Tyco 4100U manuel d'utilisation
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Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Tyco 4100U, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.
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Table des matières du manuel d’utilisation
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Fire Australian Installation Manual 4100U Fire Indicator Panel Fire Alarm System, Installation & Maintenance A ustralian Installation & Maintena nce Manual LT0350[...]
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i 2004 Tyco Safety Products Westminst er, Westminster, MA 01441- 0001 USA. All specificatio ns and other informati on shown we re current as of document revision da te, and are subject to ch ange wi thout notice. Tyco, Simplex, the Simplex logo, MAPN ET II, IDNet, T rueAlarm, Sm artSync, WALKTES T, MINIPL EX, and Tru eAlert ar e trad emarks of [...]
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ii Tyco (THE COMPANY) and the User of t h is/these document(s) desire to share proprietary technical informati on c oncerning electronic systems. For this reason the company is disclosing to the User informatio n in the form of this/these document(s). In as much as the com pany cons iders this information to be proprietary and desires that it be ma[...]
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iii This manual applies to product with th e following: Model number : 4100U Firmware re vision : 11.08 and on Document Name : LT0350 4100U Installation & Maintenance Manual Cross Referen ce : 574-848 4100U In stallation Manual (USA) Issue : 1.0-G 14 May, 2004 14 May, 2004 Issue 1.0.6 Original based on 574-848 Rev G Model Number & Firmware [...]
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iv READ AND SAVE THESE INSTRUCTIONS. Follow the instructions in this installation m anual. These i nstructions m ust be followe d to avoid dam age to this product and associated equipment. Product operation an d reliability depends upon proper installation. DO NOT INSTALL ANY SIMPLEX ® PROD UCT THAT APPEARS DAMAGE D . Upon unpacking your Simplex p[...]
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v Copyrights and Trademarks ................................................................................ i Approvals ............................................................................................................. i Manufacture .........................................................................................................[...]
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vi 4100U PIDs ..................................................................................................... 1-9 Overview ...................................................................................................... 1-9 Assemblies, Cards & & Modules ................................................................. 1-9 Kits .[...]
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vii Step 6. Installing LED/Switch Modules into Expansion Ba ys (4100U) .......... 2-20 Overview .................................................................................................... 2-20 The LED/Switch User Interfac e ................................................................. 2-21 LED/Switch Cont roller Ca rd .................[...]
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viii Local Mode Specif ications ........................................................................... 4-5 LEDs ............................................................................................................ 4-6 Card Specific ations ...................................................................................... 4-6 MINIPLEX[...]
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ix Wiring Illust rations ..................................................................................... 5-17 Wired Media, St yle 7 Wiri ng ..................................................................... 5-17 Fiber Optic, St yle 7 Wiri ng ........................................................................ 5-18 Wired Media and Fiber[...]
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x SPS Auxiliary Powe r Wiring ............................................................................ 7-8 Overview ...................................................................................................... 7-8 Guidelines .................................................................................................... 7-8 Wiring [...]
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xi Chapter 9 PC Softwa re Connect ions ........................................ 9-1 Introduction .................................................................................................. 9-1 In this Ch apter ............................................................................................. 9-1 Software Mo des ...................[...]
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xii Appendix A The Device Confi guration DIP Switch ..................A-1 Overview ......................................................................................................A-1 Appendix B Programming Requirement s ................................B-1 Introduction ...........................................................................[...]
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xiii Appendix G Compatib le Batteri es............................................ G-1 Appendix H 4100U Sp ecifications .............................................H-1 General ....................................................................................................... H-1 Fuses ...........................................................[...]
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xiv Figure 1-1. Standalon e 4100U Sy stem ........................................................... 3 Figure 1-2. MINI PLEX 4100U Sy stem ............................................................ 5 Figure 1-3. Hub/Ri ng Configur ation ................................................................ 6 Figure 1-4. Interconne cted Loop Confi gura[...]
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xv Figure 8-2. Mounting onto the Po wer Distribution Interface......................... 8-4 Figure 8-3. Mounting into 4100 (legacy) Bay ............................................... 8-5 Figure 8-4. DIP Switch SW1......................................................................... 8-6 Figure 8-5. Cla ss A Wiring ..............................[...]
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xvi[...]
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1-1 The 4100/4100U is an exp andable fire alarm system that can be used as a standalone system with one host panel, or as a wide-ranging system with several remote cabinets, with or without multiple ho st panels. This chapter is an overview of standalone, MINIPLEX, a nd network 4100 system concepts. Refer to the page number l isted in t his table f[...]
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1-2 The 4100U is a vailable as a standal one system with one host panel , or as an e xpansive system with several remote back boxes, with or without multiple host panels. The type of configuration used depends on the size of the site into which it is being installed. The following types of configurations are offered : Standalone. Comprised of one F[...]
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1-3 The standalo ne version of the 4100U i s used for sm aller or singl e-building applications. A standalone system is ideally placed int o a sm all buildi ng that requir es a limited number of notification appliances and initiating devices. If a smal l building is bei ng expanded, o r if other b uildings are bei ng construct ed in the same genera[...]
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1-4 The MINIPLEX version of th e 4100 Fire Al arm System , which is desi gned for moderately larger applications than th e stan dalone configuration, allows up to 1000 monitor and/or contro l points and 2000 annunciator po ints to be contro lled by a single FACP. Like the standalone system , only one CPU is used. Remote Unit Interface (RUI) data, a[...]
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1-5 The 4100 internal comms bus may be used to carry data from the CPU in the main cabinet to expansion e quipm ent in a co-located ca binet. 410 0 data from the CPU ma y be routed t o remote cabinets (RTUs) in a MINIPLEX system by using the external RUI comms bus. An RUI line, routed fr om eith er the CPU Mothe rboard in the 4100U, or the R UI car[...]
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1-6 The 4100 can be expanded to a network syst em by using network inter face cards (NICs) . When a NIC is installed in to a 4100 host panel, it is used to connect to o ther network nodes. Nodes ma y consist of other host 4 100 pa nels, or they may be completely different: Graphical Com mand Cent ers (GCCs), an d Vi sual Command Centers (VCCs) are [...]
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1-7 Network loops can be joined via physical bri dge cards. There m ay be no more than two Style 7 network loops (two hub configu rations) connected in tand em. For every two loops that are interconnected (using one physical bridge), t here can be a maxim um of three physical bridges used in a st ar configur ation. See Figu re 1-4. Remote Loop Phys[...]
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1-8 The following is a list of existing 4100+/A cards and modules that may be u sed with 4100U. • 4100-5004 8 A ZF Monitor Zo ne • 4100-0113 Dual RS 232 Modem Interface • 4100-0110 MAPNET 2 A ddressable Loop • 4100-300 3 8 Rela y Module • 4100-4321 6 S upervised Re lays • 4100-302 4 24 Relay Module • 4100-0302 24 I/O Module • 4100-0[...]
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1-9 This section lists all cabinet (back box) PIDs for the 4100U Fire Alarm System . Empty cabinets with Doors (Cream Wrinkle)/ Number of bays Number of bays that can be fitte d: • ME0447 18 U x 210 Rac k Cabinet, Window D oor : 1-Bay • ME0268 21U x 310 Ra ck Cabinet, Window Door : 1-Bay • ME0255 28U x 310 Ra ck Cabinet, Window Door : 2-Bays [...]
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1-10 • 4100-0625 Transponder Interface Card • 4100-0160 Internet Inte rface Module (566- 355). • 4100-9848 AU System Powe r Supply, Austra lian version. • ME0456 Fan Control Module The following kits are available: • KT0419 A4 Document Holder , Stick-On, 3U Hi gh, Grey • KT0446 4100U Expa nsion Bay • KT0447 Expansion SPS, Ba y Mountin[...]
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2-1 4100U cabinets are available in one-, t wo-, and three-bay sizes. Each can be equipped with a solid or perspex door. This c hapter describes how to m ount all typ es of 4100U cabinets to a wal l, and how to m ount system card bays i nto the cabinets , modules to bay s, etc. FACPs are assembled to order within the fact ory. Steps 2 to 6 below a [...]
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2-2 4100U FACPs cabinets contain th e CPU, ope rator interface, sy stem power supply (SPS), backup batteries, a nd any addit ional modules that the panel req uires. The FACP is t he central hub (often refer red to as a host panel) of a standalone or MINIPLEX fire alarm system. In a networke d system, the FACP c an be connecte d to other system FACP[...]
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2-3 Introduction to FACPs (4100U), Continued The 4100U Master motherboar d th at houses the CPU card is central t o the 4100U system. It mounts in the first bay, occ upying four inches of space on the right hand si de. Neither has a card addr ess DIP switch (the CPU is ad dress 0). Figure 2-1. Master (CPU) Motherboard (566-22 7) Continue d on next [...]
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2-4 The master controller daughter card m ounts on to the mast er moth er boar d. Th e mas ter controller daughter ca rd contains a service port , a direct drive user interface connection, and a port for a service modem . MODEM 2 LED1 LED2 LED3 SERVICE PORT DISPLAY CPU CARD BD ASSY 566-149 BA T ON BA T OFF Figure 2-2. Master Controller Daughter Car[...]
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2-5 The master controller daughter card LEDs indi cate B ootloader status as shown in the table below. Table 2-1. Master Controller LEDs 1 through 4 Status Condition LED4 LED3 LED2 LED1 Bootloader Initialization On (0.25s), Off (0.25s) On (0.25s), Off (0.25s) On (0.25s), Off (0.25s) On (0.25s), Off (0.25s) Bad Master CRC or No Master Present On Off[...]
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2-6 The operator interface lets a user ope rate the panel. It provides alarm , trouble, and is olate status alerts, an d lets the user review histo rical logs and perform diagnostics. Figure 2-3. Operator Interface The CPU bay c an be equi pped with m any additional types of m odules. The car ds listed below are limited to the CPU bay only. 4100-60[...]
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2-7 In the USA, a number of variants of powe r su pply are available, e. g. SPS, RPS, XPS, XCharger each with different port ions of ci rcuitry (eg NACs, Battery Charger, IDNet) fitted or not fitted. In Australia, only one va riant (SPS) is currently av ailable, and it has hardware and software t hat are specific to Aust ralia. This unit is used as[...]
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2-8 The FACP is powered by the SPS (System Power Supply), whic h gets its primary power from the AC mains and its seco ndary power from the backup batteries. The 24Vdc bulk power on the SPS is unregulated, and is divided i nto three feeds, i.e. 24V Card, 24V Signal, and 24V Aux Power. 24V Card which supplies the cards, an d Aux power, which i s acc[...]
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2-9 The importa nt aspects of m ounting the ca binet are: Access for the operator; Height of di splays and c ontrols; Free space for door opening; Cable entry for field wiring. Refer to AS1670 for the height requ irem ent and minim um access requirements. In general, 18U – 28U ca binets will need to be wall m ounted. Mounting holes and ca binet d[...]
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2-10 The CPU, SPS , and all othe r modules t o be mounted i n the FACP ca binets m ust be configured to operate correctly in the system via their DIP switch and jumper ports. This section describes the h ardware configuration fo r the CPU and SPS, since they will always be used in the CPU bay. The CPU motherboard must be jum pered as follows: P9 de[...]
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2-11 P4/P5 : The PD I can be confi gured to dra w its power from differe nt sources via P4 and P5. • To draw powe r from an XPS on the PDI, set jumpers on P4 an d P5 to posi tion 2 – 3. • To draw powe r from P1 (f rom the pre vious PDI o r SPS), set jum pers on P4 and P5 to position 1 – 2 (default) . • To remove power from the PDI, remove[...]
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2-12 Use the following directions to connect the CPU to the SPS and oth er motherboards. 1. Connect P3 on the SPS to P1 on the C PU motherboard using the 8 wire harness with eight-position Molex minifit conn ector (provided). 2. Make sure the 10 way, ri ght angle hea der, connect or P3 on the CP U is secured to J1 on the next motherboard to the lef[...]
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2-13 Figure 2-7, bel ow, shows the interconnections between three bay s in a host pa nel. 4100 POWER DISTRIBUTION INTERFACE ASSY 566-084 4100 POWER DISTRIBUTION INTERFACE ASSY 566-084 Figure 2-7. Bay-to-Bay Interconn ections Panels with m otherboards o n the left side of the expansi on bays re quire some no n-PDI connections. I f you need to c onne[...]
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2-14 2. Connect the other end of the harness to t he leftmost motherboard in t he next bay, as described below. Make sure to rout e the wirin g on the left side of the bay. • Insert the harness connector with the b lue wire into the P2 connector. Note that the P2 connector has eight pins. In sert the ha rness connector on either the top four pins[...]
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2-15 This section co ntains guidelin es and instructions on installing 4”x 5” cards and traditional motherboards into 4100U card bays. IMPORTANT: This section applies to aftermarket mo dules for expansion bays only. If you do not need to install any aftermarket modules at all, and if you have followed Steps 1 through 6, you have complete d the [...]
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2-16 • Motherboards can be inst alled on top of the PDI in expansi on bays. The data and power that w ould norm ally be bussed via the PDI is i nstead routed across the boar ds via ribbon ca ble from one board to the next. • Up to eight 2” (51 mm) x 1 1 ½” (292 mm ) motherboards can be install ed in an expansion bay if no 4”x 5” module[...]
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2-17 • As shown i n the figure bel ow, motherb oards can be install ed alongside 4”x 5” cards, i f necessary. No Boards Allowed in This Slot PDI Expansi on Power Supply (XPS) I/O Wiring I/O W iring I/O Wiring 4100 Option 4100 Option 4100 Option Slot 1 Slot 2 Slot 3 Slot 4 Positio n 5 Position 6 Position 7 & 8 Block E Slots 7 + 8 Block F T[...]
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2-18 The power distribution interfa ce (PDI) is mount e d to the back of each expansion cabinet. The PDI contai ns slots fo r up to eight 4”x 5” slave cards. Since the PDI carries powe r and data across the entire bay, it solves most interconnectio n issues, especially between 4”x 5” cards. Use the follow ing instructio ns and the figu re b[...]
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2-19 Use the following procedure when installin g motherboards in an expansion bay. Start with the second slot from the left and fill to the right. The mounting item s are available as KT0468. 1. Orient th e motherboard w ith the connector labeled J1 on the righ t and the header labeled P1 on the left. 2. Attach four metal thread ed standoffs and l[...]
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2-20 The LED/switch user interface consists of a va riety of modules, mounted to the front of an expansi on bay, which a re configure d via the 410 0 Program mer. Each displ ay module contains betwe en 8 and 24 sw itches and LEDs, e ach one separately configurable. User interface functionality is driven by the 64/64 LED/Switch Controller Card, whic[...]
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2-21 Below is an illustration of a LED/switc h bay from the user’s persp ective. Figure 2-14. LED/Switch Modules The LED/switch controller card is a 4100 slave th at mounts behind two LED/switch modules. The LED/switch c ontroller ha ndles up t o 64 swit ches and 64 L EDs on the modules and c ommunicates thei r status to the 4 100 CPU. Whe n a bu[...]
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2-22 If more than 6 4 LEDs or 64 s witches are use d, a second co ntroller ma y be installed. LED 1. This LED illuminates if communicatio n loss between the controller an d the CPU occurs. It is i ndependent of jumper P 1 (which con figures di fferent com municati on loss features). All types of modules are mounted to the front of a bay, and are co[...]
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2-23 Refer to the figure below to mount the disp lay cards to the front of the expansion box. Figure 2-16. LED/Switch Card Mounting Continue d on next page Step 6. Installing LED/Switch Modules into Expansion Bays (4100U), Continued Mounting LED/Switch Modules to the Expansion Bay #6 UNC NUTS GROUND CONNECTION ADDITIONAL LED/SWITCH CONTRO LLER GROU[...]
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2-24 Refer to the fi gures and i nstructions bel ow to m ount the controll er card assem bly to the back of one of the LED/switc h cards. 4. Use four 322-123 N uts and fo ur 268-009 Washers to secure the 637-141 Bracket to the inside front of the expansion box. Note that there are only two locations where the brac ket can be m ounted, as show n in [...]
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2-25 Figure 2-18. Assembling / Disassem bling the LED Display Card User interface wiring consists of connec ting the LED/switch cont roller card to the expansion bay’s power distribution interface (P DI), and connecting display cards to each other. This sect ion describes both proced ures. Continue d on next page Step 6. Installing LED/Switch Mod[...]
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2-26 The following directions are complete instructio ns on interconnecting disp lay cards and connecting the controller card to a power source. 1. Use Harness 734-008 t o connect P2 o n the control ler card t o one of t he 4-pin connectors on the PDI. 2. If t here are multiple controller cards, use Harness 734-036 to connect P3 on the controller c[...]
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2-27 The 4100-0632 Terminal Block Utility Module is an all-purp ose terminal block that mounts to an expa nsion bay, above or below the power distribution interface (PDI). Ea ch module utilizes one block of mounting spac e. The terminal block utility module has two 16-p osition te rminal blocks that accept up to a maximum of 12 AWG ( 3.309 mm 2 ) w[...]
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2-28[...]
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3-29 4100 host panel and remote locations. This ch apter describes the transponder installation procedure fo r all MINIPLE X sy stems in non-4100U systems. Refer to the page number l isted in t his table fo r informat ion on a specific t opic. Topic See Page # Introductio n to MINIPLE X System s (Non-410 0U) 3-30 MINIPLEX System Compone nts (Non-41[...]
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3-30 The 4100 MINIPLEX Fi re Alarm System uses transponder cabinets containing remote interface cards (RICs) to extend pow er and communication across large areas. MINIPLEX transponders allow the system to provide application s for up to 1000 monitor and/or control points and 2000 annunciator points (see note). Using 4100- style serial communicat i[...]
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3-31 Seventh floor Sixth floor Fifth floor Fourth floor Third floor Second floor First floor Speaker NAC TrueAlarm sensors and MAPNET II addressable circuits RUI communications wiring, twisted, shielded pair Audio riser wiring, twisted pair Legend: MINIPLEX transponder with solid door MINIPLEX transponder with LED/switch modules on door panel FACP [...]
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3-32 The 4100 MIN IPLEX system i s comprised of a host panel cont aining ever ything requi red in a standalone cabinet (see Chapt er 2), pl us: • An RUI module in t he master cont roller bay • One or more rem ote MINIPLEX t ransponde r cabinets • A RIC II card in each t ransponder ca binet This section describes each component in turn. The RU[...]
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3-33 Remote interface cards (RICs) in the trans ponder cabinets a llow for data, powe r, and audio interconn ections between th e 4100 host panel and rem ote locations. They support RUI connectio ns in Style 4 a nd Style 7 wiri ng configurat ions. TB2 LED1 TBL +COMM PRIM +COMM PRIM -COMM -COMM +COMM +COMM 24C 24C PIEZO CTRL LED CTRL PTT+ PTT - SHLD[...]
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3-34 The rules on this pa ge apply exclusively to MINIPLE X systems. Review each guideline before installing a MINIPLEX 4100 system. • The Style 4 RUI card supports MINIPLE X transponders and 4602/4603 serial annunciators on th e same signaling line circuit. • Up to 4 RUI cards in the 4100 Control Panel can be used for distributing transponder [...]
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3-35 This section co ntains guidelin es and instructions for mounti ng the RUI an d RIC II modules into 4100 cabinets . • The RUI motherboard mounts into the CPU bay or, if necessary, a n expansion bay. • The RIC II mounts i nto expansi on bays only. Review the fol lowing guideli nes before inst alling a motherboa rd into a cabi net. • If a p[...]
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3-36 The RIC II motherboard is installed into a remote transponder cabi net. Review the following guidelines b efore mounting RIC II motherboard. • If a power supply is installed in the bay, it must be installed on th e far right of the bay and a ny relay m odules must be insta lled in the sl ots imm ediately to its left. • Relay cards must be [...]
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3-37 If you need to connect a 733-525 Harness to a motherboard, refer to Figure 3- 6 and follow these steps. Make sure to route the power an d communicati on wiring on the left side of the bay. 1. Connect one end of the har ness to a m otherboard in an adjacent bay. If the adjacent bay is a m aster controller ba y, connect the harness to the P2 and[...]
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3-38 RIC II (565-233) TO 24 VDC (OPTIONAL) UNIVERSAL POWER SUPPL Y Figure 3-6. Power and Communication Wiring for the Tra nsponder Cabinet (4100) Installing Modules into Cabinets (Non-4100U), Continued Connector with Blue Wire Goes to P2 Connector with White Wire Goes to P3 733-525 Harness RIC II (565-233) 733-672 Harness[...]
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3-39 The RIC must be connected to t he host pane l via RUI cabl ing. This section e xplains how to wire the two together, and how to set up a system with multiple transpon ders connected to the same ho st panel. RUI cabling ca n be accom plished either thro ugh Class A or Class B wirin g. Class A wirin g allows transpo nder cabinets to communicate [...]
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3-40 The illustration below applies to Class A and Class B wiring. 4100 MINIPLEX MASTER RIC 11 565-233 MINIPLEX TRANSPONDER 562-856 W/565-217 COMMS "A" 81 COMMS "B" RUI T B 1 T B 1 RIC 11 565-233 MINIPLEX TRANSPONDER 81 T B 1 Figure 3-7. MINIPLEX Wiring Notes: 1. Power wiring is not shown. Con nect the RIC II card to the UPS or [...]
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4-1 MINIPLEX transponder interface cards (TIC s) allow for data and po wer interconnections between the 4100 ho st panel and remote locations . This chapter describes the tran sponder installation procedure for 4100U MINIPLEX systems. Refer to the page number l isted in t his table fo r informat ion on a specific t opic. Topic See Page # Introducti[...]
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4-2 The 4100U MINIPLEX system is comprised of a host p anel containing everyth ing required in a st andalone cabi net (see Chapter 1), plus: • One or more rem ote MINIPLEX t ransponde r cabinets • A transponder interface card (TIC) in each transponder ca binet This section describes each component in turn. RUI Communication wiring from the RUI [...]
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4-3 The local mode TIC contains an R UI input, po rt for connec ting to other transponder modules, and terminal block for connecting to an optional Local Mode Co ntroller. Local Mode Contr ollers are m ounted rem otely from the transponder. Inst allation inst ructions a re supplied with the controller. Local mode op eration allows a TIC to provi de[...]
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4-4 TB1 CH2 SEC- SEC+ SHLD PRI- PRI+ CH1/DAR SEC- SEC+ SHLD PRI- PRI+ 16 15 2 LED1 CH2 LED2 CH1/DAR 1 SEC 1 TB3 TB2 1 P2 1 TB1 2 1 SEC 2 DAR CHANNEL OUT NAA IN NAA OUT NAA VOLUME R4 SW1 LED1 LED2 LED3 LED4 DAR GROUND FAUL T SEARCH ACTIVE PDI RECEIVE ENABLE PRIMARY RECEIVE SECONDARY RECEIVE DIGITAL RISER ON-ENABLE NAA 1 2 3 4 SW2 LSB MSB 1 2 3 4 LIN[...]
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4-5 Local mode is supported by the following: • 4100-3101 /3104/3105 IDN et Card • 4100-5101 /5102/5103 Expansion Power Supply NA Cs (including TrueAlert Non-Addressable SmartSync applianc es) • 4100-5111 /5112/5113 System Power Supp ly NACs (including Tru eAlert Non- Addressable SmartSync appliances) • 4100-5125 /5126/5127 Remote Power Su [...]
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4-6 The TICs have the following LEDs: LED1. Illuminates to indicate communication loss with the CPU. LED2. Illuminates when an RUI gr ound fault search is active. LED3. Illuminates when Local Mode is active. LED4. Illuminates to indicate an RUI Style 7 primary trouble. LED5. Illuminat es to indicate an RUI Style 7 seconda ry trouble. Refer to Figu [...]
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Page 75
4-7 The rules on this pa ge apply exclusively to MINIPLE X systems. Review each guideline before installing a MINIPLEX 4100U system. • All wiring is 18 AWG (0.8231 mm 2 ) (minimum ) and 12 AWG (3.309 m m 2 ) (maxim um). • All wiring is supervised and power-limited. • All wiring that leaves the building requires overvoltage protection. Install[...]
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Page 76
4-8 The TIC and al l other cards to be mount ed in the transponder ca binet and attached expansion bays must be confi gured to operat e correctly in the system via their DIP switch and jumper po rts. The CP U motherboard m ay have to be c onfigured as well. P9 on the CPU motherboard determines whethe r the RUI SHIELD signal is connected to 24 C or [...]
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Page 77
4-9 All TICs are mounted like any 4 -inch (102 mm) X 5-in ch (127 mm) card. This section describes the T IC/audio riser card mountin g procedure, which is identi cal to that of other 4-inch (102 m m) X 5-inch (127 mm ) cards. Use the follow ing instruction s and Figure 4 -2, below, to m ount 4”x 5” slave cards to a n expansion cabinet. IMPORTAN[...]
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Page 78
4-10 4100 POWER DISTRIBUTION INTERFACE ASSY 566-084 4100 POWER DISTRIBUTION INTERFACE ASSY 566-084 LED4 SW1 LED1 TB2 PRI LED2 P1 P3 LED5 TB3 SEC RUI TMPR SW 24C INPUT SHLD 4100 COMM LOSS RUI G.F . SEARCH AUDIO RISER CARD HARNESS 734-008 TI SPS OR RPS C PDI 1 PDI 2 HARNESS 734-078 P1 P6 POWER/ COMM Connectors with White Wire go to P3 HARNESS 733-525[...]
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Page 79
4-11 The TIC must be c onnected to the host pane l via RUI cabli ng. This section e xplains how to wire the two together, and how to set up a system with multiple transpon ders connected to the same ho st panel. RUI cabling ca n be accom plished either thro ugh Class A or Class B wirin g. Class A wirin g allows transpo nder cabinets to communicate [...]
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4-12[...]
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Page 81
5-1 A standalone or MIN IPLEX 4100 system becomes a network node when a 4100 Network Interface Card (NIC) or other compatible ne twork card is installed and connected to another net work node. H ow network car ds connect to eac h other depe nds on the ty pe of media networ k cards being used. Refer to the page number l isted in t his table fo r inf[...]
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Page 82
5-2 This chapter describes how to turn a standalone or MINIPLEX FACP into a network node. This process consists of the fo llowing: Step 1. Configuri ng cards for operati on (using DIP swit ches and jumper po rts) Step 2. Mount ing me dia cards to the net work interfac e card (NIC) Step 3. Mount ing netwo rk cards Step 4. Wiring net work cards Each [...]
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Page 83
5-3 The Network Interface Card (NIC) is a sla ve car d that uses the standard 4100 serial bus to communicate with the m aster. The NIC conn ects FACPs in a network, allowing for communicat ion between each panel via fi ber, modem, or twi sted shielded pair wi re. The NIC is de signed to be connected i n a point -to-point ar rangement , so that one [...]
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Page 84
5-4 Figure 5-1. 4100-6014 Network Interface Car d The 4100-6014 NI C has the following LEDs: LED1 (yellow). Illuminates when • The host 4100 requests it to illuminate • A transmission fails • It is off-line with the 4100 host • It needs to be c onfigured LED2 (red). Illuminates when a data ‘0’ is received at the right port. LED3 (green)[...]
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Page 85
5-5 The figures below are illustrations of two motherb oards apart from the default CPU motherboard that can be used with the 4100 NIC. • The 565-274 Master Moth erboard holds two daughter cards: the 410 0 master controller card and the 4100 NIC. • The 565-275 Class B Motherboard holds the 4100 NIC by itself. Figure 5-2. UT Motherboard with Cit[...]
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Page 86
5-6 There are two approv ed modules that can be plugged in to the 4100-6014 NIC: • 4100-6057 Fiber-Optic Media Card (565-261) • 4100-6056 Wired Me dia Card ( 565-413) Each module is shown below. Figure 5-4. The 4100/4120-0143 Fiber-Optic Media Card RESERVED (TB1) Figure 5-5. The 4100/4120-0142 Wire d Media Card Continue d on next page Introduct[...]
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Page 87
5-7 Table 5-1. 4100 NIC & Media Card s - Electrical and Environmental Specifications Electrical Specifications Network Interface Card Startup, no media cards: 8 VDC @ 110 mA Nominal, no media cards: 20 to 32 VDC @ 0 mA Fiber Media Card Using 24 V power supply: 20 VDC @ 140 mA max. Using 5 V power supply (GCC/NPU): 5 VDC @ 130 mA max. Wired Medi[...]
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Page 88
5-8 There are two shunt jumper ports on the NIC card that need to be set: P3 and P4. P3 : Determines the NIC data transmission rate, 57.6 kbits/second or 9600 bits/second. • Position 1 – 2 (the right two pins) or no pins jumpered: 57.6 kb its/second. • Position 2 – 3 (the left two pins): 9600 b its/second. P4 : Determines the data protocol,[...]
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Page 89
5-9 The 4100-6014 Network Interface Card (NIC) uses media cards to co nnect to other NICs. This section de scribes how th e media cards are m ounted onto NICs. NICs connect to each othe r via the three type s of media cards. The types of media cards in the right and left ports are determined by the typ e of wiring that is being used across cards. C[...]
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Page 90
5-10 The 4100 NIC daughter card, shown in Figure 6-8 below, inserts in to motherboards as follows: • If the 565-274 Master Mothe rboard is being use d, the NIC daughter card is inserted into connector J1. • If the 5 66-227 Master Mo therboard or 565-275 Motherb oard is used , the NIC daughter card is inserted i nto connector J2. Figure 5-7. Ins[...]
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Page 91
5-11 The nodes in the network n ow have to be wired together , so that the NIC in one host panel connect s to the NIC in t he next panel. This section co ntains guidelin es and instructions for NIC wiring. Refer to the following guidelines whenever field wiring the NICs. • Network nodes must be wire d right to l eft port, re gardless of t he medi[...]
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Page 92
5-12 • 655- 158 Transient Suppr essor (ordered as part of 748-599) is required for each modem-to-telephone line connection. F rom Modem 8 5 Grn T elephone Line 1 4 7 6 2 3 Figure 5-8. The Transient Suppressor Maximum wiring distances a re shown in t he Table belo w and in Appe ndix J. Table 5-2. Wiring Distances Media Type Size Data Rate Max Dist[...]
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Page 93
5-13 Connectors U1 (transmi tter) and U2 (receiver) on the 4100-6057 Fibe r-Optic Media Card are used to connect 4100-6014 NICs across parts of a network. Note: ST connectors with long strain relie f boots are to be used with the fiber optic cable. Figure 6-10 shows how two network nodes are conn ected via fiber-optic cable. U1 U2 U1 U2 U1 U2 U1 U2[...]
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Page 94
5-14 The 4190-901 0 Coupler (2 71-012) is used with the 5 65-261 Fiber Optic Media Boa rd, revision “C” or high er. Two 4190-9010 Bi- Directional Coupler s are required per connection, one at each node. The 4190-9010 is equipped with type ST connectors. To make typ e ST to type ST connections, a n ST to ST co upler, by others, is required. ST t[...]
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Page 95
5-15 The illustration below shows coupler wiring. Figure 5-10. Coupler Wiring Refer to the guidelines and figures in this topic to use wired m edia cards. IMPORTANT: TB1 on the wired media card must not be used when it is connected to the 4100-6014 NI C. • When the 565-4 13 Interface Card is us ed with 565-516, -407, or –40 9 Network Card, TB1 [...]
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Page 96
5-16 The Table below lists the 4100U master mo therboard connections for t he wired media card. Table 5-5. 566-227 CPU Mother board Wired Media Connections Motherboard Port for Media Card Connected to P5 Wired Media Card Connection (Left Port) TB1-4 0 V TB1-5 Earth ground TB1-6 INV (-) TB1-7 None TB1-8 NONINV (+) Motherboard Port for Media Card Con[...]
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Page 97
5-17 The figures below show how to wire the NIC. The illustrations use the 565-274 and 565- 275 mother boards only . If you a re using the 4100U m otherboard, refe r to Figure 5-11 along with the figures below. Figure 5-12. Wired Media, Style 7 Wiring Continue d on next page Step 4. Wiring Network Cards, Continued Wiring Illustrations Wired Media, [...]
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Page 98
5-18 Figure 5-13. Fiber Optic, Style 7 Wiring Continue d on next page Step 4. Wiring Network Cards, Continued Fiber Optic, Style 7 Wiring Notes: 1. Refer to general wiring precautions in this chapter, as well as Field Wiring Specificat ions: document 900-082 for 41 00; 900-242 for 4100U. For specif ic information about fiber optic wiring, refer to [...]
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Page 99
5-19 Figure 5-14. Wired Media and Fiber Optic, Style 7 Wiring Step 4. Wiring Network Cards , Continued Wired Media and Fiber Optic, Style 7 Wiring Notes: 1. Refer to general wiring precautions in this chapter, as well as Field Wiring Specification s: document 900-082 for 4100; 9 00-242 for 4100U. For specific information about fiber optic wiring, r[...]
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Page 100
5-20[...]
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6-1 The SPS is de scribed in Chapter 2 . A picture i s shown in F igure 2.4. This chapter has the cu rrent and voltag e ratings of the system power supply (SPS) and describes how it is installed and configured by the factory. It also describes the Alarm Relay Card t hat mounts onto the SPS t o provide 3 extra relay s. Refer to the page number l ist[...]
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Page 102
6-2 The following table summarizes the specifications for the SPS. Table 6-1. SPS Input and Output Specifications AC Input Specifications SPS in Standard Australian FACP 4100-9848AU 2 A Maximum 240 VAC + 6% -10% @ 50 Hz DC Output Specifications Voltage Nominal 28VDC Minimum: 19.5 VDC Maximum: 32 VDC Ripple: 2 VDC p-p @ full load (9A) Total Current [...]
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Page 103
6-3 • +24V Sig is used to supply the NACs . It can be made accessible by configuring a NAC as an aux power out put (normally energized). The PDI has a 24V Sig bus that is only power ed when an SPS is plugged directly on to it. (Not in standard configuratio n). The 4100 MXP is the only Australian approved card that takes power from th is bus. All [...]
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Page 104
6-4 The range of possible temperatures under which the S PS may functi on are between 0 ° C and 50 ° C (120 ° F). The SPS ope rate s normal ly under non-conden sing humidity cond itions up to 93% with relative hu midity at 3 2° C. This section c ontains inform ation about SPS jum pers, DIP swit ches and pot entiomet ers. P2 : If the SPS ID Net [...]
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Page 105
6-5 The SPS has the following LEDs: LED1 (yellow). Illuminates when NAC 1 is ON or in Fault. LED2 (yellow). Illuminates when NAC 2 is ON or in Fault. LED3 (yellow). Illuminates when NAC 3 is ON or in Fault. LED4 (yellow). Illuminates to indicate a commu nications loss with the system CPU; normally off. If this LED is blinki ng, try re-l oading the [...]
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Page 106
6-6 This section co ntains explanat ions of fault messages that may appear on the 410 0U display when using the SPS. Heading text in the left margin shows the erro r message, while the pa ragraph next to it descri bes the likely cause of the m essage. There is no output v oltage from the power s upply. Refer to Chapter s 2 and 6 f or information on[...]
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Page 107
6-7 The Alarm Relay Card m ounts on, and is dr iven by, the SPS. It has 3 relays each providing o ne set of voltage -free contacts. The relays are able to be conf igured under custom contr ol, but the default ope ration is for system status, i.e. Fault (Trouble), Isolate (Supervisory), and Alarm, respectively. Th ese are comm only used to driv e t [...]
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Page 108
6-8 The relays have one set of vol tage-free contact s (see n ote below) connected to one pair of terminals via a header. The two term inals are configured fo r normally closed or normally open by positioning a jumper o n the heade r. Table 6-3. Alarm Relay Card Jumper Positions Relay Header Normally Closed Normally Open Alarm Isolate (Superv isory[...]
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Page 109
7-1 This chapter s hows how various de vices are wi re d to an SPS. It includes connection to NACs, IDNet, relays, and power circuits. Refer to the page number l isted in t his table fo r informat ion on a specific t opic. Topic See Page # General Field Wiring Guidelin es 7-2 SPS NAC Field Wiring Guidelines 7-3 Power Supply W iring Distances 7-5 SP[...]
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Page 110
7-2 Make sure these guidelines ar e accounted for before wiring: • All field wires must be 0. 75 mm 2 or greater and comply with AS1670.1 and the wiring code. • Conductors must test free of all ground s. • All wiring m ust be done using copper c onductors only, unles s noted ot herwise. • If shielded wire is used , - the metallic continuity[...]
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Page 111
7-3 Each of the 3 NACs has two pairs o f driven outputs (A+/A-, B+/B-) whi ch operate together. NAC B outp uts have pol arity reversal s upervis ion and expe ct a 10k EOLR . Each connected devi ce must have a suit ably rated blocking dio de. NAC A outputs ha ve an integral 10k to accommodate Class A (loop) wiring. Class A wiring is not mand atory u[...]
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Page 112
7-4 To connect t he SPS to reverse -polarity, n on-addressable notification appl iances using Class A wiring, read the f ollowing instructions and refer to the figure below. 1. R oute wire (between 0. 75 mm 2 and 4 m m 2 ) from the “B+”, “B-”, outputs on TB2 of the SPS to the appropriate inputs on a peripheral notification app liance. Use N[...]
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Page 113
7-5 To connect the SPS to a ppliances using Clas s B wiring, read the following instructions and refer to t he figure below . 1. R oute wire (between 0. 75 mm 2 and 4 m m 2 ) from t he B+, B- output s on TB2 of the SPS to the appropriate inputs on a peripheral notification app liance. Use NAC1, NAC2, or N AC3, as configured. 2. Route wire from the [...]
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Page 114
7-6 Table 7-1 lists the maximum distances from the NAC terminal block to the last appliance in a Class A co nfiguration, depending o n wire gauge and curre nt. Use Table 7 -1 to calculate wire distances for your ap pli cation if you are using Class A wiring. Table 7-1. Class A Wiring Distances Alarm Current @ 24 V Max Distance w/ 18 AWG (0.8231 mm [...]
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Page 115
7-7 Table 7-2 lists the maximum distances from the NAC terminal block to the last appliance in a Class B co nfiguration, depending o n wire gauge and current . Use Table 7 -2 to calculate wire distances for your ap pli cation if you are using Class B wiring. Table 7-2. Class B Wiring Distances Alarm Current @ 24 V Max Distance w/ 18 AWG (0.8231 mm [...]
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Page 116
7-8 The panel, bat tery-backed, unregulated dc bulk power is a vailable from the SPS via t he NAC and the 24V Aux power ter minals (1 pair only, ref fig 7-4). NACs not conf igured as switched outputs may be configured as au xiliary power point type in the 4100 Programmer. All of th ese are power-limited . Review the following guidelines before usin[...]
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Page 117
7-9 The SPS can connect to auxiliary power a pplia nces via the dedicate d auxiliary power tap (TB3). If m ore power is needed, a ny of the three N AC outputs can be used for EMC auxiliary power. B+ 0V 24V AUX POWER B- A+ A- B+ B - A+ A- B+ B- A+ A- AUXILIARY POWER AUXILIARY POWER AUXILIARY POWER AUXILIARY POWER Figure 7-4. Auxiliary Power Wiring S[...]
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Page 118
7-10 The SPS has on e programmable relay, Aux 1, with one set of voltage-free contacts (see below). It also has provision for mounting a 4100-603 3 Alarm Relay that has 3 relays, each with one set of normally open (or normally closed) contacts available on a screw terminal bloc k (see fig 6.1). • The relay must be con figured in the Programmer. ?[...]
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Page 119
7-11 The Figure below shows the SPS relays. Figure 7-5. Auxiliary Relay & Alarm Relay Card Relays SPS Auxiliary Relay Wiring, Continued Relays B+ B- A+ A- B+ B- A+ A- B+ B- A+ A- TB2 SPS Dedicated Auxiliary 1 relay terminal block NO C NC TB4 TERMINAL BLOCK ALARM RELAY MODULE P7 P4[...]
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Page 120
7-12 This section describes how the IDNet on the SPS connects to addressable devices/detectors. The guidelines govern ing IDNet wiring guideli nes are cove red in chpt 8, IDNet Installation. Up to 250 IDNet initiating devices are su pported on the SPS IDNet channel. The SPS supports both Class A (loop) an d Class B(string) wiring. Class A wiring is[...]
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Page 121
7-13 To connect address able devices/detectors to th e SPS IDNet usin g Class A wiring, read the following instructions. 1. Ferrite beads are required on the SPS IDNet cables (ref Fig 7.1). 2. R oute wire (between 0. 75 mm 2 and 4 m m 2 ) from t he B+, B- output s on TB1 of the SPS to the appropriate inputs on a peripheral IDNet device. 3. Route wi[...]
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Page 122
7-14 To connect address able devices/detectors to th e SP S IDNet using Class B wiring, read the following instructions. 1. Under AS1670.1 Class B wiring is allowed o nly for a m aximum of 40 addressable devices. 2. A ferrite bead is re quired on the S PS IDNet cable . 3. On TB1, jumper B+ to A+, and jumper B- to A-. 4. R oute wire (between 0. 75 m[...]
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Page 123
8-1 Two loop cards are available in the 4100U 4”x 5”card format. These plug directly onto the PDI and form an intellig ent interface between the 41 00U CPU and one loop of addressable detectors/devices. The IDNet Car d uses Mapnet Prot ocol and c ommunicates wi th existing Mapnet detectors/de vices plus the ne w IDNet de vices. The 4100MXP comm[...]
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Page 124
8-2 The 4100U IDNet card receive s 24V power (+24V Card Supply bus) and coms (i.e. communicat ion with the C PU) via the P DI. There are se veral versio ns, configure d by links solder ed on the pcb. The 4100-3101 used in Australia, communicates with up to 250 devices. An IDNet card may be fitted to a 4100 (non-U) b ay in an upgrade p anel by use o[...]
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Page 125
8-3 The IDNet card has the following LEDs: LED1. Normally off. Turns on steady if the IDNet card is not co mmunicating with the 4100 CPU. LED2. Normally off. Illuminates to indicate a problem with the IDNet lines. • Steady on indicates channel failure. • One rep etitive blink indicates a line short. • Two rep etitive blinks indicate a Class A[...]
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Page 126
8-4 The 4100-serie s IDNet card is designed t o be mount ed on the PDI i n a 4100U expansi on cabinet. The ca rd can be m ounted on any of the PDI connect ors. Use connector P2, labeled on t he back side of the I DNet card, to connect to any of t he eight PDI c onnectors as sho wn in the fig ure below. Figure 8-2. Mounting onto the Power Distributi[...]
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Page 127
8-5 If a 4100 is upgraded to 4100U, IDNet cards can be fitted to existin g 4100 bays by use of the Interface Card plus brac ket. The bracket mounts to t he bay as a 4100 card motherboard does and takes up 1 slot. Wire detectors and devices Connect Comms and Power with LM0203 Blue + 3 Black Blue + 3 Black White + 3 Black White + 3 Black P2 Comms P3 [...]
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Page 128
8-6 Configuring the card con sists of selecting the shield tie point, and setting the dev ice address.. If a shielded cable is used, c onnect the cable shield to t he dedicated terminal on TB1 a nd use jumper port (P1) to select where the shield will be tied. • Position 1 - 2 connects the sh ield to 0 V. • Position 2 - 3 connects the sh ield to[...]
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Page 129
8-7 Up to 250 IDNet slave devices, such as sm oke detectors a nd manual cal l points, can be connected to the IDNet card using Class A (l oop) or Class B (line) wiring, with the following restrictions. Class A wiring allows the devices to communicate with the IDNet card even in the event of an open circuit somewher e in the loop. Class A wiri ng re[...]
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Page 130
8-8 Table 8-2 Cable Run Lengths 1. The circu it allowance per device on the loop is 0.5mA with the LED off, 2mA with the LED on. A maxim um of 20 LE Ds get tu rned on at one tim e by IDNet Card (i.e. in alarm). 2. The minimum volt age allowe d at the furthes t device to g uarantee operatio n is 24.9Vdc. The IDNet boosts its out put voltag e from no[...]
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Page 131
8-9 To connect t he IDNet card t o appliances using Class B wiri ng, read the following instructions. 1. On TB1, jumper IDNetB+ to IDNet A+ , and jumper I DNetB- to IDNet A-. If the jumper is absent, a Class A Trouble will be ind icated on LED 2. 2. Rout e wire between 0.75 mm 2 and 4 mm 2 from the IDNetA+, IDNet A-, (or B+, B-) outputs o n TB1 of [...]
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Page 132
8-10 This section de scribes the messages t hat may appea r on the 4100 dis play when usi ng the IDNet card. Trouble messages appear on the left as titles, and possible causes are listed to the right in the text. There is no output voltage from the I DNet power supply. Replace the IDNet card. Appears if o ne or more extra devices (i.e., devices tha[...]
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Page 133
8-11 The 4100MXP is a 4” x 5” card, similar to the IDNet, but allows the 4100 U to communicate with a Loop of MX devices. The firmware i n the 4100U se es the 4100MXP as an IDNet, and all the MX de vices are matched to the nearest Sim plex device. The main difference of 4100MX P from IDNet is that it has a nominal 40V loop supp ly voltage and i[...]
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Page 134
8-12[...]
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Page 135
9-1 The service port on the door with the Op erator Interface enables the 4100U to connect to PCs running important utiliti es, such as diagnostics, programming , CPU firmware downloading , and channel mon itoring. Refer to the page number l isted in t his table fo r informat ion on a specific t opic. Topic See Page # Software Mo des 9-2 Chapter 9 [...]
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Page 136
9-2 The 4100U can connect to PCs running important utilities, such as diagnostics, programmi ng, CPU firm ware downloa ding, and chan nel monitori ng. It connect s to PCs running all of these utilities via the service port on th e CPU daughter card. When a PC is located remotely from the FACP, the 4100-9832 Service Mode m is used. There are three b[...]
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Page 137
9-3 Master Bootloader Interf ace Mode. This mode downloa ds the Master CPU Exec firmware and the CF G.TXT file to the CPU via the serial port. Laptop/P C running termi nal em ulati on soft ware 4100 Panel running Bootl oader serial download cable Figure 9-3. Bootloader Interface Software Modes, Continued Software Modes ( continued ) Laptop/PC runni[...]
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Page 138
9-4[...]
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Page 139
10-1 This chapter provides deta il on form at and compone nts that are specifi c to the Australi an version 4100U that complies with AS4428. Refer to the page number l isted in t his table fo r informat ion on a specific t opic. Topic See Page # Summary Of Australian Version Specifics 10-2 Australian Panel Format 10-3 4100U Fa n Control Module 10-4[...]
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Page 140
10-2 The Australian fire alarm st andards differ fro m those in the USA. Shippi ng costs from USA to Australia are significant, and the Aust ralian market is small com pared to the USA market. It is therefore necessary to: • have an Australian specifi c panel form at that differs from the stan dard USA panel format; • have some Aust ralian spec[...]
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Page 141
10-3 The main difference with the Australian panels is that they are assembled in the Australian (Tyco) range of rack cabi nets. Some further specific differen ces follow: • Only the Expansio n Bay is us ed, with t he Controll er CPU and Motherboa rd mounte d in the right hand side of the first one. The standard US Controller Bay is not used. •[...]
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Page 142
10-4 ME0456 is a 4100U style S witch/LED displ ay module specifically designed for fan control. It c omplies wit h the requi rements of AS 1668.1, 19 98. It has rot ary switches a nd LEDs for 4 fan s. In order to a ccommodate the re quired rotary switches, t he front plate is joggled f orward so that i t protrudes t hrough t he trim. The Fan Contr [...]
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Page 143
10-5 Figure 10-1. Fan Control Module[...]
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Page 144
10-6 The Alarm Relay Card is typically used t o provide a B rigade Interface . The default configuration is for the three relays to oper ate on Fault (Trouble), Isolate (Supervisory) and Alarm, respectively. The connection dra wings for the Centaur ASE, Wester n Australia AIU and Quee nsland PPU are included in the appendix. These relays are normal[...]
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Page 145
11-1 When a branch designs a syst em and orde rs a 4100U panel, a “Configuration S heet” is prepared. Th e factory builds the panel to th e configuration sheet. This includes fitting, connecting and configuring cards and m odules. The factory programs and tests the panel to the configured sheet. The CPU Card and any 4100 style (legacy) cards th[...]
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Page 146
11-2 The following checklist should be completed b y the installer. (Note that all pcbs are electronically tested and adjusted b efore being fitted to the FIP). 1. CABINET & GENERAL A) Cabinet colour - Sta ndard Cream Wrinkle (B FF 998 CW) - Other: ____________ _______________ _________ B) Cabinet undam aged (Paint OK) C) Door aligned correctly[...]
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Page 147
11-3 All the 4100U cards and m odules (pcbs) are tested and aligned in the factory before being supplied to the customer or fi tted to a F IP. The only field adjustm ent that may be necessary is to set the battery charger voltage. (Note this has been set and should not need re-adjusting). R341 Battery Charger Voltage Should the battery charger volt[...]
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Page 148
11-4 To place the 4100U FACP into ope ration, perfor m the following steps: STEP 1 Ensure that the Main s Isolate Switch is OFF. STEP 2 En sure that 240 VAC is connected to the panel from the mains distribution switchboard. STEP 3 Ensure that the Lith ium battery is fitted to battery holder on the CPU card, and link P3 is fitted to the BAT ON posit[...]
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Page 149
11-5 The 4100U sys tem must be kept free from faults and t ested on a weekly, mont hly and annual basis to verify that it is operating correctly. Th e tests required by part 8 of the standard AS1 851 Mainte nance of Fire Protect ion Equipm ent are detai led in the 4 100U Operator’s M anual, LT03 51. The Operator’s manual also provides detai l o[...]
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Page 150
11-6[...]
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Page 151
A-1 Addressable ca rds include a b ank of eight DIP switches. Fr om left to ri ght (see Fig ure A- 1, below) these switches are de signated as SW x -1 thro ugh SW x -8. The function of these switches is as follows: • SW x -1 . This switch sets the baud rate for the intern al 4100 communications line running bet ween the card a nd the CP U. Set t [...]
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Page 152
A-2 Table A-1. Card Addresses Overv ie w, ( continued ) Address SW 1-2 SW 1-3 SW 1-4 SW 1-5 SW 1-6 SW 1-7 SW 1-8 Address SW 1-2 SW 1-3 SW 1-4 SW 1-5 SW 1-6 SW 1-7 SW 1-8 1 ON ON ON ON ON ON OFF 61 ON OFF OFF OFF OFF ON OFF 2 ON ON ON ON ON OFF ON 62 ON OFF OFF OFF OFF OFF ON 3 ON ON ON ON ON OFF OFF 63 ON OFF OFF OFF OFF OFF OFF 4 ON ON ON ON OFF O[...]
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Page 153
B-1 This appendix identifies the programming th at is required to comply with AS4428. It does not provide equ ations or detail of progr amming. The separate 4100 Pr ogramming Unit Manual tells how to use the PC-based 4100U Programmer. Refer to the page number l isted in t his table fo r informat ion on a specific t opic. Topic See Page # Required F[...]
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Page 154
C-1 This appendix contains in structions on how to use a volt/ohm meter to check system wiring. When using the volt/ohm meter to check each ci rcuit, make sure to adhere to the notes and instructions below. Notes: • Ensure that no power is applied to the 4100U fire alarm panel and that all wiring is prop erly connected (terminal blocks, LED/switc[...]
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C-2 Table C-1 lists the correct meter readings for indicating app liances and initiating devices. Table C-1. Acceptable Zone and Signal Circuit Meter Reading s Circuit Type Mete r Reading Class B/Style B Initiating Device (Zone) Circuit From zone + to zone – (each zone) 3.3 K Ohms From zone + to ground Infinity From zone - to ground Infinity Clas[...]
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D-1 This appendi x contains instru ctions on how t o use the Eart h Fault Search f eature of the 4100U dia gnostics me nus. Earth Fault Search is a diagnostic search of external field wiring that assists in locati ng circuits with earth faults. An earth fault occurs when an electrical circuit is shorted to ground. Although most circuits op erate wi[...]
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D-2 Review the guidelines below before initiating an Earth Fault Search. • The Detect Earth Fault jumper must be in stalled at each SPS, RPS, TPS, IPS, or 4009T for earth fault detection to occur. • Only one power supply per location is configured to d etect earth faults. • For more reliable earth fault searchi ng: - Use a Firefighter Telepho[...]
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D-3 This section describes how to conduct an Earth Fa ult Search, f rom selecting the appropriate access code to correcting the fa ult. The panel must be at the a ppropriate access level (1 , 2, 3, or 4) in order t o run diagnostics. To get to the correct access level, 1. Press the Menu button. The following message com es up (press the Next or Pre[...]
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D-4 8. Press the Enter button. The following options become available wh en you press the Next a nd Previous b uttons: Press <NEXT> or <PREVIOUS> to scroll Location Search Press <NEXT> or <PREVIOUS> to scroll IDNet Channel Search Press <NEXT> or <PREVIOUS> to scroll Last Search Result The search type s are descri[...]
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D-5 If you select the IDNet Channel Search menu item, a list of IDNet channels to search becomes available. Use t he Next and Previous buttons to scroll through the list. When the IDNet channel you want to search is sh own and "Press <ENTER> to start search" displays, the search is ready to star t. A sam ple screen is shown below. I[...]
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D-6 There are several types of results that can disp lay at the end of an Earth Fault Search. This section covers all types of results. IMPORTANT: Once y ou have been directed to an earth ground fault and corrected it, it is recommended that you restart th e system (warm- or cold- start). A non-point fault indicat es a ground t hat cannot be t race[...]
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D-7 4009 IDNet NAC Extender/ TrueAlert Addressable Controller faults. The m essage below shows a fault detected on the 4009 IDNet NAC Extender before the repeater connected to that ci rcuit is turned on: CARD 2, IDNET CARD (250 POINTS) M1-18, 4009A NAC EARTH FAULT Conversely, the following exam ple shows a fault detected after the repeater connecte[...]
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D-8 The illustration below shows a MINIPLEX syst em with one transponder that has three earth faults: • SPS NAC on the SPS in the Main Panel • RPS AUXPWR output on the RPS in Transp onder 1 • IDNet channel i n Transponder 1 Transponder 1 Ma i n Pane l RUI SPS NAC 2 RPS AUX PW R Iso 1 Iso 2 = G round Fault RPS SPS ID N e t I DNet Channel M2 Fi[...]
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D-9 B. Find and rep air the indicated fault on Transponder 1. 1. Select Location Sea rch. 14. Select the RPS located in Transponde r 1 (this selects Tra nsponder 1 as the location for the searc h). 15. When prompted, select ex clusion of AUXPWR circuits. 16. Start the searc h. (The panel t urns on the earth fault search trouble pseu do-point and th[...]
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E-1 The following m anuals are relevant. Othe r Australian 41 00 manuals may be fou nd on the TSP website. Book Part Number Title LT0293 410 0A FIP AS4428 Operators Manua l LT0294 410 0A FIP AS4428 Installation Manu al LT0295 410 0A FIP AS4428 Technical Manual LT0307 410 0 Field Wiring Diagrams LT0313 410 0 MXP Engineering/T echnical Manual LT0314 [...]
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E-2 Book Part Number (cont.) Title (cont.) 574-849 4100U PC Programmer Progr amming Manual 575-978 4100/4120 Batt ery Cabinet Installation Instructions 579-117 4100U Back Boxes and Accessories Installation Instructions 579-159 4100U Di gital/Analog Audio Contro llers Installation Instructions 579-160 4100U Audio I nput Card Installation Instruction[...]
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E-3 Book Part Number (cont.) Title (cont.) 579-175 4100U Cl ass A and Expansion NAC Module s Installation Instructions 579-229 4100U Upgra de Kits Installation Instructions 579-246 4100U SPS/RPS Installation Instructions 579-248 4100-0632 T erminal Block Utilit y Module Installation Instructions 579-331 4100U Redund ant Master Contro ller Installat[...]
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F-1 This appen dix describes the f ollowing: • It lists devices that have bee n approved as compatible de vices for use wit h the 4100A/4100U FIP. • It lists the devices approved for us e with the IDNet and shows the number allowed per loop. Refer to the page number l isted in t his table fo r informat ion on a specific t opic. Topic See Page #[...]
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F-2 Hochiki Range - Conventional Detectors DCA-B-60R MK V Type A heat detector DCC-A Heat Type A DCC-C Heat Type C DCD-A Heat Type A DCD-C Heat Type C DFE-60B Type B heat detector DCA-B-90R MK 1 Type C heat detector DFE-90D Type D heat detector DFG-60BLKJ Type B heat detector DFJ-60B Heat Type B DFJ-90D Heat Type D SPA-AB Beam type smoke detector S[...]
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F-3 Brooks Range - Conv entional Detectors PFS-A Heat detector Type A PFS-B Heat detector Type B PFS-C Heat detector Type C PFS-D Heat detector Type D PFS-P Photoelectric smoke detector PFS-P MK II Photoelectric smoke detector PFS-I Ionisation smoke detector PFS-I MK II Ionisation smoke detector Cerberus Range - Co nventional Detectors D01191A Beam[...]
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F-4 Simplex MAPNET 2 Range – Addressable Field Dev ices 2190-9156 Mapnet 2 Monitor ZAM 2190-9162 Mapnet 2 Signal ZAM 2190-9164 Mapnet 2 Control ZAM 2190-9169 Mapnet 2 Line Powered Short Circuit Isolator 2190-9172 Mapnet 2 Supervised IAM 2190-9173 Mapnet 2 Loop powered 2 Point Input / Output Module 4099-9032NL Mapnet 2 Addressable Manual Call Poin[...]
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F-5 The following lists the addressable devices ap proved for use with IDNet and shows current rating and n umbers allowed per loop. Device Type Operating Current mA Maximum Addressable Point On Analogue Loop Maximum Addressable Points on Analogue Line 4090-9116 IDNet Comms Isolator 0.5 (2 with LED on) 250 40* 4090-9118 Relay IAM with T-sense 0.5 ([...]
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G-1 The following batteries are comp atible with the 4100U. • Power Sonic PS12 Series • Century Power Sonic PS12 series • Sonnenschein A200 Series • Sonnenschein A300 Series • Century Yuasa NP Series • Auscell CJ12 series • Power Block PB12 series Appendix G Comp atible Batteries[...]
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H-1 System Capaci ty 2,000 points of addressable poi nts, plus 2,000 poi nts of annunciation. Expansion Up to capacity above. Up to 119 Addressab le cards Cabinet Size Dependent on system configuration Cabinet Mat erial 1.6mm Zintex Cabinet Fini sh Powder coated Cabinet Col our Cream Wrinkle Mounting Wall mount Mains Input 240V AC, +6%, -1 0%, 50Hz[...]
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H-2 The DC input voltage ra nge of the foll owing modul es is 18-33V dc. The current l isted is nominal for 24Vdc, and m ay be used fo r battery capacit y calculations. Module Name Quiescent Alarm N/A Master Controller Assem bly (includes SPS, CPU, C PU Motherboard with RUI I/F, Oper ator Interface with LCD) 373mA 47 0mA 4100-603 5 Alarm Rel ay Car[...]
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I-1 Part of the system design includes ca lculating that the quiesce nt load and the alarm load are each less than the rating of the power sup ply. Note that the quiescent load includes devices such as door holders that are normally energized, but get switched off during alarm. The SPS rating is included in the specific ations in Chapter 6. Refer t[...]
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J-1 The IDNet cabling requirem ents are de tailed in Chapter 8 of this manual. Line Characte ristics Note: In the following paragraph s the term "MAPNET channel" is used to mean those lines connected to any one Ma pnet Transceiver b oard. Parall el runs from the same board do not constitute sepa rate channels. The term "c ontinuous r[...]
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J-2 Fibre Optic Cable Characteristics All fibre cable s shall be m ultimode, graded i ndex. ST st yle connectors must be used. No physical strain shall be put on the cables. T here must be no c able bends of less than a 50mm radi us. Two methods are available for joining fibre cable. Splices provide a perm anent, very l ow loss, fibre-to-fibre conn[...]
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K-1 The following drawings are i ncluded and are referred t o in the m anual or are c onsidered relevant. 1901-267 Sheet 2, 4100U AIU/PS U Wiring Assem bly Drawing 1919-22 RAC Cabinet Mounting Dra wing 1963-51 KT0193 3 U RAC Mountin g ASE Drawing 1963-62 ASE FAS Interface Drawing 1976-133 18U FIP Presentation Drawi ng 1976-136 18U FIP Assem bly Dra[...]
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©2004 Tyco Safety Products Westminster, Westminster, MA 01441-001 USA. Specifications and other information shown were current as of publication, and are subject to change without notice.[...]