2) Class B, Style 4 Signaling Line Circuits (SLC) Two (2) Class B, Style Y Notificati Appliance Circuits (NAC) Alarm and Trouble Form C dry ctacts Accommodates 99 FCI Approved, UL Listed compatible analog, addressable sensors per SLC (394 total per 7100 system) Accommodates 98 FCI Approved, UL Listed compatible addressable mitor and ctrol modules per SLC (196 total per 7100 system) 80-character alphanumeric display with key switch protected system access functis and system diagnostic LEDs 500 event, n-volatile history log Resettable and n-resettable external power outputs rated 1A @ 24 VDC Alarm Verificati and Positive Alarm Sequence Multi-level Alarm Processing NAC coding Programmable Trouble Reminder Integral RS-232 Port Power Limited Circuits In additi, optial features include: Class A Optial Module (CAOM) with Discnect Switches for System NACs and SLCs Digital Alarm Communicator Transmitter (DACT) built in to Model FC7100-2D Municipal Circuit Optial Module (MCOM) LCD-7100 Remote 80-character alphanumeric display (up to 5 per 7100 FACP) LDM-7100 LED Display Driver providing 33 outputs (up to 5 per 7100 FACP) Each 7100 fire alarm ctrol panel cverts into a NetSOLO network node by the additi of an INI-7100 UTP or INI-7100 FO per 1.1.2 or 1.1.3 below. 1.1.2 INI-7100 UTP, Intelligent Network Interface, Unshielded, Twisted Pair NetSOLO Network interface to the 7100 FACP using copper wire network terminatis ly. It occupies e node the NetSOLO Broadband network. 1.1.3 INI-7100 FO, Intelligent Network Interface, Fiber Optic NetSOLO Network interface to the 7100 FACP using either fiber optic cable or copper wire network terminatis. It occupies e node the NetSOLO Broadband network. OR Page 4 of 46

1.2 NetSOLO Classic Equipment 1.2.1 Intelligent Network Command Center (INCC-C) The Command and Ctrol Center is comprised of e INI-VGE, e or more ASM- 16 programmable switch sub-assemblies, ANU-48 remote LED Driver subassemblies, or an NGA Network LCD annunciator. Optial assemblies are a system voice paging microphe and fire fighter's handset. NOTE: A NetSOLO voice evacuati system can have multiple command centers each occupying e node the network. These can serve as remote command centers duplicating the functis of a main command center or as independent command centers for their locati. 1.3 NetSOLO Classic Sub-assemblies 1.3.1 Intelligent Network Interface- Voice Gateway, (INI-VGE) The Intelligent Network Interface- Voice Gateway sub-assembly is available for fiber optic/copper wire combinati. This sub-assembly is the NetSOLO Network interface for the Voice Evacuati Command Center (INCC-C). It accommodates either unshielded twisted pair wire or fiber-optic cable. The INI-VGE-UTP is available for unshielded twisted pair use ly. Installed in the INCC-C command center, it: Provides cnecti to the system's microphe and fire fighter's handset Mitors and ctrols up to six (6) ASM-16, NGA, or ANU-48 sub-assemblies for a total of 256 fully programmable ctrol switches. Has e Style 4 (Class B) signal line circuit with a capacity of up to 16 AOM-TEL (fire fighter comm. circuit) sub-assemblies. Occupies e node the NetSOLO network. Each INI-VGE is capable of commanding up to twenty (20) AA-100 or AA-120 amplifiers. Has e Style 4 (Class B) signal line circuit with a capacity of up to 16 AOM-TEL (fire fighter comm. circuit) and 32 AOM-MUX or AOM-2S (dual-channel) speaker circuit sub-assemblies. Provides e fire fighter communicatis riser. Stores up to sixteen (16) customizable digital tes/messages with a combined, total length of three minutes. 1.3.2 Addressable Switch Sub-assembly (ASM-16) The ASM-16 is a cfigurable switch input sub-assembly with 16 switches and 48 status LEDs. Each switch address is fully programmable to serve as: A Voice Evacuati Speaker Circuit ctrol switch A Fire Fighter Communicati Circuit ctrol switch An Auxiliary Ctrol Circuit switch A status indicating LED, red, green, and yellow Page 5 of 46

1.3.3 Amplifier-100 Watt (AA-100) The AA-100 is a 100-watt switching audio output amplifier, with two standard outputs of 25 or 70.7 Vrms. Only e of the two outputs may be used in an installati. It has e (1) fully supervised speaker circuit wired style Y (Class B) or Style Z (Class A) capable of supplying up to 100 watts of power maximum. The amplifier ctains its own power supply, battery transfer ctrol, amplifier supervisi and back-up amplifier transfer ctrol. 1.3.4 Amplifier-120 Watt (AA-120) The AA-120 is a 120-watt switching audio output amplifier, with e standard output of 25 Vrms. It has e (1) fully supervised speaker circuit wired Style Y (Class B) or Style Z (Class A) capable of supplying up to 120 watts of power maximum. The amplifier ctains its own power supply, battery transfer ctrol, amplifier supervisi and back-up amplifier transfer ctrol. 1.3.5 Command Center Enclosure (INCC-E) This enclosure houses the INI-VGE, Fire Fighter Telephe, Emergency Microphe, and up to three (3) ASM-16/ANU-48 Sub-assemblies. 1.3.6 Command Center Expander Enclosure (INCC-Ex) This enclosure can be intercnected with others to provide added capacity for larger applicatis. It can accommodate up to six (6) ASM-16 or ANU-48 subassemblies. 1.3.7 Amplifier Enclosure (DRC4B, DRD4B) These enclosures house the AA-100 and AA-120 amplifiers. They are available in two (C4), or four (D4) tiers, with e amplifier occupying e tier. 1.3.8 Remote LED Driver Sub-assembly (ANU-48) This sub-assembly provides output for up to 48 remote LEDs. It mounts in the INCC enclosure or in a remote UL Listed annunciator. 1.3.9 LCD Display Annunciator Sub-assembly (NGA) This sub-assembly mounts in the INCC enclosure and 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. Page 6 of 46

2.0 Installati 2.1 Locati All compents of the NetSOLO system should be located per the following requirements: The INCC-C Command Center must be mounted close-nippled to the 7100 ctrol panel that supplies it with its 24 VDC operating voltage. Installatis are to be indoors ly, protected from rain, water, and rapid changes in temperature that could cause cdensati. Equipment must be securely mounted rigid, permanent walls Temperature shall not exceed the range of 32-120 F (0-49 C) Operating humidity not to exceed with 85% n-cdensing at 90 o F (32 o C) There should be adequate space around the installati to allow easy access for operati and servicing. All NetSOLO assemblies and compents are to be located in cformance to local and natial codes. All installati field wiring shall be in cformance to local and natial codes. 2.2 Unpacking All compents of the NetSOLO are shipped disassembled. Remove all sub-assemblies and accessories from their shipping cart to access the enclosure. Remove and inspect the enclosure for shipping damage. Inspect all electric 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 compents to FCI Customer Service. Page 7 of 46

2.3 INCC-E Back Box (Single Back Box Applicati) A) Prepare the mounting site by pre-drilling for fasteners as needed using the dimensis shown in Figure 2-1 below. Mounting hardware should be #10 to ¼" in diameter. Fasteners must be anchored into solid materials unless backed by studs or equivalent support. Mountings to ccrete walls should be backed by plywood to insulate the equipment from possible cdensati. B) The keyhole-shaped mounting holes at the top of the enclosure allow the fastener head to pass through. Insert the fasteners halfway and hang the back box them. Install the two bottom fasteners. Tighten all four fasteners to complete the installati. FIG. 2-1 NetSOLO Back Box Dimensis Refer to the Installati Instructis for this enclosure, P/N 9000-0547 Page 8 of 46

2.4 INCC-E Back Box (Multiple Back Box Applicati) A) When two or more INCC-E enclosures are required, the first back box is installed per Secti 2.3. Additial back boxes require a separati of ¾" between adjacent enclosures to ensure clearance for the doors. B) Remove the 1¼" diameter knockouts from adjacent boxes prior to mounting to permit wiring from box to box and to peripheral devices in the field. Csult Figures 2-2 and 2-3 below. HORIZONTAL MOUNTING LEAVE ¾" SPACE BETWEEN CABINETS Use close nipple or cduit for intercnecti of cabinet wiring VERTICAL MOUNTING FIG. 2-2 3 7/16" FIG. 2-3 Page 9 of 46

2.5 NetSOLO Broadband Intelligent Network Command Center Assembly (INCC-C) General The INCC-C Intelligent Network Command Center uses a modular approach. Csequently, the ctents of an INCC-C assembly will vary depending up the project's specific requirements. It occupies e node the NetSOLO network. At a minimum, an INCC-C assembly must include e INI-VGE sub-assembly, e ASM-16 switch sub-assembly, e NetSOLO back box, e INCC inner door, and e INCC outer full-plexiglas door. The standard INCC inner door provides six bays to accommodate up to six ASM-16, NGA, or ANU-48 sub-assemblies. Each INI-VGE can support up to 6 ASM-16, NGA, or ANU-48 sub-assemblies. The additial sub-assemblies can be mounted in extra NetSOLO back boxes. Unused bays can be covered with blank faceplates. An optial voice-paging microphe assembly occupies e standard bay in place of an ASM-16. An optial fire fighter's telephe handset assembly occupies two standard bays and requires the use of the INCC-T inner door, which combines two bays to accommodate the telephe assembly. See Figure 2-4 below. Fig. 2-4 Typical INCC-C Command Center 2.5.1 Intelligent Network Interface (INI-VGE Series)! IMPORTANT! This sub-assembly is a static sensitive electric device. To minimize the possibility of damage, always use a grounded wrist strap Unpack the INI-VGE sub-assembly from its shipping cart and remove it from its antistatic bag. Locate the six mounting standoffs at the top center of the INCC-E back box. Use the six screws provided to secure the sub-assembly to the back box at each corner, top center, and bottom center. Orient the sub-assembly so that the compent side is facing up, the four ST fiber optic cables are positied to the lower left, and the four 4-pin terminal blocks run down the right side of the board. Refer to the Installati Instructis for this sub-assembly, P/N 9000-0549. Page 10 of 46

2.5.2 Inner Door (INCC) Unpack the INCC Inner Door from its shipping cart. The INCC Inner Door is used with the ASM-16/NGA/ANU-48 sub-assemblies and the microphe. The INCC-T Inner Door is used when the system's cfigurati includes a fire fighter's telephe assembly. Locate the two hinge pins in the upper and lower left corners of the INCC-E back box. Place the nyl spacer provided over the lower left-hand hinge pin. Orient the door so that the two captured thumb screws and cam lock hole are to the right, and the two hinge pin mounting holes are to the left. Slide the upper hinge pin of the INCC-E through the upper hinge pin mounting hole. Ctinue to lift the door until it clears the INCC-E lower hinge pin. Swing the door in until the lower hinge pin mounting hole is aligned with the INCC-E lower hinge pin. Allow the door to drop down over the INCC-E lower hinge pin to complete the installati. See Figure 2-5 below. Once the sub-assemblies, the Microphe assembly, and Fire Fighter's Handset assembly are mounted to the back of the Inner Door, use the thumb screws to the right to secure the whole assembly to the INCC-E back box. Refer to the Installati Instructis for this enclosure, P/N 9000-0546. Fig. 2-5 Page 11 of 46

2.5.3 Addressable Switch Sub-assembly (ASM-16)! IMPORTANT! This sub-assembly is a static sensitive electric device. To minimize the possibility of damage, always use a grounded wrist strap or maintain ctact with ground while handling this equipment. Unpack the ASM-16 sub-assembly from its shipping cart. For new installatis, temporarily remove the INCC Inner Door from the INCC-E back box and place it face down a flat surface. We recommend that the switch label be prepared and inserted between the ASM-16 face plate overlay and the back plate at this time. Any subsequent alteratis to the switch labels will require the ASM-16 be removed from the Inner Door assembly to gain access to the label. Place the ASM-16 assembly in positi in the desired locati in the Inner Door. Fasten the assembly in place by installing a Kep nut over the mounting studs located at each corner. Do not tighten the nuts until all adjacent assemblies have been set in place. Refer to the Installati Instructis for this sub-assembly, P/N 9000-0550. Plug the RS-485 intercnect ribb cable into the INI-VGE sub-assembly Cnector J3. Plug the other end into J2 of the first ASM-16. Ctinue the RS-485 bus between each additial ASM-16 as needed. Extend the RS-485 bus as needed to subassemblies in adjoining expansi cabinets by wiring between Terminal Block TB1 from the last ASM-16 sub-assembly in the first cabinet and Terminal Block TB1 in the first ASM-16 sub-assembly in the next cabinet.!! Fig. 2-6 (Rear View) Page 12 of 46

2.5.4 Remote LED Driver Sub-assembly (ANU-48) Unpack the ANU-48 sub-assembly from its shipping cart. Refer to the Installati Instructis, P/N 9000-0564.! IMPORTANT! This sub-assembly is a static sensitive electric device. To minimize the possibility of damage, always use a grounded wrist strap or maintain ctact with ground while handling this equipment. The annunciator may be located up to 3,000 feet from the panel and up to three (3) additial annunciators can be cnected, cfigured identically with the first. See Table 2-1 for resistance limitatis for the cnecting circuit. Note, that if more than four ANU-48 sub-assemblies are installed, an external regulated and power-limited power supply Listed for use with fire protective signaling units is required. Table 2-1 Qty. of ANU-48 modules 1 2 3 4 Max resistance of 24 VDC power circuit (ohms) to most distant ANU 40 20 14 10 2.5.5 LCD Display Annunciator Sub-assembly (NGA) Unpack the NGA sub-assembly from its shipping cart. Refer to the Installati Instructis, P/N 9000-0568 2.5.6 Amplifiers (AA-100, AA-120) The AA-100 and AA-120 amplifiers mount in the cabinets DR-C4B and DR-D4B. Unpack the AA Amplifier from its shipping cart and remove it from its anti-static bag. It mounts directly in the DR cabinet. 2.5.7 Cabinet (s) DR-C4B, DR-D4B The amplifier cabinets can house three or four AA-100 or AA-120 amplifiers. These can be cfigured as e, two, or three main amplifiers with or without a comm shared redundant standby amplifier; or as two primary amplifiers each with it s own standby amplifier. Page 13 of 46

Fig. 2-7 Cabinet DR-C4B Page 14 of 46

Fig. 2-8 Cabinet DR-D4B Page 15 of 46

2.5.8 Voice Paging Microphe Assembly (Optial) Unpack the pre-assembled Voice Paging Microphe assembly from its shipping cart. For new installatis, temporarily remove the INCC Inner Door from the INCC-E back box and place it face down a flat surface. The Microphe assembly occupies e bay of the inner door. Place the Microphe assembly in positi in the desired locati in the inner door. Fasten the assembly in place by installing a Kep nut over the mounting studs located at each corner. Do not tighten the nuts until all adjacent assemblies have been set in place. Remove the jumpers that are installed the INI-VGE J15 header. Cnect the six-pin cnector of the coiled cord to J15 the INI-VGE, labeled "Microphe". Be sure to orient the cnector so the gray jumper spans the top two pins the INI-VGE J15 (Pins 6 and 5 counting from the top down). See Figure 2-9 below for details. Gray jumper Remove jumpers from INI-VGE Cnector J15 Microphe Cable INI-VGE Fig. 2-9 Page 16 of 46

2.5.9 Fire Fighter's Intercom Handset Assembly (Optial) Unpack the handset assembly from its shipping cart. Be sure to use the INCC-T Inner Door to accommodate the assembly. For new installatis, temporarily remove the Inner Door from the INCC-E back box and place it face down a flat surface. The handset assembly occupies two bays of the Inner Door. Place the handset assembly in positi the Inner Door. Fasten the assembly in place by installing a Kep nut over the mounting studs located at each corner. Do not tighten the nuts until all adjacent assemblies have been set in place. Plug the pre-assembled four-pin terminal block that terminates the phe cable into the INI-VGE TB5. Remove INI-VGE jumper W5 to enable local handset cnecti. See Figure 2-10 Remove Jumper W5 to enable local handset cnecti Telephe Cable NOTE: When the INI-VGE terminal block TB5 is cnected to a local handset, it cannot be used as a phe riser cnected to remote AOM-TELs. INI-VGE Fig. 2-10 Page 17 of 46

3.0 Wiring 3.1 Power Cnectis (7100 Ctrol and Amplifiers) Cnecti of the 7100 to the 120 VAC power source must be made in compliance with the Natial Electrical Code, NFPA 70, Article 760, the applicable NFPA Standards, and according to the requirements of the Authority Having Jurisdicti. Such requirements include: Cnectis must be made to a dedicated branch circuit. Cnectis must be mechanically protected. All means of discnecting the circuit must be clearly marked: "FIRE ALARM CIRCUIT CONTROL". Cnectis must be accessible ly to authorized persnel. See Figure 3-1 for cnecti details for the T-7100 transformer assembly and Figure 3-2 for Primary AC cnectis. BLACK (FRONT/TOP) BLACK (BACK/TOP) T-7100 AC SECONDARY CONNECTION TO BSM TB8 AC PRIMARY CONNECTION FROM BSM TB10 WHITE (BACK/BOTTOM)) RED (FRONT/BOTTOM) Fig. 3-1, T-7100 Cnectis IMPORTANT Use a cold water pipe or a ground-driven rod to ensure proper bding. Panel neutral or cduit ground are not acceptable. Use 14 AWG min. wire. Page 18 of 46

NAC #2, CLASS B, STYLE Y (EOL=47K) NAC #1, CLASS B, STYLE Y (EOL= 47K) (-) (+) (-) (+) 4 3 2 1 TB1 NOT USED TRANSFER RELAY CONTROL ALARM DRY CONTACT N/C 5ALARM DRY CONTACT COMMON ALARM DRY CONTACT N/O TROUBLE DRY CONTACT N/C TROUBLE DRY CONTACT COMMON TROUBLE DRY CONTACT N/O SLC #2, CLASS B, STYLE 4 (7100-2 ONLY) SLC #1, CLASS B, STYLE 4 (-) (+) (-) (+) 8 7 6 4 3 2 1 4 3 2 1 TB2 TB3 EARTH GROUND SYSTEM COMMON (-) NON-RESETTABLE B+, 24 VDC @ 0.25A RESETTABLE B+, 24 VDC @ 0.25 A NOT USED COM A (to LCD-7100 TB1-1) COM B (to LCD-7100 TB1-2) 4 3 2 1 4 3 2 1 TB4 TB5 BATTERY (+) TB7 SW1 8 7 5 2 1 ON RST LED7 REC LED1 TB1 4 1 GRN W3 RX1 SUPRV W1 TX1 RS232 P2 BATTERY (-) 4 3 2 1 8 7 6 5 4 3 2 TB1 TB2 1 4 3 TB3 2 1 4 3 2 1 TB4 4 3 2 1 TB5 W1 J1 J3 J10 J4 J2 TB7 F2 ALARM System Trouble Ground Fault TB6 XFMR F1 TB8 TB10 BSM TB6 HOT/BLK GND/GRN NEUT/WHT AC Power ON Supervisory Power Fault ALARM TROUBLE ACKNOWLEDGE ACKNOWLEDGE NAC #1 NAC #2 System Silenced Silenced Silenced SYSTEM SIGNAL RESET/ SILENCE LAMP TEST J8 MENU/BACK BKSP/EDIT OK -QZ 1 GHI 4 PRS 7 < ABC 2 JKL 5 TUV 8 _., 0 1 2 3 4 5 6 7 DEF 3 MNO 6 WXY 9 > 8 TB9 D25 W3 D26 J5 W4 TB9 NEUTRAL GROUND HOT 120 VAC, 60 Hz 2 amp. @ 120VAC, 1 2 3 4 5 6 7 8 DACT LINE 2 RING OUT (TO PHONE) DACT LINE 2 TIP OUT (TO PHONE) DACT LINE 2 RING IN (FROM STREET) DACT LINE 2 TIP IN (FROM STREET) DACT RING OUT (TO PHONE) DACT LINE 1 TIP OUT (TO PHONE) DACT LINE 1 RING IN (FROM STREET) DACT LINE 1 TIP IN (FROM STREET) Fig. 3-2, 7100 Wire Cnectis Page 19 of 46

Table 3-1 7100 Ctrol Standby Battery Calculati Chart Qty Supv. Current Alarm Current Subassembly Descripti 7100-2 Analog/Addressable Ctrol Panel 0.065 0.085 7100-2D Analog/Addressable Ctrol Panel w/dact 0.085 0.105 CAOM Class A Optial Module 0.001 0.001 MCOM Municipal Circuit Optial Module 0.001 0.001 LCD-7100 Remote Serial Ann., LCD Display 0.050 0.075 LDM-7100 Remote LED Driver Module 0.035 0.200* INI-7100 UTP Intelligent Network Interface, Copper Wire 0.040 0.040 INI-7100 FO Intelligent Network Interface, Fiber Optic 0.040 0.040 Total Supv. Current Total Alarm Current Addressable Modules: Analog Addressable Sensors: Notificati Appliances: Auxiliary Power Devices: --- --- --- --- --- --- Misc. Devices: TOTALS: A B C D E F G H Total supervisory current Enter number of standby hours required** Multiply Line A by hours in Line B Total alarm current Enter alarm sounding period in hours (5 minutes = 0.084 Hrs.) Multiply Line D by Line E Add Line C & Line F Multiply Line G by 1.2 to arrive at Total Ampere/Hours required*** NOTE: * With all LEDs and optial sounder energized ** 24 hrs for NFPA 72 Protected Premises or Central stati signaling, 60 hrs for Auxiliary or Remote Supervising Stati Fire Alarm Systems. Factory Mutual requires 90 Hrs standby for deluge/pre-acti systems with 15 minute alarm period. *** Use next size battery with capacity greater than required. (Use ly FCI Model B-7R, B-17R, or B-31R batteries) Page 20 of 46

3.1.2 Intelligent Network Interface (INI-7100) The 7100 BSM Basic System Sub-assembly must be equipped with either an INI-7100 UTP or an INI-7100 FO sub-assembly in order to act as a node the NetSOLO Classic Network. A) INI-7100 UTP The INI-7100 UTP provides terminal block cnectis for a twisted, unshielded pair of wires. Figure 3-3 illustrates typical wiring between nodes. Note the maximum distance of 3,000 feet between each node. Csult Table 3-2 for specific wiring cnectis. 3,000 ft. Between Nodes COM 2A COM 2B CHANNEL 2 CHANNEL 1 CHANNEL 2 CHANNEL 1 CHANNEL 2 COM 1A COM 1B CHANNEL 1 TB1 4 3 2 PREVIOUS NODE 1 TB1 4 3 2 1 TB1 4 3 2 1 INI-7100-UTP NEXT NODE Style 7 Network Fig. 3-3 Table 3-2 Wiring Schedule: INI-7100 UTP INI-7100 TB1-1 (Com 1B) to: INI-7100 TB1-2 (Com 1A) to: Next INI-7100 TB1-3 (Com 2A) or Network Node Next INI-7100 TB1-4 (Com 2B) or Network Node Use n-shielded, twisted pair- 16-18 AWG, 3,000 ft. max. between nodes Page 21 of 46

B) INI-7100 FO The INI-7100 FO adds four (4) standard ST cnectors for fiber optic cable while retaining the ability to accommodate copper wire. Cnecting the INI-7100 sub-assemblies in csecutive order of addressing allows the fastest network communicati. No star cfiguratis or T-tapping the NetSOLO network is permitted. Figure 3-4 illustrates a typical fiber optic network. Csult Table 3-3 for specific fiber optic cable cnectis between nodes. 10 db Loss Max. Between Nodes J7 J6 TB1 4 3 2 1 J7 J6 TB1 4 3 2 1 J7 J6 TB1 4 3 2 1 RX2 TX2 RX1 TX1 RX2 TX2 RX1 TX1 RX2 TX2 RX1 TX1 CHANNEL 2 J4 J1 J4 J1 J4 J1 CHANNEL 1 CHANNEL 2 CHANNEL 1 CHANNEL 2 CHANNEL 1 INI-7100-FO INI-7100-FO INI-7100-FO Style 7 Network Fig. 3-4 Table 3-3 Fiber Optic Cnectis: INI-7100 FO INI-7100 Cnector J1 (TX1) to Next INI-7100 Cnector J7 (RX2) or Network Node INI-7100 Cnector J4 (RX1) to Next INI-7100 Cnector J6 (TX2) or Network Node Fiber optic cable specificatis: Up to 200 micrs (optimized for 62.5 / 125 micrs), Standard ST Cnectors Up to 8 db loss max. between nodes The INI-7100 FO can accommodate both fiber optic cable cnectis and copper wire as shown above. This is useful for applicatis where the NetSOLO network covers multiple buildings. NetSOLO wiring within a building can be run copper wire. Cnectis between buildings can be run fiber optic cable for best protecti against transients and ground fault cditis. See Figure 3-5 for an example of a network using both types of cnectis. Previous Node (if any) First Node Secd Node Next Node Fig. 3-5 NOTICE: The use of fiber optic cable is not permitted in New York City Page 22 of 46

3.1.3 INI-7100 Addressing INI-7100 Switch SW-1 is an 8-positi DIP switch used to address each sub-assembly in the network. Each positi is set to ON to represent a binary zero or OFF to equal a binary One. Do not duplicate addresses. Fastest network communicati is achieved when nodes are addressed in csecutive order. For ease of installati, set the INI-7100 to its network address before mounting it in the 7100 NetSOLO cabinet. Table 3-4 illustrates the switch settings for all addresses. (NOTE: SW-1 is oriented upside down when the unit is installed in the 7100 NetSOLO assembly). = 1 = 17 = 33 = 49 = 2 = 18 = 34 = 50 = 3 = 19 = 35 = 51 = 4 = 20 = 36 = 52 = 5 = 21 = 37 = 53 = 6 = 22 = 38 = 54 = 7 = 23 = 39 = 55 = 8 = 24 = 40 = 56 = 9 = 25 = 41 = 57 = 10 = 26 = 42 =58 = 11 = 27 = 43 = 59 = 12 = 28 = 44 = 60 = 13 = 29 = 45 = 61 = 14 = 30 = 46 = 62 = 15 = 31 = 47 = 63 = 16 = 32 = 48 = 64 64 32 16 8 4 2 1 = ON (up) = OFF (down) Table 3-4 Page 23 of 46

3.2 Intelligent Network Interface, Voice Gateway (INI-VGE) The INI-VGE is the network interface sub-assembly for the INCC-C NetSOLO Voice Command Center. In the INCC, this sub-assembly cnects to the NetSOLO system microphe and Fire Fighter Telephe handset, and supervises and ctrols up to six ANU-48, NGA, or ASM- 16 sub-assemblies. Figure 3-6 shows all cnectis available the INI-VGE and their functis. NOTE: J2, J5, J6 and J8 are omitted the INI-VGE-UTP. CONNECT TO 1st LOCAL ASM-16 CONNECTOR J2 (IN SAME CABINET) CONNECT TO 1st REMOTE ASM-16 TERMINAL BLOCK TB1 (IN REMOTE CABINET) COM 1A (FROM PREVIOUS NODE COM 2A TERMINAL) COM 1B (FROM PREVIOUS NODE COM 2B TERMINAL) COM 2A (TO NEXT NODE COM 1A TERMINAL) COM 2B (TO NEXT NODE COM 1B TERMINAL) NetSOLO CONNECTIONS using WIRE (UNSHIELDED, TW ISTED PAIR) { FROM 7100 PANEL INCC ONLY 24 C O MM O N ( - ) O U T 24 VDC + OUT C O MM O N ( - ) IN VDC + IN SIGNALING LINE CIRCUIT ( - ) SIGNALING LINE CIRCUIT ( + ) To AA AMPLIFIER INI-VGC SLC SUPPORTS: Term s P 3-1, P 3-2** 16 AOM-TEL MODULES (FIRE FIGHTER TELEPHONE CKTS) GRAY JUMPER TO NEXT NODE RX2 CONNECTOR TO NEXT NODE TX2 CONNECTOR FROM PREVIOUS NODE RX1 CONNECTOR FROM PREVIOUS NODE TX1 CONNECTOR NetSOLO CONNECTIONS using FIBER OPTIC CABLE (STANDARD ST CONNECTORS) TX1 RX1 TX2 RX2 { { CHANNEL 1 CHANNEL 2 MICROPHONE CABLE FIRE FIGHTER TELEPHONE CABLE IF FIRE FIGHTER HANDSET CONNECTED TO TB5, USE OF TB5 AS A PHONE RISER TO AOM-TELs IS NOT AVAILABLE NOTE: Remove INI-VGE jumper W5 to enable Phe Riser cnecti to AOM-TELs Fig. 3-6, Typical Cnectis to INI-VGE Cnect a ground wire from the 7100 BSM TB6 ground terminal and the INI-VGE TB3 Terminal 1. The INI-VGE also has e signaling line circuit (SLC) wired Style 4 (Class "B") ly. This SLC supports up to 16 AOM-TEL Fire Fighter Intercom circuits and up to 32 AOM-MUX/AOM-2S dualchannel speaker circuits. ** Cnecti to AA Amplifiers must be in same room, close-nippled or in rigid cduit, not to exceed 20 feet in length. 3.2.1 INI-VGE Series Power Cnectis The INI-VGE serving as the network interface and ctrol unit of an INCC-C Command Center cnects to its operating power via Terminal Block TB2. See Figure 3-6 Table 3-9 INI-VGE Power Cnectis TB2-1 +24 VDC IN - from power supply TB2-2 Comm ( - ) IN - from power supply TB2-3 +24 VDC OUT TB2-4 Comm ( - ) OUT Page 24 of 46

Table 3-5 NetSOLO INI-VGE Power Csumpti Calculati Chart Qty Subassembly Descripti Supv. Current Alarm Current Total Supv. Current INI-VGE Intelligent Network Voice Gateway- Command Center 0.150 A 0.150 A ASM-16 Addressable Switch Sub-assembly 0.011 A 0.011 A ANU-48 Remote LED Driver 0.011 A 0.011 A NGA LCD Annunciator 0.200 A 0.200 A* Microphe Paging Microphe 0.001 A 0.001 A Telephe Fire Fighter's Telephe Handset 0.020 A 0.020 A AOM-TEL Addressable Output Module- Telephe 0.002 A 0.0065 A AOM-MUX Addressable Output Module- Multiplex 0.004 A 0.0065 A AOM-2S Addressable Output Module 0.0003 A 0.0003 A Total: Total Alarm Current NOTE: The total supervisory and alarm currents determined above must be added to the standby battery calculatis for the power supply providing the operating voltage to the INCC-C. Typically this is a 7100 fire alarm ctrol panel. Add 0.003 A for each LED that is programmed to be lit for trouble or supervisory off-normal cditis Add 0.003 A for each LED that is programmed to be lit for alarm cditis * * During power failure, supervisory current is 0.045 A, alarm current is 0.200 A. (Back lighting is extinguished during power failure and operates ly in alarm). Page 25 of 46

Table 3-6 NetSOLO INI-VGE Series Field Wiring Cnectis Terminal Block 1- NetSOLO Network cnecti- using unshielded, twisted pair TB1-1 NetSOLO COM 1A cnecti TB1-2 NetSOLO COM 1B cnecti TB1-3 NetSOLO COM 2A cnecti TB1-4 NetSOLO COM 2B cnecti Terminal Block 2- External Power Cnecti (INI-VGE) TB2-1 24 VDC ( + ) power input from external power supply TB2-2 Negative ( - ) power input from external power supply TB2-3 ( + ) Power Out terminal- wiring terminal ly, not a source of power TB2-4 ( - ) Power Out terminal- wiring terminal ly, not a source of power TB3-1 Earth Ground Terminal Block 4- Power Amplifier and Signaling Line Circuit Cnectis TB4-1 Cnect to AA-100 or AA-120 Amplifier P3 Term. 1** TB4-2 Cnect to AA-100 or AA-120 Amplifier P3 Term. 2** TB4-3 Signaling Line Circuit ( + ), Style 4, Class "B" TB4-4 Signaling Line Circuit ( - ), Style 4, Class "B" Terminal Block 5- Fire Fighter Handset or Fire Fighter Phe riser cnecti (INI-VGE) TB5-1 Fire Fighter Phe ( - ): Plugs into local Fire Fighter Handset- INI-VGE Phe riser field wire cnecti to AOM-TEL Term 3 TB5-2 Fire Fighter Phe ( + ): Plugs into local Fire Fighter Handset- INI-VGE Phe riser field wire cnecti to AOM-TEL Term 4 TB5-3 Ground: Plugs into local Fire Fighter Handset- INI-VGE Phe Riser field wire cnecti to Shield Drain wire TB5-4 Phe Off Hook: Plugs into local Fire Fighter Handset- INI-VGE Terminal Block 6- RS485 Remote Comm. Cnecti to ASM-16 in Separate Cabinet- INCC ly TB6-1 + 24 VDC Supply - cnects to remote ASM-16 TB1-3 TB6-2 RS-485 COM B - cnects to remote ASM-16 TB1-2 TB6-3 RS-485 COM A - cnects to remote ASM-16 TB1-1 TB6-4 System Comm ( - ) cnects to remote ASM-16 TB1-4 Page 26 of 46

Table 3-7 NetSOLO INI-VGE Series Jumpers & Cable Cnectis J1- "E" FNCTNS/RESET Factory use J2- Fiber Optic ST Channel 1 TX1 Cnects to next node RX2 ST cnector J3- RS 485 Local Cnects to 1 st Local ASM-16 Cnector J2- INCC ly J4- SDA/SCL Factory use J5- Fiber Optic ST Channel 1 RX1 Cnects to next node TX2 ST cnector J6- Fiber Optic ST Channel 2 TX2 Cnects form previous node RX1 cnector J7- Repeater Factory use J8- Fiber Optic ST Channel 2 RX2 Cnects from previous node TX1 cnector J15- Microphe Cnectors to microphe cable- INCC ly J16- Signals In/Out Factory use W1- GFI IN for ground fault indicati W2- Terminati Factory Use, must be IN W3- EGND IN to enable earth ground reference circuit W4- Cfig Factory Use, must be installed W5- Handset Enable OUT to enable Local Fire Fighter Handset cnecti IN to enable Phe Riser cnecti to AOM-TELs **NOTE: Cnecti must be in same room, close-nippled or in rigid cduit, not to exceed 20 feet. Table 3-8 NetSOLO INI-VGE Indicating & Diagnostic LEDs LED 1- REC The sub-assembly is receiving network data LED 3- MRC MRC LED 4- DUP DUP LED 5- TX The sub-assembly is transmitting network data LED 6- RX1 The sub-assembly is receiving network data Channel 1 LED 7- RX2 The sub-assembly is receiving network data Channel 2 LED 8- RST RST LED 9- DG DG Page 27 of 46

3.2.2 NetSOLO Classic Network Cnectis The INI-VGE can be cnected to the NetSOLO using an unshielded, twisted pair of wires, fiber optic cable, or a combinati of the two. COM 1A (FROM PREVIOUS NODE COM 2A TERMINAL) COM 1B (FROM PREVIOUS NODE COM 2B TERMINAL) COM 2A (TO NEXT NODE COM 1A TERMINAL) COM 2B (TO NEXT NODE COM 1B TERMINAL) NetSOLO CONNECTIONS using WIRE (UNSHIELDED, TWISTED PAIR) TO NEXT NODE RX2 CONNECTOR TO NEXT NODE TX2 CONNECTOR FROM PREVIOUS NODE RX1 CONNECTOR FROM PREVIOUS NODE TX1 CONNECTOR NetSOLO CONNECTIONS using FIBER OPTIC CABLE (STANDARD ST CONNECTORS) TX1 RX1 TX2 RX2 { { CHANNEL 1 CHANNEL 2 NOTE: Cnectors J2, J5, J6 and J8 are omitted the INI-VGE-UTP Figure 3-8 Table 3-10 NetSOLO Network Wire Terminatis TB1-1 COM 1A To next node's TB1-3 (COM 2A) TB1-2 COM 1B To next node's TB1-4 (COM 2B) TB1-3 COM 2A From previous node's TB1-1 (COM 1A) TB1-4 COM 2B From previous node's TB1-2 (COM 1B) Use 16-18 AWG unshielded, twisted pair up to 3000 feet (915 m) between nodes Table 3-11 NetSOLO Network Fiber Optic Cable Cnectis (INI-VGE Only) ST Cnector J2 Channel 1 TX1 To next node's ST Cnector J8 (RX2) ST Cnector J5 Channel 1 RX1 To next node's ST Cnector J6 (TX2) ST Cnector J6 Channel 2 TX2 From previous node's ST Cnector J5 (RX1) ST Cnector J8 Channel 2 RX2 From previous node's ST Cnector J2 (TX1) Fiber optic cable: up to 200 micrs (optimized for 62.5/ 125 micrs) Up to 8 db loss max. between nodes NOTICE: The use of fiber optic cable is not permitted in New York City Page 28 of 46

TX1 TO NEXT NODE RX2 CONNECTOR RX1 TO NEXT NODE TX2 CONNECTOR TX2 FROM PREVIOUS NODE RX1 CONNECTOR RX2 FROM PREVIOUS NODE TX1 CONNECTOR NetSOLO CONNECTIONS using FIBER OPTIC CABLE (STANDARD ST CONNECTORS) 8 db Loss max. NetSOLO CONNECTIONS using WIRE (UNSHIELDED, TWISTED PAIR) TX1 { CHANNEL RX1 TX2 { CHANNEL RX2 3000 Feet COM 1A (FROM PREVIOUS NODE COM 2A TERMINAL) COM 1B (FROM PREVIOUS NODE COM 2B TERMINAL) COM 2A (TO NEXT NODE COM 1A TERMINAL) COM 2B (TO NEXT NODE COM 1B TERMINAL) Figure 3-9 Figure 3-9 Page 29 of 46

3.2.3 INI-VGE Signaling Line Circuit This sub-assembly, provides e Style 4 (Class B) Signaling Line Circuit (SLC). Up to 16 AOM-TEL Fire Fighter Intercom circuits and 32 AOM-MUX/AOM-2S Dual-Channel Speaker circuits can be cnected to this SLC. INI-VG SLC SUPPORTS: 32 AOM-MUX/AOM-2S MODULES (DUAL CHANNEL SPKR. CKTS. & 16 AOM-TEL MODULES (FIRE FIGHTER TELEPHONE CKTS) AOM-MUX/AOM-2S STYLE 4 (CLASS "B") ONLY } SLC ( - ) SLC ( + ) } NOT USED AOM-TEL Fig. 3-10 INI-VGE Signaling Line Circuit Specificatis: 24 VDC nominal, power-limited and supervised 40 ohms max. wire resistance 0.5 uf max. circuit capacitance 0.070 amp max. current Use twisted unshielded wire, 18 AWG min. Page 30 of 46

3.2.4 INI-VGE Fire Fighter Intercom Riser Cnectis This sub-assembly provides a phe riser circuit Terminal Block TB5, Terminals 3 & 4 that cnect to AOM-TEL/AOM-2S Fire Fighter Phe circuit Terminals 3 & 4. Up to 16 AOM-TEL/AOM-2s can be cnected to each INI-VGE phe riser. The INI-VGE uses Terminal Block TB5 Terminals 1 & 2 to cnect to the main Fire Fighter handset located in the INCC cabinet. IMPORTANT: Install an RC Filter, P/N 1120-0810, in each warden stati or telephe jack being mitored by the AOM-TEL. Refer to FCI Publicati 9000-0405, Figure 2-33, for wiring detail s. 3.9K RC Filter 22 uf 1k (Red) (Blue) Phe Riser Specificatis 24 VDC (open circuit) Current 0.237 amp. max. 0.750 amp. (short) 40 ohms max. line resistance 0.5uF max. circuit capacitance Use twisted, shielded pair, 18 AWG. 22 uf 1k (Red) (Blue) INI-VGE Signaling Line Circuit provides e Style 4 (SLC) that can support up to 16 AOM-TEL modules. The first e is used for supervisi of the audio riser. AOM-TEL 9 5 6 7 8 9 0 4 8 3 1 2 10 7 2 9 5 6 7 8 6 3 4 3 5 2 4 10 Supervises telephe line to floor AOM-TEL. Also creates a Class A phe riser 3.9K Supervisory AOM-TEL AOM-TEL 9 8 7 6 5 9 5 6 7 8 4 3 2 10 9 5 6 7 8 4 3 2 10 0 1 2 3 4 INI-VGE Signaling line Circuit Specificatis 24 VDC nominal, power-limited, supervised 40 ohms max. wire resistance 0.5 uf max. circuit capacitance 0.070 A max. current Use twisted, unshielded wire, 18 AWG (SLC -) (SLC +) TB-4 4 3 2 1 TB-5 4 3 2 1 Fig. 3-11 Page 31 of 46

3.2.5 INI-VGE Cnectis to Remote ASM-16 Sub-assemblies An INI-VGE installed in an INCC-C Command Center assembly can support up to 16 ASM-16 programmable switch sub-assemblies. The INCC-C cabinet has space for up to six ASM-16 sub-assemblies (three if a microphe and fire fighter handset are included). INI-VGE TB6 provides a hardwire cnecti between the INI-VGE and any ASM-16 mounted in a different cabinet. ASM-16s mounted in the same cabinet as the INI-VGE can be cnected directly by a ribb cable (see Secti 2.5.3). Table 3-12 INI-VGE to Remote ASM-16s TB6-1 (+ 24 VDC) TB6-2 (RS-485 COM B) TB6-3 (RS-485 COM A) TB6-4 (Comm) 1 st Remote ASM-16 TB1-3 1 st Remote ASM-16 TB1-2 1 st Remote ASM-16 TB1-1 1 st Remote ASM-16 TB1-4 TO 1st REMOTE ASM-16 TB1-4 (Comm) TO 1st REMOTE ASM-16 TB1-1 (RS-485 COM A) TO 1st REMOTE ASM-16 TB1-2 (RS-485 COM B) TO 1st REMOTE ASM-16 TB1-3 (+ 24 VDC) CONNECT TO 1st REMOTE ASM-16 TERMINAL BLOCK TB1 (IN EACH REMOTE CABINET) INCC ONLY Fig. 3-12 3.2.6 INI-VGE Earth Ground Cnecti Cnect INI-VGE TB3 to earth ground for full protecti against transient voltages and power surges and to cform to the Natial Electric Code, NFPA 70, Article 760. IMPORTANT Use a cold water pipe or a ground-driven rod to ensure proper bding. Panel neutral or cduit ground are not acceptable. Use 14 AWG min. wire. Page 32 of 46

3.2.7 INI-VGE Series Addressing Use INI-VGE DIP Switch SW-1 to set the address the sub-assembly will occupy the NetSOLO network. Do not duplicate addresses with other sub-assemblies the network. For fastest communicati between nodes, set the addresses in csecutive order. = 1 = 17 = 33 = 49 = 2 = 18 = 34 = 50 = 3 = 19 = 35 = 51 = 4 = 20 = 36 = 52 = 5 = 21 = 37 = 53 = 6 = 22 = 38 = 54 = 7 = 23 = 39 = 55 = 8 = 24 = 40 = 56 = 9 = 25 = 41 = 57 = 10 = 26 = 42 =58 = 11 = 27 = 43 = 59 = 12 = 28 = 44 = 60 = 13 = 29 = 45 = 61 = 14 = 30 = 46 = 62 = 15 = 31 = 47 = 63 = 16 = 32 = 48 = 64 64 32 16 8 4 2 1 Table 3-13 Page 33 of 46

3.3 AA-100 and AA-120 Power Amplifiers A) AA-100 Audio Amplifier The AA-100 audio amplifier provides up to 100 watts of power. Two outputs are provided, e at 70.7 VRMS and the other at 25 VRMS. The power taken from these outputs combined must not exceed 100 watts total. A four-wire high level output/return circuit must be employed. Cut R-100 to enable output wiring supervisi in the AA-100. Use ly the 70.7 V output, which must be supervised. B) AA-120 Audio Amplifier The AA-120audio amplifier provides up to 120 watts of power. Use ly the 70.7 V output. The power taken from this output must not exceed 120 watts total. A four-wire high-level output/return circuit must be employed when output wiring supervisi is required. Cut R-100 to enable output wiring supervisi in the AA-120. C) Trouble Ctacts Trouble ctacts the amplifiers close to report problems with audio input wiring, brown out, batteries, output wiring, or the amplifier itself. Trouble ctact wiring must not leave the cabinet, and is mitored via an AMM series input mitoring module. D) Backup Amplifiers Only an AA-120 may be used as a backup amplifier for e or more AA-100 and AA-120 amplifiers. In the event of an amplifier failure, backup amplifier switching is automatic. When e backup amplifier is serving multiple primary amplifiers, ly e primary amplifier failure will be supported. Individual LEDs signal each source of trouble to aid in troubleshooting. The supervisi of the backup amplifier output is de through the four-wire return circuit the backup amplifier. The high-level backup input the AA-100 or AA-120 must be 25 VRMS ly. Use output wiring supervisi whenever high-level audio amplifier output leaves the cabinet. E) Cabinet Mounting The AA-100 and AA-120 mount directly in the DR series cabinets, e amplifier per tier. Primary (AC) and secdary (24V battery) power source cnectis must be made to each amplifier. Some external listed means of charging the batteries (such as a CHG-120 charger) must be used. Page 34 of 46

3.3.1 Primary and Secdary Power requirements for the AA-100 and AA-120 Audio Amplifiers Primary power required for the AA-100, and AA-120 Amplifiers is 120VAC. Secdary power (24 VDC battery) cnectis must be made at the designated terminals shown in Figure 3-13. Secdary power may be obtained from any source of 24 VDC that is Listed for fire alarm signaling and has sufficient alarm and standby capacity (, etc.). Use Table 3-14 to calculate amplifier secdary (battery) power requirements. Table 3-14 AA-100/AA-120 Amplifier Standby Battery Calculati Chart Qty Supv. Current Alarm Current Subassembly Descripti AA-100 AA-100 Primary amplifier 0.050 A 7.3 A AA-120 AA-120 Primary amplifier 0.050 A 7.3 A AA-120 AA-120 Back up amplifier 0.050 A 0.30 A Additial current csuming devices powered from the power supply Total Supv. Current Total Alarm Current TOTALS: A Total supervisory current B Enter number of standby hours required 24 C Multiply Line A by hours in Line B D Total alarm current E Enter alarm sounding period in hours ** (0.25 hr) F Multiply Line D by Line E G Add Line C & Line F H Multiply Line G by 1.2 to arrive at total ampere/hours required*** NOTE: For Emergency Voice/Alarm Communicati service, the system shall be capable of operating for 24 hours under a maximum normal load and then operating during an alarm cditi for a period of 2 hours. Fifteen (15) minutes of evacuati alarm operati at maximum alarm load shall be csidered the equivalent of 2 hours of alarm operati. Use next size battery with capacity greater than required. Maximum alarm current from 31 AH batteries must not exceed 9A. Maximum alarm current from 55AH batteries must not exceed 20A. Page 35 of 46

3.3.2 Amplifier Cnectis Figure 3-13 Amplifier Cnectis Upper and lower Boards Note: The low-level input and high-level output "P" cnectors are primarily for in-cabinet applicatis where the wiring to or from the amplifier remains in the same cabinet. For "multiplecabinet" applicatis, hardwire the systems using terminal blocks P3 and P8. When more than e cabinet is required, cabinets must be mounted adjacent to each other and all intercnecting wiring must be installed in cduit. Note: Cut resistor R100 to enable high-level audio output wiring supervisi. Output supervisi is always required in the AA-100. This opti is ly required in the AA-120 when output wiring leaves the cabinet. Note: If the amplifier is being used in stand-ale mode (no cnecti to an INI-VGE) where the backup te generator is being used, R107 must be cut to prevent the amplifier from generating a trouble cditi. The amplifier will indicate trouble within 90 secds. See Figure 3-13. NOTE: Cnectis between amplifiers are supervised against opens, shorts and grounds. However, all these cditis will be displayed as Power amp. short. Page 36 of 46

Figure 3-13 Stand Ale Operati 3.3.3. Adjusting Audio Gain Level A multi-positi rotary switch allows the installer to adjust the gain of the audio output signal to compensate for audio line losses. After correct adjustment, the audio amplifier will produce its maximum rated output power. See Figure 3-14 To adjust: After complete installati of all amplifiers and associated circuitry, with the low-level audio input to the amplifier set for normal standby, use a small slotted screwdriver to positi the rotary switch until the NORMAL LEVEL LED is lit and the INCORRECT LEVEL LED is off. At this point, the audio gain is properly adjusted. NOTE: Ensure that a 470-ohm impedance matching resistor has been installed the last amplifier (P3 Terminals 1 and 2). Failure to do so will result in calibrati difficulty. Figure 3-14 Page 37 of 46