Page 1 One Fire-Lite Place Northford, CT 06472 (203) 484-7161 (203) 484-7118 (Fax) ) , 5 ( 35 ( $ / $ 50 6 ( & 8 5 ,7 < 6 8 3( 5 9 , 62 5< 6 < 67 ( 0 ' , 6$ %/ ( ' $/ $5 0 $&...
Page 2 Installation Precautions - Adherence to the following will aid in problem-free installation with long-term reliability: WARNING - Several different sources of power can be connected to the fire alarm Like all solid state electronic devices, this system may operate erratically or can control panel.
Page 3 7DEOH RI &RQWHQWV 7DEOHRI&RQWHQWV 6\VWHP2YHUYLHZ Introduction ....................... 11 About this Manual....................... 11 Supplemental Documentation ..................12 System Description....................13 Standard Features ......................13 Options ........................13 System Limitations...................... 13 AFC-600 System Diagram ..................14 System Components ....................15 AFC-600 Basic Equipment Packages ................. 15 CPU-600........................
Page 4 7DEOH RI &RQWHQWV Introduction ......................... 29 Audio Message Generator (AMG-1 & AMG-E) ............29 Audio Tone Generator (ATG-2) ................. 29 Fire Fighters Telephone (FFT-7 and FFT-7S) ............29 Voice Control Module (VCM-4)................. 30 Dual Channel Module (DCM-4) ................. 30 Audio Amplifiers......................30 Cabinet Hardware.....................
Page 5 7DEOH RI &RQWHQWV Overview ........................60 Installation........................60 Mounting Panel Modules..................61 Installation........................61 Installing a 4XTM Module ..................62 Installation........................62 4XTM Electrical Requirements .................. 62 Connecting the 4XTM Module ................... 63 Field-Wiring the Modules..................64 Overview ........................64 NAC Wiring - ICM-4 and ICE-4 Modules ..............
Page 6 7DEOH RI &RQWHQWV Set Operating Mode ....................116 Audio Amplifiers ..................... 117 Overview ........................117 Installing an AA-30 ....................117 Installing an AA-100 or AA-120 ................119 Installing a Backup Amplifier ................... 121 Voice Alarm Modules....................122 Overview ........................122 Module Descriptions ....................
Page 7 7DEOH RI &RQWHQWV Overview ........................153 NIB-96 Assembly...................... 153 NIB-96 SLC and EIA-485 Connections..............154 Wiring Specifications....................154 Using the XP Series Transponder................155 Overview ........................155 Wiring Diagram......................155 Fire/Security Applications ..................156 Overview ........................156 General Operation ..................... 156 Installing a Security Tamper Switch - CAB-600AA ..........
Page 8 7DEOH RI &RQWHQWV ACS Annunciator Selection Group L................ 188 ACS Annunciator Selection Group M............... 189 Connecting Annunciators ..................190 Overview ........................190 LCD-80 Terminal Mode EIA-485 Connection (CPU, TB3)........191 LCD-80 ACS Mode EIA-485 Connection (CPU, TB4)..........192 Powering ACS-, ACM-, and LCD-type Annunciators..........193 ACS and LDM Series EIA-485 Connection..............
Page 9 7DEOH RI &RQWHQWV Overview ........................219 Calculating AC Branch Circuit Current .............. 219 Calculating the System Current Draws ..............219 How to Use the Calculating Tables................220 Calculation for Main Supply Current ..............221 Calculation for SLC #1 Loop Current............... 222 Calculation for SLC #2 Loop Current...............
Page 10 7DEOH RI &RQWHQWV AFC-600 Installation PN 51031:A 03/08/99...
Page 11 Introduction 6\VWHP 2YHUYLHZ 6\VWHP2YHUYLHZ ,1752'8&7,21 $ERXWWKLV0DQXDO This manual includes information for designing, installing, and testing the AFC-600 Fire Alarm Control Panel and various fire alarm system components. The table below contains a section listing and description: Section Description 1. System Overview Provides a description of the control panel and system components, a list of related system documentation, and cabinet dimensions.
Page 12 Introduction 6\VWHP 2YHUYLHZ 6XSSOHPHQWDO'RFXPHQWDWLRQ The table below accommodates a list of document sources containing additional information regarding the AFC-600: For information on... Refer to... Part Number All features AFC-600 Data Sheet DN-6657 Programming AFC-600 Programming Manual 51032 Operation AFC-600 Operations Manual 51033 System Connections AFC-600 Basic System Drawing...
Page 13 System Description 6\VWHP 2YHUYLHZ 6<67(0'(6&5,37,21 The AFC-600 control panel is a modular, intelligent fire alarm control panel (FACP) with an extensive list of powerful features. The CPU module, power supply module, mounting chassis, and cabinet combine to create a complete fire alarm control system. Optional modules mount to the chassis to provide additional output circuits, including voice and telephone modules to form a complete voice evacuation system.
Page 14 System Description 6\VWHP 2YHUYLHZ $)&6\VWHP'LDJUDP An AFC-600 system installed in a CAB-C3 with a voice alarm system and a full complement of installed devices. 6LJQDOLQJ /LQH &LUFXLW 6/& XS WR GHYLFHV /&' 5HPRWH 'LVSOD\&RQWURO 6 / & &...
Page 15 System Components 6\VWHP 2YHUYLHZ 6<67(0&20321(176 $)&%DVLF(TXLSPHQW3DFNDJHV Basic Equipment packages for the AFC-600: Package: Cabinet: Modules Accessories BE-600 CAB-3 Series CPU-600 Module BP-3 Battery Plate (order separately, 4 MPS-6 Power Supply Connecting Cables sizes) First Row Chassis Manuals BE-600AA CAB-600AA CPU-600 Module Connecting Cables MPS-6 Power Supply...
Page 16 System Components 6\VWHP 2YHUYLHZ 3RZHU6XSSOLHV The control panel can use two types of internally mounted power supplies: • The required Main Power Supply - MPS-6. • The optional Auxiliary Power Supply - APS-6R. 036 The MPS-6 supplies a total of 6 A in alarm, used for the following: •...
Page 17 System Components 6\VWHP 2YHUYLHZ $365 The optional Auxiliary Power Supply is a 150W cabinet-mounted power supply, designed to power devices that require filtered, non-resettable power, such as XP Transponder modules, NAC modules, and CMX modules. The APS-6R provides two 24 VDC (filtered) output circuits (3 A each, 6 A total, 4 A continuous )LJXUH $365 3RZHU 6XSSO\ %DWWHULHVDQG%DWWHU\%R[HV...
Page 18 Optional Devices 6\VWHP 2YHUYLHZ 237,21$/'(9,&(6 ,QWURGXFWLRQ Several optional components can be installed within an AFC-600 System. For part numbers of manuals listed, see Supplemental Documentation in this section. 8QLYHUVDO'LJLWDO$ODUP&RPPXQLFDWRU 7UDQVPLWWHU8'$&7 Transmits system status to UL-listed Central Station Receivers over a public switched telephone network. Mounting is in a CAB-3 and CAB-AA Series cabinets or remotely in the ABS-8R enclosure.
Page 19 Intelligent Detectors 6\VWHP 2YHUYLHZ ,17(//,*(17'(7(&7256 ,QWURGXFWLRQ Intelligent, addressable detectors provide analog information to the control panel on a Signaling Line Circuit (SLC). This allows the control panel to continually process this information to determine the status (alarm, trouble, maintenance, or normal) of each detector. Each detector responds to an SLC address that is set in the detector head using built-in rotary decimal switches.
Page 20 Intelligent Detectors 6\VWHP 2YHUYLHZ )ODVK6FDQ 'HWHFWRUV Listing of detectors that are intended for use with the FlashScan system incorporated into the AFC-600 system: Detector Description FSI-751 Intelligent Sensor that uses state-of-the -art ionization sensing chamber. Designed to provide open area protection. FSP-751 Intelligent Sensor that uses state-of-the -art photoelectric sensing chamber with communications.
Page 21 Addressable Modules 6\VWHP 2YHUYLHZ $''5(66$%/(02'8/(6 ,QWURGXFWLRQ Control Modules and Monitor Modules provide an interface between the control panel and conventional notification (CMX) and initiating (MMX) devices. Each module can be set to respond to an address with built-in rotary decimal switches. (For a list of approved devices, refer to the Device Compatibility Document.) 0RGXOH'HVFULSWLRQV Below are descriptions of various addressable monitor modules and control modules used with the...
Page 22 Addressable Modules 6\VWHP 2YHUYLHZ &RQWURO 0RGXOH 1$& )&0 Similar to the CMX-1 module except the ability to select up to 159 addressable points instead of 99. Primarily intended for the FlashScan system. 7(16 &RQWURO 0RGXOH 5HOD\ )50 21(6 /223 $''5(66...
Page 23 End-Of-Line Devices 6\VWHP 2YHUYLHZ (1'2)/,1('(9,&(6 'HVFULSWLRQV The table below contains a list of the End-of-Line (EOL) devices that you can install in an AFC-600 system: Option Description System Sensor (SSD) A 47K End-of-Line Resistor (ELR) Assembly used in the A2143-00 supervision of MMX-1, MMX-101 Monitors, CMX Control Module and XP5 Modules.
Page 24 Annunciation Modules 6\VWHP 2YHUYLHZ $1181&,$7,2102'8/(6 ,QWURGXFWLRQ This section contains brief descriptions and model numbers of annunciator modules that can be connected to the control panel. Communication between the control panel and annunciators takes place over a two-wire serial interface connected to an EIA-485 connector (TB4) on the CPU. For detailed wiring requirements, refer to the appropriate Annunciator manuals.
Page 25 Annunciator Control System (ACS) 6\VWHP 2YHUYLHZ $1181&,$725&21752/6<67(0$&6 ,QWURGXFWLRQ Provides the AFC-600 with up to 32 remote annunciators, each with a capacity of 64 points. Connections are through an EIA-485 serial connection from TB4 on the CPU. Refer to the ACS Manual for further information. 'HVFULSWLRQ Below are brief descriptions of Annunciator Control and Annunciator Expander Modules used with the control panel.
Page 26 Annunciator Control System (ACS) 6\VWHP 2YHUYLHZ $QQXQFLDWRU)L[HG0RGXOHV ,QWURGXFWLRQ Provide the control panel with discrete display and control points. AFMs turn their LEDs on and off as directed by the CPU, and also report switch activations to the CPU for action. You can only use one AFM in a system.
Page 27 Peripheral Displays and Printers 6\VWHP 2YHUYLHZ 3(5,3+(5$/',63/$<6$1'35,17(56 ,QWURGXFWLRQ The control panel is compatible with the following printers and display devices: • PRN-5 Printer • Keltron Remote Printer VS4095 • CRT-2 Display Terminal 3ULQWHU351 An optional printer that connects directly to the control panel through an EIA-232 interface (TB1 on the CPU) and can be located up to 50 feet from the control panel.
Page 28 Notification Appliance Circuits and Control Modules 6\VWHP 2YHUYLHZ 127,),&$7,21$33/,$1&(&,5&8,76$1'&21752/02'8/(6 ,QWURGXFWLRQ The control panel supports the following Notification Appliance Circuits (NAC) and control modules: • Indicating Circuit Module (ICM-4) & Indicating Circuit Expander (ICE-4) • Control Relay Module (CRM-4) & Control Relay Expander (CRE-4) •...
Page 29 Voice Alarm System 6\VWHP 2YHUYLHZ 92,&($/$506<67(0 ,QWURGXFWLRQ Voice Alarm equipment provides a manual or automatic supervised paging system for transmitting voice messages (information, instructions, directions) on a selective or all call basis. 9RLFH $ODUP 6\VWHP 1RWH )RU PRUH GHWDLOV UHIHU WR WKH VHFWLRQ RI WKLV PDQXDO The following devices can be connected to the control panel.
Page 30 Voice Alarm System 6\VWHP 2YHUYLHZ 9RLFH&RQWURO0RGXOH9&0 Provides the system with up to four (4) Style Y (Class B) or Style Z (Class A) speaker circuits. Moving a jumper on the module Speaker Speaker configures it for driving FFT-7 circuits. When configured for CIRCUIT 1 CIRCUIT 5 telephone circuits, the VCM-4 accepts its signal directly from a...
Page 31 Voice Alarm System 6\VWHP 2YHUYLHZ This page intentionally left blank. AFC-600 Installation PN 51031:A 03/08/99...
Page 32 Cabinet Hardware 6\VWHP 2YHUYLHZ &$%,1(7+$5':$5( ,QWURGXFWLRQ The control panel and modules can be installed into one of two main cabinet configurations: • A CAB-600AA for compact systems (CPU, MPS-6, and one optional module). Door hinges mount on the left side and the door opens 180 degrees. •...
Page 33 Cabinet Hardware 6\VWHP 2YHUYLHZ &$%$$ 'LPHQVLRQV Shown below are the mounting dimensions of the CAB-600AA cabinet: LQ PP LQ PP LQ PP LQ PP LQ PP )LJXUH &$%$$ 0RXQWLQJ 'LPHQVLRQV AFC-600 Installation PN 51031:A 03/08/99...
Page 34 Cabinet Hardware 6\VWHP 2YHUYLHZ &$%6HULHV&DELQHWV 2YHUYLHZ A series of four (4) different size cabinets, each of which include a backbox and a door. Additional modules mount to Chassis Assemblies that are installed one per each mounting tier. The following lists each CAB-3 series Cabinet Assembly and Chassis Asembly: •...
Page 35 Cabinet Hardware 6\VWHP 2YHUYLHZ &$%% An optional TR-B3 trim ring is available for use with a B-size cabinet. Replacement parts for the cabinet are: a DR-B3 door and a SBB-B3 backbox Mounting dimensions for a CAB-B3 Series cabinet. . 24.00 in 5.218 in 609.6 mm...
Page 36 Cabinet Hardware 6\VWHP 2YHUYLHZ &$%' An optional TR-D3 trim ring is available for use with a D-size cabinet. Replacement parts for the cabinet are: a DR-D3 door and a SBB-D3 backbox Mounting dimensions for a CAB-D3 Series cabinet. . 24.00 in 609.6 mm 4.0 in...
Page 37 Cabinet Hardware 6\VWHP 2YHUYLHZ &+60&KDVVLV'UHVV3DQHO$VVHPEO\ &+6 03 0RGXOH 'UHVV ([SDQGHU 5RZ 5LEERQ &DEOH 31 The CHS-4M provides mounting for expansion modules that extend beyond the first row in the CAB-3 Series cabinet. One Assembly is needed for each additional row of system modules. The CHS-4M includes the CHS-4 Chassis, the MP-1 Module Dress Panel, and the Expander Row Ribbon Cable.
Page 38 Preparing for Installation ,QVWDOODWLRQ ,QVWDOODWLRQ 35(3$5,1*)25,167$//$7,21 8QSDFNLQJWKH6\VWHP Select a location for the control panel in a clean, dry, vibration-free area with moderate temperature. Carefully unpack the system and inspect for shipping damage. Before installing the fire alarm system, read the following: •...
Page 39 Installation Checklist ,QVWDOODWLRQ ,167$//$7,21&+(&./,67 Caution: Make sure to install system components in the sequence listed below. Failure to do so, can damage the control panel and other system components Table 7 contains an installation checklist for installing, wiring, and testing an AFC-600 system: Task Refer to Mount the CAB-3 Series Cabinet Door (CAB-...
Page 40 Installation Checklist ,QVWDOODWLRQ Task Refer to Connect the batteries. "AC and Battery Power Connections (MPS-6)" on page 70. Field test the system. Section 5. 7DEOH ,QVWDOODWLRQ &KHFNOLVW Table 8 contains a checklist for checking the system with AC power applied: Caution: While checking AC power, make sure batteries are not connected.
Page 41 Installing a Cabinet Door ,QVWDOODWLRQ ,167$//,1*$&$%,1(7'225 0RXQWLQJ*XLGHOLQHV Cabinet doors mount on the right or left side configuration, providing easier access for installation and service when control panel is mounted in a confined area or two (2) are mounted side-by-side as shown in below.
Page 42 Installing a Cabinet Door ,QVWDOODWLRQ Figure 10 shows how to mount a top hinge on a door: 6WXG +LQJH 7RS /HIW &RUQHU )LJXUH ,QVWDOOLQJ D 7RS +LQJH Figure 11 hows how to mount a bottom hinge on a door: %RWWRP /HIW 6WDU :DVKHU...
Page 43 Installing a Chassis (CAB-3 Series Cabinets) ,QVWDOODWLRQ ,167$//,1*$&+$66,6&$%6(5,(6&$%,1(76 2YHUYLHZ This section contains instructions for installing the following chassis into a CAB-3 series cabinet: CHS-4 - Use for mounting most accessories. CHS-4L - Use for mounting an AMG-1, FFT-7, or AA-30. CHS-6 - Use for mounting the XP5 Transponder.
Page 44 Mounting a cabinet ,QVWDOODWLRQ 02817,1*$&$%,1(7 This section provides instructions for mounting an CAB-3 Series or CAB-600AA cabinet. Follow these guidelines when mounting the backbox: Caution: Unless you are familiar with the placement of components within this cabinet, only use the knockout locations provided for conduit entry.
Page 45 Mounting an MPS-6 Power Supply ,QVWDOODWLRQ 02817,1*$103632:(56833/< 2YHUYLHZ This section contains instructions for: • Mounting an MPS-6 into a CAB-3 series cabinet. • Mounting an MPS-6 into a CAB-600AA cabinet. 0RXQWLQJDQ036LQWRD&$%6HULHV&DELQHW 1RWH ,I LQFRUSRUDWLQJ D ;70 PRGXOH VHH ,QVWDOOLQJ D ;70 0RGXOH RQ SDJH SULRU WR LQVWDOOLQJ WKH 036 LQWR WKH FDELQHW &RQQHFW WKH 3RZHU +DUQHVV DW WKLV WLPH DOVR To install the MPS-6 into CAB-A3, CAB-B3, CAB-C3, or CAB-D3 cabinets, follow the instructions below:...
Page 46 Mounting an MPS-6 Power Supply ,QVWDOODWLRQ 0RXQWLQJDQ036LQWRD&$%$$ ,I LQFRUSRUDWLQJ D ;70 PRGXOH VHH ,QVWDOOLQJ D ;70 0RGXOH RQ SDJH SULRU WR LQVWDOOLQJ WKH 036 1RWH LQWR WKH FDELQHW &RQQHFW WKH 3RZHU +DUQHVV DW WKLV WLPH DOVR To install the MPS-6 into a CAB-600AA cabinet, follow the instructions below: Step Action Connect battery leads (supplied) to TB11 terminals;...
Page 47 Mounting an APS-6R Auxiliary Power Supply ,QVWDOODWLRQ 02817,1*$1$365$8;,/,$5<32:(56833/< 2YHUYLHZ This section contains instruction for: • Mounting an APS-6R into a CAB-3 Series cabinet on either a CHS-4 or a CHS-4L chassis. • Mounting an APS-6R into a CAB-600AA cabinet. ,QVWDOODWLRQIRUD&$%6HULHV&DELQHW To mount the APS-6R follow the instructions below: Step:...
Page 48 Mounting an APS-6R Auxiliary Power Supply ,QVWDOODWLRQ ,QVWDOODWLRQIRUD&$%$$&DELQHW To mount the APS-6R follow the instructions below: Step: Action: Remove terminal block cover and plastic cover from APS-6R If 240 VAC is to be used, cut JP1 jumper (located in lower-left corner) at this time. Place the APS-6R onto the mounting studs of the CAB-600AA as shown below.
Page 49 Installing an Auxiliary Relay Module (ARM-4) ,QVWDOODWLRQ ,167$//,1*$1$8;,/,$5<5(/$<02'8/($50 2YHUYLHZ If a CRM-4/CRE-4 is to be incorporated into the control panel and an ARM-4 is being driven by it, the ARM-4 should be installed at this point. Keep the following in mind: •...
Page 50 Installing an Auxiliary Relay Module (ARM-4) ,QVWDOODWLRQ &+6 ,QVWDOO VWDQGRIIV RQ WKHVH WZR VWXGV LQ DQ\ RQH RI IRXU SRVLWLRQV DORQJ FKDVVLV )LJXUH 6WDQGRII ORFDWLRQ RQ FKDVVLV 1& 12 & &RP . . . . 1& 12 & ±...
Page 51 Connecting the MPS-6 Power Cables ,QVWDOODWLRQ &211(&7,1*7+(03632:(5&$%/(6 2YHUYLHZ MPS-6 electrical connections include the following: • Primary AC power source – 120 VAC, 50/60 Hz, 2.5 A or 240 VAC, 50/60 Hz, 1.5 A from line voltage source. • Secondary power source – 24 VDC from batteries, installed in the control panel (or in an optional battery cabinet), provides backup power if the system loses primary power.
Page 52 Connecting the MPS-6 Power Cables ,QVWDOODWLRQ &RQQHFWLQJ)RXU:LUH6PRNH'HWHFWRU 9'&3RZHU0367% MPS-6 TB2 terminals TB2-5 (+) and TB2-6 (–) provide up to 1.25 A of current for four-wire smoke detectors. A system reset removes the 24 VDC power from MPS-6 TB2. 24 VDC low-noise four-wire smoke detector power is power-limited but must be supervised.
Page 53 Connecting the MPS-6 Power Cables ,QVWDOODWLRQ 6\VWHP3RZHU&RQQHFWLRQV Figure 23 contains a block diagram that shows system power connections between the MPS-6 and AFC-600 system components: Standard 3RZHU +DUQHVV Optional &38 IRU &$%$$ IRU &$% VHULHV 3RZHU +DUQHVV 3RZHU ULEERQ IRU &$%$$ IRU &$%...
Page 54 Installing the CPU ,QVWDOODWLRQ ,167$//,1*7+(&38 2YHUYLHZ Installation of the CPU is divided into three (3) seperate operations: Connecting the Ribbon Cables for connecting panel modules. Mounting the CPU into the Cabinet Connection of the CPU to the Main Power Supply &RQQHFWLQJ5LEERQ&DEOHVIRUD&$%6HULHV&DELQHW Before mounting the CPU into a cabinet, determine how to setup the Expander Row Ribbon Cables.
Page 55 Installing the CPU ,QVWDOODWLRQ Shown below is a typical wiring setup using two Expander Row Ribbon Cables (PN 71088) to connect the CPU to two rows of four (4) panel modules each below the CPU in a CAB-3 Series cabinet.
Page 56 Installing the CPU ,QVWDOODWLRQ 0RXQWLQJWKH&38LQWRD&$% To install the CPU into a CHS-4 Chassis, follow these steps. Step Action Attach the Ribbon Cables required to the J7 and J8 connectors on the CPU. Angling the unit forward, insert the two tabs of the CPU’s PC board into the two left-side chassis slots, as shown below.
Page 57 Installing the CPU ,QVWDOODWLRQ &RQQHFWLQJ5LEERQ&DEOHIRUD&$%$$&DELQHW Shown below is a typical wiring setup using Expander Row Ribbon Cable (PN 75397) to connect the CPU to a panel module. 1RWH ³3´ LQGLFDWHV D SDQHO PRGXOH )RU H[DPSOH 3 LQGLFDWHV SDQHO PRGXOH FLUFXLW QXPEHU - )LUVW 0RGXOH 5RZ - 1RW 8VHG...
Page 58 Installing the CPU ,QVWDOODWLRQ 0RXQWLQJWKH&38LQWRD&$%$$ To install the CPU into a CAB-600AA cabinet, follow these steps: Step Action Attach the Expander Row Ribbon Cable (PN75397) to the J7 connector on the CPU. Attach the Power Ribbon Cable (PN75398) to J2 and the Power Harness Cable (PN75396) to J6 connectors on the main power supply (Refer to Figure 29 on page 59).
Page 59 Installing the CPU ,QVWDOODWLRQ &RQQHFWLQJWKH&38WRWKH036 Connect the CPU to the MPS-6 using the Power Harness and the Power Ribbon Cable as shown below: 3RZHU +DUQHVV &$%$$ &$% 6HULHV 3LQ 6WULSH 3RZHU 5LEERQ &DEOH 12 1& & 12 1&...
Page 60 Mounting Expander Modules ,QVWDOODWLRQ 02817,1*(;3$1'(502'8/(6 2YHUYLHZ Expander Modules, such as CRE-4, ICE-4 or VCE-4, need to be mounted onto their respective Modules (CRM-4, ICM-4, VCM-4) prior to installation onto a chassis. ,QVWDOODWLRQ The following provides instructions and illustrations for mounting an Expander Module: Step Action Remove one module support screw and set it aside for later use.
Page 61 Mounting Panel Modules ,QVWDOODWLRQ 02817,1*3$1(/02'8/(6 ,QVWDOODWLRQ To install a Panel Module such as a CRM-4, ICM-4 or VCM-4 onto a CHS-4 Chassis, follow these steps: Step Action Angle the module into the chassis so that the lower board edge slips into the chassis slots as shown below.
Page 62 Installing a 4XTM Module ,QVWDOODWLRQ ,167$//,1*$;7002'8/( ,QVWDOODWLRQ Install the 4XTM Remote Station Fire Alarm Module by following these steps: Step Action Remove screws from mounting holes MH1 and MH6 on the MPS-6 board. Assemble two (2) long screws with hollow standoffs to mounting holes (2) in the 4XTM module.
Page 63 Installing a 4XTM Module ,QVWDOODWLRQ &RQQHFWLQJWKH;700RGXOH Caution: Notify the building owner and the fire alarm municipal box monitoring station that the system is being tested and will not report alarms. Push the Disconnect Switch in direction of arrow (see figure below) to prevent unwanted activation of the Municipal Box during testing of the control panel.
Page 64 Field-Wiring the Modules ,QVWDOODWLRQ ),(/':,5,1*7+(02'8/(6 2YHUYLHZ This section contains instructions for the following: • NAC wiring for ICM-4 and ICE-4 Modules • Field-wiring an ICM-4 and ICE-4 (NFPA Style Y and Z) • Field-wiring a CRM-4 and CRE-4 Modules •...
Page 65 Field-Wiring the Modules ,QVWDOODWLRQ 3RZHU +DUQHVV &RQQHFWHG WR 7% 1RQ5HVHW 7RWDO $ )RXU 1$&V WKDW VKDUH $ ,&0 3RZHU +DUQHVV &RQQHFWHG )RXU 1$&V WKDW WR 7% 1RQ5HVHW 7RWDO $ VKDUH $ ,&0 )LJXUH (LJKW 1$&V )LHOG:LULQJDQ,&0DQGDQ,&(1)3$6W\OH<DQG= Guidelines for field-wiring include the following: •...
Page 66 Field-Wiring the Modules ,QVWDOODWLRQ Positions E, F, G, and H are active only with the ICE-4 installed. You can also install a CRE-4 module on the ICM-4, connected as shown in Figure 40: ,&( 0RGXOH & ,&0 0RGXOH )LJXUH )LHOG:LULQJ DQ ,&( )LHOG:LULQJD&50DQGWKH&5( &50 DQG &5( :LULQJ *XLGHOLQHV CRM-4s and CRE-4s provide Form-C silver alloy relay contacts used for medium duty switching...
Page 67 Field-Wiring the Modules ,QVWDOODWLRQ )LHOG:LULQJ)RXU:LUH6PRNH'HWHFWRUV6W\OH%DQG6W\OH' 2YHUYLHZ This section shows how to wire initiating devices which require 24 VDC operating power. Figure 42 shows wiring for Style D (Class A) connections. Figure 43 shows wiring for Style B (Class B) connections. 1RWH $OO FRQQHFWLRQV DUH VXSHUYLVHG DQG SRZHUOLPLWHG 5HIHU WR WKH 'HYLFH &RPSDWLELOLW\ 'RFXPHQW IRU GHWHFWRU DQG SRZHU VXSHUYLVLRQ UHOD\V Connect the Power Supervision Relay coil (A77-716B) leads to the last detector base 24 VDC...
Page 68 Field-Wiring the Modules ,QVWDOODWLRQ )LHOG:LULQJWKH$X[LOLDU\5HOD\0RGXOH$50 2YHUYLHZ This section provides terminal assignments for ARM-4 module control relays K1-K4, which control nonpower-limited circuits. Wiring requirements follow: • Power-limited and nonpower-limited circuit wiring must remain separated in the cabinet. • All power-limited circuit wiring must remain at least 0.25 in. away from any nonpower-limited circuit wiring.
Page 69 Field-Wiring the Modules ,QVWDOODWLRQ )LHOG:LULQJWKH0363RZHU6XSSO\ WARNING: Several sources of power can be connected to the control panel. Before servicing the control panel, disconnect all sources of input power. While energized, the control panel and associated equipment can be damaged by removing and/or inserting cards, modules, or interconnecting cables.
Page 70 Field-Wiring the Modules ,QVWDOODWLRQ '& 3RZHU 2XWSXW &RQQHFWLRQV 036 Terminal TB2 provides three power outputs (each output is power-limited): 1RQUHVHWWDEOH 3RZHU 1RQUHVHWWDEOH 3RZHU 5HVHWWDEOH &LUFXLW &LUFXLW 3RZHU )LJXUH 036 7% '& 2XWSXWV Nonresettable Power (Circuits 1 and 2) – The MPS-6 provides two 24 VDC filtered, low-noise, nonresettable power, 1.25 A circuits.
Page 71 Field-Wiring the Modules ,QVWDOODWLRQ :LULQJ 036 2XWSXW &LUFXLWV The MPS-6 provides four NACs, that you can configure as Style Y(Class B) or Style Z(Class A). • Each circuit can provide 2.5 A of current - but the total current drawn from the MPS-6 cannot exceed 6.0 A (refer to Table G-2).
Page 72 Installing Remote Printers and a CRT ,QVWDOODWLRQ ,167$//,1*5(027(35,17(56$1'$&57 &XVWRP&DEOH)DEULFDWLRQ A custom cable needs to be fabricated to connect a PRN-5 Printer, Keltron Printer or a CRT-2 Monitor to the system. Length of the cable will vary with each installation, but should not exceed a maximum length of 50 feet (15.24 meters).
Page 73 Installing Remote Printers and a CRT ,QVWDOODWLRQ 1RWH 2XWSXWV DUH SRZHUOLPLWHG EXW DUH QRW VXSHUYLVHG '% FRQQHFWRU &38 35,17(5 3&7(50,1$/ )LJXUH 5HPRWH 3ULQWHU &RQQHFWLRQV 6HWWLQJ 351 2SWLRQV Refer to the documentation supplied with the PRN-5 for instructions on using the printer menu controls.
Page 74 Installing Remote Printers and a CRT ,QVWDOODWLRQ ,QVWDOOLQJD.HOWURQ3ULQWHU Connect the remote printer to the CPU-600 as follows: Step Action Connect the three (3) open leads of the custom cable to the TB1 terminal block on the CPU-600 as shown in the figure below. Connect DC power from TB2 terminal block on the MPS-6 power supply as shown in the figure below.
Page 75 Installing Remote Printers and a CRT ,QVWDOODWLRQ ,QVWDOOLQJD&57 1RWH )RU GHWDLOHG LQIRUPDWLRQ RQ VHWWLQJ XS WKH &57 UHIHU WR $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO Connect a CRT-2 to the CPU as follows: Step Action Connect the three (3) open leads of the custom cable to the TB2 terminal block on the CPU-600 as shown in the figure below.
Page 76 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :,5,1*$6,*1$/,1*/,1(&,5&8,76/& 2YHUYLHZRI6/&:LULQJ Communication between the control panel and intelligent and addressable initiating, monitor, and control devices takes place through a Signaling Line Circuit (SLC). You can wire an SLC to meet the requirements of NFPA Style 4, Style 6, or Style 7 circuits. This section covers the topics outlined in Table 13: Topics Refer to...
Page 77 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 6/&'HYLFHV Maximum wiring distance of an SLC using 12 AWG (3.25 mm ) wire: Style 4 -10,000 Feet (3048 meters); Style 6, 7 -10,000 Feet (3048 meters) total twisted-pair. Descriptions of devices connected to an SLC: 5HIHU WR WKH LQVWDOODWLRQ GUDZLQJV VXSSOLHG ZLWK HDFK 6/&...
Page 78 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 6/&3HUIRUPDQFH SLC performance depends on the type of circuit: Style 4, Style 6, or Style 7. 6/& RSHUDWLRQ PHHWLQJ 6W\OH UHTXLUHPHQWV LVRODWHV HQWLUH SK\VLFDO ]RQHV RQ WKH 6/& IURP IDXOWV WKDW 1RWH RFFXU ZLWKLQ RWKHU DUHDV RI WKH 6/& The table below lists the trouble conditions that result when a fault exists on an SLC.
Page 79 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 3DUWLDO&RQGXLW Do not allow the shield drain wire to enter the system cabinet or the conduit. Connect the drain wire to the termination point of the conduit run. ,I WKH OHQJWK RI FRQGXLW 1RWH IURP WKH FRQWURO SDQHO FDELQHW H[FHHGV IHHW PHWHUV...
Page 80 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LUH5HTXLUHPHQWVIRUD7ZR:LUH6W\OH6/& 0HDVXULQJ /RRS 5HVLVWDQFH IRU D 7ZR:LUH 6/& The total DC resistance from the control panel to branch end cannot exceed 40 ohms. Measure DC resistance as detailed and shown below: )RU GHWDLOHG ZLULQJ UHTXLUHPHQWV UHIHU WR $SSHQGL[ % 1RWH Short the termination point of one branch at a time.
Page 81 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 7\SLFDO :LULQJ 'LDJUDP 6W\OH Caution: Terminate shield drain wire according to the instructions in "Shield Termination" on page 78 Wiring of a supervised and power-limited two-wire SLC that meets NFPA 72 Style 4 requirements. Table 16 contains SLC connections shown in Figure 59.
Page 82 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LUH5HTXLUHPHQWVIRUD)RXU:LUH6W\OH6W\OH6/& 0HDVXULQJ /RRS 5HVLVWDQFH IRU D )RXU:LUH 6/& The total DC resistance of the SLC pair cannot exceed 40 ohms. Measure DC resistance as shown below. Disconnect the SLC channel A (Out) and SLC channel B (Return) at the control panel. Short the two leads of SLC channel B (Return).
Page 83 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 7\SLFDO :LULQJ 'LDJUDP 6W\OH Wiring of a supervised and power-limited four-wire SLC that meets NFPA 72 Style 6 requirements. Table 17 contains the SLC connections as shown in Figure 62. Connection SLC 1 SLC 2...
Page 84 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 7\SLFDO :LULQJ 'LDJUDP 6W\OH Obtain Style 7 operation by using isolator detector bases (B524BI or B224BI) or ISO-X modules. Wire-to-wire shorts on the SLC do not prevent the control panel from receiving alarm signals or executing control actions involving addressable devices still communicating with the control panel.
Page 85 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LULQJDQ,62;,VRODWRU0RGXOH 'HVFULSWLRQ RI ,62; 0RGXOH Use an isolator module to protect critical elements of the SLC from faults on other SLC branches or segments. The ISO-X module continuously monitors the circuit connected to terminals 3 (–) and 4 (+).
Page 86 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LULQJDQ,VRODWRU'HWHFWRU%DVH 'HVFULSWLRQ RI %%$ %%$ 3OXJLQ ,VRODWRU 'HWHFWRU %DVHV Isolator bases prevent an entire communications loop from being disabled when a short circuit occurs. This is accomplished by isolating that part of the loop containing the short from the remainder of the circuit.
Page 87 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LULQJDQ,'&ZLWK00;RU)000RGXOHV 2YHUYLHZ The MMX and FMM series modules are addressable modules that monitor conventional contact-type, alarm, supervisory, security, alert, or trouble Initiating Device Circuits. You can wire a supervised module circuit as an NFPA Style B or Style D IDC. •...
Page 88 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ FMM-1 Monitor Module Provides either a 2-wire or 4-wire fault tolerant IDC. FZM-1 Interface Module Allows the control panel to interface and monitor 2-wire conventional smoke detectors. $UHDV XVHG WR UHFRUG 5RWDU\ 6ZLWFKHV WKH GHYLFH DGGUHVV DQG 6/&...
Page 89 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 0RGXOH ,QVWDOODWLRQ 1RWHV H[FHSW 00; 1RWH ,QVWDOODWLRQ QRWHV IRU 00; PRGXOHV DUH OLVWHG ZLWK LWV ,QVWDOODWLRQ ,QVWUXFWLRQV When installing any of the modules, note the following: The IDC is supervised and current-limited to 210 microamperes @ 24 VDC (nominal). The IDC provides the following services (do not mix): •...
Page 90 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LULQJ DQ 00; RU )00 0RGXOH Connect the SLC wiring to the module terminals 1 (–) and 2 (+). Each module takes one address on the SLC. Use the rotary switches on the module to set it to the required SLC address. :LULQJ DQ 1)3$ 6W\OH % ,'&...
Page 91 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LULQJ DQ 1)3$ 6W\OH % ,'& ZLWK 00; RU )=0 The figure below shows typical wiring for a supervised and power-limited NFPA Style B (Class B) Initiating Device Circuit using an MMX-2 or FZM-1 module. For more information on the individual module specifications refer to their Installation Instructions document.
Page 92 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LULQJ DQ 1)3$ 6W\OH ' ,'& ZLWK 00; RU )00 The figure below shows typical wiring for a supervised and power-limited NFPA Style D (Class A) Initiating Device Circuit using an MMX-1 or FMM-1 module. For more information on the individual module specifications refer to their Installation Instructions document.
Page 93 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LULQJ D 1)3$ 6W\OH ' ,'& ZLWK 00; RU )=0 The figure below shows typical wiring for a supervised and power-limited NFPA Style D (Class A) Initiating Device Circuit using an MMX-2 or FZM-1 module. For more information on the individual module specifications refer to their Installation Instructions document.
Page 94 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LULQJD1RWLILFDWLRQ$SSOLDQFH&LUFXLW1$&RU&RQWURO&LUFXLW 0RGXOH 2YHUYLHZ The CMX or FCM-1 module is an addressable module that supervises and switches power to a Notification Appliance Circuit (NAC) or to provide unsupervised Form-C contacts. 5HIHU WR WKH LQVWDOODWLRQ LQVWUXFWLRQ VKHHW VXSSOLHG ZLWK WKH FRQWURO PRGXOH IRU DGGLWLRQDO LQIRUPDWLRQ 1RWH You can use either CMX or FCM-1 modules for one of the following applications: •...
Page 95 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ The figure below shows a CMX module wired to the CPU as a Form-C relay: – 7R QH[W GHYLFH RQ 6/& 5DWLQJV IRU WKH GU\ FRQWDFWV RQ D )RUP& PRGXOH DUH 5HVLVWLYH $ # 9'& ,QGXFWLYH $ # 9'&...
Page 96 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 6/&:LULQJZLWK&0;RU)&00RGXOHV This section contains instructions and wiring diagrams for wiring a CMX or FCM-1 as an NAC. )RU GHWDLOHG LQIRUPDWLRQ RQ ZLULQJ DQ 036 1$& 7%7% UHIHU WR 036 DQG ,&0 1$& 1RWH &RQILJXUDWLRQV RQ SDJH The table below lists the applications for wiring a CMX or FCM-1 in an SLC:...
Page 97 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 8/OLVWHG SRZHU VXSHUYLVLRQ UHOD\ (QGRI/LQH 5HVLVWRU . ZDWW 31 66' $ 8VH DQ 1(/5 LQ &DQDGD 1RWH 7KH FLUFXLW LV VXSHUYLVHG DQG SRZHUOLPLWHG )RU GHWDLOHG LQIRUPDWLRQ RQ ZLULQJ DQ 036 1$& UHIHU WR ´:LULQJ 036 2XWSXW &LUFXLWVµ...
Page 98 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LULQJ D 6W\OH = 1$& )RXU:LUH The figure below shows an NFPA Style Z (Class A) NAC with notification appliances connected to a CMX or FCM-1 module. 1RWH 5HIHU WR WKH 'HYLFH &RPSDWLELOLW\ 'RFXPHQW IRU FRPSDWLEOH QRWLILFDWLRQ DSSOLDQFHV Connect the NAC as follows: Connect the SLC to module terminals 1 (–) and 2 (+).
Page 99 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 6W\OH = 1$& &LUFXLWV 0HWKRG ± 036 SRZHUV &0; RU )&0 The figure below shows an NFPA Style Z (Class A) NAC with an MPS-6 NAC supplying 24 VDC power to a CMX or FCM-1 module. In this circuit, no external ELR is required. The NAC is supervised and power limited.
Page 100 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 6W\OH = 1$& &LUFXLWV 0HWKRG ± 036 SRZHUV &0; RU )&0 The figure below shows a second method of powering a CMX or FCM-1 module from an MPS-6 NAC (See Figure 82 on page 99 for the first method). The NAC is supervised and power-limited. When an MPS-6 NAC supplies power to the CMX or FCM-1 modules: •...
Page 101 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 6/&:LULQJZLWKDQ,QWHOOLJHQW'HWHFWRU 2YHUYLHZ The BX-501 base provides the connection between the SLC and a variety of intelligent detectors. :LULQJ D %; 'HWHFWRU WR DQ 6/& /RRS Typical wiring of a BX-501 detector (wired to a RA400Z remote annunciator) connected to an SLC: Step Action...
Page 102 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 6/&:LULQJZLWKDQ$GGUHVVDEOH0DQXDO3XOO6WDWLRQ 2YHUYLHZ The BGX-101L and NBG-12LX are addressable manual pull stations with a key-lock reset feature. :LULQJ &RQQHFWLRQV Typical wiring for a BGX-101L & NBG-12LX: Step Action Connect the SLC to terminal screws (+) and (–) as shown in the figure below. Connect the Pull Station to the CPU as listed in the table below.
Page 103 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ Wiring diagram for a NBG-12LX: ± 6/& /RRS 287 6/& /RRS ,1 ± 675,3 *$8*( )LJXUH 7\SLFDO 6/& :LULQJ RI DQ 1%*/; 3XOO 6WDWLRQ AFC-600 Installation PN 51031:A 03/08/99...
Page 104 Section Overview 9RLFH $ODUP 6\VWHP 9RLFH$ODUP6\VWHP 6(&7,2129(59,(: This section contains instructions for installing and wiring modules that can be used in an AFC-600 Voice Alarm System. Table 20 contains the topics covered in Section 3. Section Covers the following topics Page Installing an Audio Mounting...
Page 105 Installing an Audio Message Generator 9RLFH $ODUP 6\VWHP ,167$//,1*$1$8',20(66$*(*(1(5$725 0RXQWLQJRIDQ$0*RU$0*( Instructions for mounting an AMG-1/-E module into a CHS-4L chassis are found below: Step Action Place a standoff on the first and fourth studs from the top left corner of the CHS-4L chassis.
Page 106 Installing an Audio Message Generator 9RLFH $ODUP 6\VWHP &RQQHFWLRQVRIDQ$0*RU$0*( The figure below shows the AMG-1 and its terminal connections: 7URXEOH 2XWSXW 7URXEOH ,QSXW 1R &RQQHFWLRQ $0*( ,QWHUFRQQHFW &RQWURO +DUQHVV (,$ &RQQHFWLRQV $XGLR 6LJQDO LQWHUQDO 3RZHU +DUQHVV 2XW $XGLR 6LJQDO H[WHUQDO 3RZHU +DUQHVV ,Q 'LS 6ZLWFK 6:...
Page 107 Installing an Audio Message Generator 9RLFH $ODUP 6\VWHP The table below contains cable part numbers and connections of the AMG-1 terminals: Term Cable Part Number Opposite End Connection Conn Trouble Input To the Trouble Input of the other device in the system or to PN 75098 J4 (Aux Trouble Input) on the MPS-6.
Page 108 Installing an Audio Message Generator 9RLFH $ODUP 6\VWHP &RQILJXULQJWKH$0* $0*( 2YHUYLHZ An AMG-1 appears as an annunciator to the control panel and operates on address 01. Installing an AMG-1 or an AMG-E requires: • Programming the Control Panel. • Setting the DIP Switch (SW2). 3URJUDPPLQJ WKH &RQWURO 3DQHO 6HWWLQJ WKH ',3 6ZLWFK The figure and table below describe the function of each individual switch 1 thru 8:...
Page 109 Installing an Audio Message Generator 9RLFH $ODUP 6\VWHP $0* DQG $0*( 7RQH0HVVDJH 6HOHFWLRQV Listing of the tone and voice message selections available when Tone/Message switch 6: 2II (#2) is OFF: System NAC 1 (B01) Rocker Switches Audio Tone or Voice Message Status Condition No Alarm...
Page 110 Installing an Audio Message Generator 9RLFH $ODUP 6\VWHP $0* DQG $0*( 7RQH0HVVDJH 6HOHFWLRQV Listing of the tone and voice message selections available when Tone/Message switch 6: 2Q (#2) is ON System NAC 1 (B01) Rocker Switches Audio Tone or Voice Message Status Condition No Alarm...
Page 111 Installing an Audio Tone Generator 9RLFH $ODUP 6\VWHP ,167$//,1*$1$8',2721(*(1(5$725 2YHUYLHZ The Audio Tone Generator (ATG-2) provides user-selected tones for single- or dual-channel output and a microphone for paging. This section contains information on mounting, wiring connections and instructions for selecting tones for the ATG-2.
Page 112 Installing an Audio Tone Generator 9RLFH $ODUP 6\VWHP The table below contains a description of the terminal connections: Terminal Used For Trouble Input Connecting trouble output contacts from an audio amplifier. A closure signals the ATG-2 when a device is in trouble. The trouble signal is relayed through the NAC connection.
Page 113 Installing an Audio Tone Generator 9RLFH $ODUP 6\VWHP 6HOHFW DQ (YDF &KDQQHO SULPDU\ 7RQH Use rocker switches 1, 2, 3 and 4 to select one of the listed tones for the EVAC CHANNEL Rocker Slow Hi/Lo Steady Switch Whoop 7DEOH (YDF 7RQH 6HWWLQJV 6HOHFW DQ $OHUW &KDQQHO VHFRQGDU\ 7RQH Use rocker switches 7 and 8 to select one of the listed tones for the...
Page 114 Installing a Firefighter’s Telephone 9RLFH $ODUP 6\VWHP ,167$//,1*$),5(),*+7(5¶67(/(3+21( 2YHUYLHZ The FFT-7 and the FFT-7S modules mount on a CHS-4L chassis. Standard mounting is adjacent to an AMG-1/-E. See next page for center mounting. The module installation kit includes standoffs to secure the module to the studs on the chassis.
Page 115 Installing a Firefighter’s Telephone 9RLFH $ODUP 6\VWHP &HQWHU0RXQWLQJ When it is desireable to mount the unit in the center of the panel; follow these changes to the standard mounting procedure and see the figure below: • Mount standoffs on all studs except the two in the middle (# 4 & 5). •...
Page 116 Installing a Firefighter’s Telephone 9RLFH $ODUP 6\VWHP &RQQHFWLQJDQ))7RU))76 The figure below shows FFT-7 or FFT-7S terminals for connections to other devices in the system: 6LJQDO /RRS 3RZHU ,1 &RQWURO +DUQHVV 3RZHU 287 1R &RQQHFWLRQ AU DIO PAGE M OD E 6: &RYHU O N L I N E FIRE...
Page 117 Audio Amplifiers 9RLFH $ODUP 6\VWHP $8',2$03/,),(56 2YHUYLHZ The control panel uses three types of audio amplifiers that may be installed with the Voice Control System. • AA-30 - Provides up to 30 watts of power for driving 25 Vrms speaker circuits. •...
Page 118 Audio Amplifiers 9RLFH $ODUP 6\VWHP /RZHU %RDUG &RQQHFWLRQV 3ULPDU\ 3RZHU $& 1(875$/ 6HFRQGDU\ 3RZHU '& %DWWHU\ (DUWK (DUWK ± ± ± )LJXUH $$ /RZHU %RDUG &RQQHFWLRQV QRQSRZHUOLPLWHG 8SSHU %RDUG &RQQHFWLRQV 7URXEOH %DFNXS ,Q ± VKLHOG /RZOHYHO 7KUX 6KLHOG %DFNXS 2XW...
Page 119 Audio Amplifiers 9RLFH $ODUP 6\VWHP ,QVWDOOLQJDQ$$RU$$ The AA-100 or AA-120 mounts directly to the cabinet backbox. The following steps apply to the installation of an Audio Amplifier: Mount the unit into the system cabinent. Connect primary (AC) and secondary (24 VDC battery) power source to the unit. Provide an external device (such as an MPS-6) for charging the batteries.
Page 120 Audio Amplifiers 9RLFH $ODUP 6\VWHP 8SSHU %RDUG &RQQHFWLRQV /RZOHYHO $XGLR )RXUZLUH +LJK 6KLHOG /HYHO 5HWXUQ ± VXSHUYLVHG 6KLHOG /RZOHYHO $XGLR 6KLHOG 7KURXJK ± +LJK /HYHO 2XW 6KLHOG &RPPRQ 9 $$ 9UPV $$ 7URXEOH 2XWSXW (DUWK 7URXEOH ,Q 7URXEOH 2XW /RZ /HYHO $XGLR ,Q 7UDQVIRUPHU &RQQHFWLRQ...
Page 121 Audio Amplifiers 9RLFH $ODUP 6\VWHP ,QVWDOOLQJD%DFNXS$PSOLILHU Use an AA-30, AA-100, or AA-120 audio amplifier to back up one or more amplifiers. If an amplifier fails, backup amplifier switching is automatic. To connect amplified audio output, do one of the following: •...
Page 122 Voice Alarm Modules 9RLFH $ODUP 6\VWHP 92,&($/$5002'8/(6 2YHUYLHZ Voice alarm modules for the AFC-600 feature removable terminal blocks that simplify installation and servicing of the control panel. These modules include the Voice Control Module (VCM-4), the Voice Control Expander (VCE-4), and the Dual Channel Module (DCM-4). For instructions on mounting modules, refer to Section 2, Installation.
Page 123 Voice Alarm Modules 9RLFH $ODUP 6\VWHP &RQQHFWLQJ9&06SHDNHU&LUFXLWV Follow these guidelines when connecting VCM-4 speaker circuits: • Speaker circuits are supervised and power-limited. • Use twisted-pair cable for wiring speaker circuits. • Maximum speaker circuit wire resistance depends on the wattage required for each speaker. •...
Page 124 Voice Alarm Modules 9RLFH $ODUP 6\VWHP &RQQHFWLQJ9&07HOHSKRQH&LUFXLWV Follow these guidelines when connecting VCM-4 telephone circuits: • Telephone circuits are supervised and power-limited. • Use twisted-pair cable for telephone circuit wiring. • Maximum telephone circuit wire resistance is 40 ohms. •...
Page 125 Voice Alarm Modules 9RLFH $ODUP 6\VWHP 6HWWLQJ WKH 9&0 WR 6SHDNHU RU 7HOHSKRQH 0RGH The VCM-4 comes with a factory-installed jumper plug on JP3. Use jumper JP3 to select the operating mode of the entire module (VCM-4 plus optional VCE-4). Select Speaker or Telephone mode as detailed below: Select Do this...
Page 126 Voice Alarm Modules 9RLFH $ODUP 6\VWHP &RQQHFWLQJ'XDO&KDQQHO0RGXOH&LUFXLWV Follow these guidelines when connecting DCM-4 speaker circuits. • All speaker circuits are supervised and power-limited. • Twisted-pair cable should be used for speaker circuit wiring. • Maximum speaker circuit wire resistance depends upon the wattage required at each speaker. •...
Page 127 Voice System Configurations 9RLFH $ODUP 6\VWHP 92,&(6<67(0&21),*85$7,216 2YHUYLHZ This section contains typical wiring configurations for voice systems as shown below: Configuration Refer to Internal Power Distribution Figure 110 on page 128 Figure 111 on page 128 CPU EIA-485 Connections Figure 112 on page 129 Figure 113 on page 129 Wiring an Audio Signal without a Backup...
Page 128 Voice System Configurations 9RLFH $ODUP 6\VWHP ,QWHUQDO3RZHU'LVWULEXWLRQ :LULQJ 'LDJUDP Typical wiring for distributing power within a voice system: 3RZHU &DEOH ([SDQGHU 5RZ 5LEERQ &$% &DEOH &$%$$ &38 7 % 7 % 7 % 7 % 7 % 7 % &DEOH LQFOXGHG ZLWK ))7 DQG...
Page 129 Voice System Configurations 9RLFH $ODUP 6\VWHP (,$&RQQHFWLRQV&387% :LULQJ 'LDJUDP Typical wiring of EIA-485 connections between the CPU-600, AMG-1, and annunciators: 1RWH 8VH $:* WR $:* WZLVWHGSDLU FDEOH IRU (,$ 7 % 7 % 7 % 7 % 7 % 7 % FRQQHFWLRQV...
Page 130 Voice System Configurations 9RLFH $ODUP 6\VWHP :LULQJDQ$XGLR6LJQDOZLWKRXWD%DFNXS$PSOLILHU :LULQJ 1RWHV The figure below shows the use of two AA-30s without backup and the table lists the wiring components used. • The first two speaker circuits share 30 watts from one AA-30; the third and fourth speaker circuits share 30 watts from the other AA-30.
Page 131 Voice System Configurations 9RLFH $ODUP 6\VWHP $XGLR6LJQDO:LULQJ8VLQJD%DFNXS$PSOLILHU :LULQJ 1RWHV The figure below shows the use of two AA-30s with a backup and the table lists the wiring components used. • Use 18 AWG to 12 AWG twisted-pair cable for EIA-485 connections. •...
Page 132 Voice System Configurations 9RLFH $ODUP 6\VWHP &387URXEOH%XV&RQQHFWLRQV :LULQJ 1RWHV This section contains wiring diagrams for connecting the CPU-600 trouble bus. When connecting the CPU trouble bus, note the following: • Trouble bus connections P9 and P10 on audio amplifiers (AA-30, AA-100, and AA-120) are interchangeable.
Page 133 XP-5C Module Speaker/Telephone Circuits 9RLFH $ODUP 6\VWHP ;3&02'8/(63($.(57(/(3+21(&,5&8,76 0RGXOH'HVFULSWLRQ Each of the five circuits of the XP5 act as a supervising circuit for a speaker/ telephone and provides power to a Class-B circuit. One XP5-C occupies five consectutive addresses on the SLC. All five circuits are addressed collectively with two switches, and each circuit has one green LED status indicator that blinks when not active, and when active produces a steady glow.
Page 134 XP-5C Module Speaker/Telephone Circuits 9RLFH $ODUP 6\VWHP ;3& 6SHDNHU7HOHSKRQH :LULQJ 'LDJUDP Typical wiring for an XP5-C Speaker/Telephone circuit. )LJXUH :LULQJ 'LDJUDP 1RWH :KHQ WKH DPSOLIHU LV QRW LQ WKH VDPH FDELQHW DV WKH ;3& WKH UHWXUQ FRQQHFWLRQ PXVW EH PDGH WR WKH DXGLR DPSOLIHU AFC-600 Installation PN 51031:A 03/08/99...
Page 135 XP-5C Module Speaker/Telephone Circuits 9RLFH $ODUP 6\VWHP ;3& 6SHDNHU7HOHSKRQH :LULQJ 'LDJUDP Typical wiring for an XP5-C Speaker/Telephone circuitt )LJXUH :LULQJ 'LDJUDP 1RWH :KHQ WKH DPSOLIHU LV QRW LQ WKH VDPH FDELQHW DV WKH ;3& WKH UHWXUQ FRQQHFWLRQ PXVW EH PDGH WR WKH DXGLR DPSOLIHU ;3 6HULHV 7UDQVSRQGHUV 1RWH 6HH...
Page 136 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :,5,1*63($.(5&,5&8,76 2YHUYLHZ This section contains typical wiring diagrams for wiring speaker circuits in the configurations listed below: Configuration Refer to 30 Watt - Four and Eight Speaker Four speakers – Figure 120 on page 137 Circuits Eight speakers –...
Page 137 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :DWW)RXUDQG(LJKW6SHDNHU&LUFXLWV :LULQJ 1RWHV When wiring four- and eight-speaker circuits using 30 watts of power, note the following: An AA-30 supplies audio power through plug P6, or terminals 5 and 6 on terminal block P8. This audio power run is not supervised.
Page 138 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :DWW)RXUDQG(LJKW6SHDNHU&LUFXLWV :LULQJ 1RWHV When wiring four- and eight-speaker circuits using 120 watts of power, note the following: The AA-120 draws audio power from plug P6, or terminals 5 and 6 of terminal block P8. This audio power run is not supervised.
Page 139 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :DWW(LJKW6SHDNHU&LUFXLW&RQILJXUDWLRQ :LULQJ 1RWHV When wiring eight speaker circuits using 90 watts of power, note the following: The AA-30 supplies audio power through plug P6, or terminals 5 and 6 on terminal block P8. (This audio power run is not supervised.) If using the optional supervised return, a loss of audio power (due to a break in the wiring) will generate a trouble signal at the AA-30.
Page 140 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :DWW(LJKW6SHDNHU&LUFXLW :LULQJ 1RWHV When wiring eight speaker circuits using 240 watts of power, note the following: The AA-120 draws audio power from plug P6, or terminals 5 and 6 of terminal block P8. This audio power run is not supervised.
Page 141 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :DWW(LJKW6SHDNHU&LUFXLW&RQILJXUDWLRQ :LULQJ 1RWHV When wiring eight speaker circuits using 180 watts of power, note the following: AA-30 audio power is drawn from plug P6 or terminals 6 and 7 of terminal block P8. This audio power run is not supervised.
Page 142 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :DWW'XDO&KDQQHO&RQILJXUDWLRQ :LULQJ 1RWHV When wiring circuits in a dual-channel configuration using 30 watts of power, note the following: Plug P6 or terminals 5 and 6 of terminal block P8 provide AA-30 audio power. This audio power run cannot be supervised in this configuration.
Page 143 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :DWW'XDO&KDQQHO&RQILJXUDWLRQ)RXU$$V :LULQJ 1RWHV When wiring circuits in a dual-channel configuration using 120 watts of power with four AA-30s, note the following: AA-30 audio power is drawn from plug P6 or terminals 6 and 7 of terminal block P8. (This audio power run is not supervised.) If using the optional supervised return (plug P7, or terminals 2 and 3 of terminal block P8), loss of audio power due to a break in the wiring generates a trouble signal at the AA-30.
Page 144 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :DWW'XDO&KDQQHO&RQILJXUDWLRQ7ZR$$V :LULQJ 1RWHV When wiring circuits in a dual-channel configuration using 120 watts of power with two AA-120s, note the following: AA-120 audio power is drawn from plug P6 or terminals 5 and 6 of terminal block P8. This audio power run cannot be supervised in this configuration.
Page 145 Voice Message Options (VROM and VRAM) 9RLFH $ODUP 6\VWHP 92,&(0(66$*(237,2169520$1'95$0 2YHUYLHZ You can install two types of message chips into an AMG-1: VROM – A nonvolatile memory chip containing a factory-programmed evacuation message (up to 24 seconds). You can install one or two VROMs into an AMG-1. Refer to Document 15945 for a summary of messages of available VROMs.
Page 146 ACT-1 Audio Coupling Transformer 9RLFH $ODUP 6\VWHP $&7$8',2&283/,1*75$16)250(5 2YHUYLHZ The ACT-1 Audio Coupling Transformer couples low-level audio to audio amplifiers or other audio inputs, such as the ATG-2. The unit can be used to couple a low-level audio signal to up to eight devices in the same cabinet.
Page 147 ACT-1 Audio Coupling Transformer 9RLFH $ODUP 6\VWHP $&7,QVWDOODWLRQ ,QVWDOODWLRQ 1RWHV The ACT-1 connects to one of up to eight amplifiers on a channel. Multiple ACT-1s are required for amplifiers on multiple channels. To install an ACT-1, follow these steps: Connect the low-level audio circuit to the terminal block on the ACT-1.
Page 148 Applications Overview $SSOLFDWLRQV $SSOLFDWLRQV $33/,&$7,21629(59,(: Table 5-1 contains an index to sections and topics covered in Section 5: Section Covers the following topics "Central or Remote Station Installing and configuring a UDACT with the control panel. Fire Alarm System" on page "Auxiliary Fire Alarm How to wire for an Auxiliary Fire Alarm System (Municipal System"...
Page 149 Central or Remote Station Fire Alarm System $SSOLFDWLRQV &(175$/255(027(67$7,21),5($/$506<67(0 ,QVWDOODWLRQ The figure below shows typical wiring diagram for a NFPA 72 Central Station Fire Alarm System (Protected Premises Unit) or a Remote Station Fire Alarm System (Protected Premises Unit) using the Universal Digital Alarm Communicator/Transmitter (UDACT) and control panel.
Page 150 Auxiliary Fire Alarm System $SSOLFDWLRQV $8;,/,$5<),5($/$506<67(0 ,QVWDOODWLRQ The figure below shows typical wiring for an Auxiliary Fire Alarm System (Municipal Box connected to a 4XTM). Note the following: • NFPA 72 Auxiliary Fire Alarm Systems require 60 hours of standby power. •...
Page 151 NFPA 72 Remote Station Fire Alarm System $SSOLFDWLRQV 1)3$5(027(67$7,21),5($/$506<67(0 ,QVWDOODWLRQ The figure below shows typical wiring for NFPA 72 Remote Station Fire Alarm System (UL-listed Fire•Lite RS82 Remote Station Receiver). 1RWH 5HIHU WR )LUH‡/LWH $ODUPV ,QF ,QVWUXFWLRQ 0DQXDO IRU WKH 5HPRWH 6WDWLRQ 5HFHLYHU 0RGHO 56 Note the following: •...
Page 152 NFPA 72 Proprietary Fire Alarm Systems $SSOLFDWLRQV 1)3$35235,(7$5<),5($/$506<67(06 2YHUYLHZ The AFC-600 will automatically transmit General Alarm, General Trouble, and General Supervisory signals, and will receive Acknowledge, Silence, and Reset commands automatically from the AM2020/AFP1010. To transmit zone alarm and zone trouble information, program the AFC-600 points to Software Zones 1 through 99.
Page 153 Network Interface Board (NIB-96) $SSOLFDWLRQV 1(7:25.,17(5)$&(%2$5'1,% 2YHUYLHZ The Network Interface Board (NIB-96) is a microprocessor-controlled module that connects slave fire alarm control panels to a master fire control panel. Typically, NIB-96 modules are physically located in each slave control panel, which can contain 8 to 96 input/output points. 1RWH <RX FDQQRW DVVLJQ WKH ILUVW IRXU SRLQWV LQ DQ\ 1,% FRQILJXUDWLRQ EHFDXVH WKHVH SRLQWV DUH UHVHUYHG IRU LQWHUSDQHO FRPPXQLFDWLRQ This section contains board and wiring information for connecting a NIB-96 to an AFC-600 control...
Page 154 Network Interface Board (NIB-96) $SSOLFDWLRQV 1,%6/&DQG(,$&RQQHFWLRQV Pinouts for SLC (P5) and EIA-485 (P4) connections on the NIB-96 module. The EIA-485 circuit requires a serial connection. Connect only one wire to each screw terminal. (,$ 2XW 6/& ,Q (,$ ,Q 6/&...
Page 155 Using the XP Series Transponder $SSOLFDWLRQV 86,1*7+(;36(5,(675$16321'(5 2YHUYLHZ The XP Series Transponder is a multiplex subsystem that communicates directly with the CPU through an SLC. If the CPU fails or loses power, the XP Series Transponder can operate in a degraded stand-alone mode.
Page 156 Fire/Security Applications $SSOLFDWLRQV ),5(6(&85,7<$33/,&$7,216 2YHUYLHZ You can use the control panel as a combination Fire/Security and Security system when operated according to the instructions in this section. *HQHUDO2SHUDWLRQ For security applications, program one or more MMX modules with the Type Code, and SECURITY wire as shown in Figure 142 on page 158.
Page 157 Fire/Security Applications $SSOLFDWLRQV ,QVWDOOLQJD6HFXULW\7DPSHU6ZLWFK&$%6HULHV Follow the instructions below to wire the cabinet with a Security Tamper Switch kit. CAB-3 Series cabinets require Tamper Switch model STS-1. Step Action Install the STS-1 Tamper Switch onto the side of the backbox opposite the door hinge, pushing the switch through the opening until it snaps into place Install the magnet on the same side of the cabinet door as the lock.
Page 158 Fire/Security Applications $SSOLFDWLRQV :LULQJIRU3URSULHWDU\6HFXULW\$ODUP$SSOLFDWLRQV Typical wiring for proprietary security alarm applications with a XP5-C module configured as an NAC. Note the following: • The XP5-C module is configured as an NAC and programmed in the Protected Premises Unit. • XP5-M’s are programmed with software Type Code.
Page 159 Universal Zone Coder - UZC-256 $SSOLFDWLRQV 81,9(56$/=21(&2'(58=& 'HVFULSWLRQ The Universal Zone Coder module is used for zone coding for NACs, providing up to 256 Software Zone codes. The module monitors system status through the EIA-485 ACS port (TB4 on the CPU) and outputs pre-programmed codes in response to signals it receives.
Page 160 Universal Zone Coder - UZC-256 $SSOLFDWLRQV 1$&3RZHUDQG(,$&RQQHFWLRQV The figure below shows the NAC and EIA-485 power connections on the UZC-256 module: 1$& FLUFXLW 1& &20 1$& FLUFXLW 1& 1$& 3RZHU &RQQHFWLRQV &20 1$& FLUFXLW 1& 1$& FLUFXLW &20 SRZHU 1$&...
Page 161 Universal Zone Coder - UZC-256 $SSOLFDWLRQV 0RXQWLQJWKH8=&0RGXOH 2YHUYLHZ You can mount the UZC-256 module into a CAB-3 series or a CAB-600AA. This section shows how to install the module both ways. For information on configuring the module, refer to "Wiring 12 Zone-Coded NACs"...
Page 162 Universal Zone Coder - UZC-256 $SSOLFDWLRQV &$%$$ ,QVWDOODWLRQ You can also mount the module to the upper right corner of the CAB-600AA Series cabinet as follows: Step Action Place the module into the CAB-600AA as shown in figure below. Attach the module to the CAB-600AA with self-tapping screws (supplied).
Page 163 Universal Zone Coder - UZC-256 $SSOLFDWLRQV &RQQHFWLQJWKH8=&0RGXOH To connect the UZC-256 to the CPU, follow these steps: Step Action Connect the main power harness (PN 75100 provided) from MPS-6 connector J1 to UZC-256 connector P2. Connect the EIA-485 ACS port (TB4 on the CPU) as follows: CPU, TB4-1 to UZC-256, TB2-3 CPU, TB4-2 to UZC-256, TB2-5 1RWH 8=& WHUPLQDOV DUH QXPEHUHG IURP ULJKW WR OHIW...
Page 164 Universal Zone Coder - UZC-256 $SSOLFDWLRQV :LULQJ=RQH&RGHG1$&V This section contains information for wiring UZC-256 modules for 12 zone-coded NACs. The table contains a list of connections between panel modules and the UZC-256, using one APS-6R. UZC-256 Connector Connects to NAC 1 APS-6R, J1 ICM-4, J5...
Page 165 Universal Zone Coder - UZC-256 $SSOLFDWLRQV :LULQJ=RQH&RGHG1$&V This section contains information for wiring UZC-256 modules for 20 zone-coded NACs. The table below contains a list of connections between the panel modules and the UZC-256, using one APS-6R. UZC-256 Connector Connects to NAC 1 APS-6R, J1...
Page 166 Releasing Applications $SSOLFDWLRQV 5(/($6,1*$33/,&$7,216 WARNING When used for CO releasing applications, observe proper precautions as stated in NFPA 12. Do not enter the protected space unless physical lockout and other safety procedures are fully completed. Do not use software disable functions in the panel as lockout. 2YHUYLHZ This control panel can be used for agent release or preaction/deluge control applications.
Page 167 Releasing Applications $SSOLFDWLRQV :LULQJIRU5HOHDVLQJ$SSOLFDWLRQV References to wiring diagrams for releasing applications: To connect Refer to A releasing device to the MPS-6 "Connecting a Releasing Device to the MPS-6" on page 168. A Releasing Device to an ICM-4/ "Connecting a Releasing Device to an ICM-4/ ICE-4 ICE-4 Module"...
Page 168 Releasing Applications $SSOLFDWLRQV &RQQHFWLQJD5HOHDVLQJ'HYLFHWRWKH036 2YHUYLHZ When connecting a releasing device to an MPS-6, note the following: The control panel provides four NAC/Releasing Circuits (Style Y or Z). Each circuit can provide 2.5 A. Total current drawn from the MPS-6 cannot exceed 6 A (refer to “System Draw Current Calculations”...
Page 169 Releasing Applications $SSOLFDWLRQV &RQQHFWLQJD5HOHDVLQJ'HYLFHWRDQ,&0,&(0RGXOH 2YHUYLHZ When connecting a releasing device to an ICM-4 or ICE-4 module, note the following: The ICM-4 and ICE-4 provide four NAC/Releasing Circuits (Style Y or Z). Each circuit can provide 3 A of current. Make sure to keep total system current within the limits of the power supply.
Page 170 Releasing Applications $SSOLFDWLRQV &RQQHFWLQJD5HOHDVLQJ'HYLFHWRD)&0RU&0;0RGXOH 2YHUYLHZ You can use either module for releasing circuits. Each module can control 1 A of current. Make sure to keep total system current within the limits of the power supply. You can power the modules from the MPS-6 or any UL-listed 24 VDC regulated power-limited power supply for Fire Protective Signaling.
Page 171 Releasing Applications $SSOLFDWLRQV &RQQHFWLQJDQ1$5$$JHQW5HOHDVH$ERUW6WDWLRQ 2YHUYLHZ When connecting an N-ARA-10, note the following: For releasing applications, use an End-of-Line device (PN REL-47K) with the FCM-1 or CMX module. Use an End-of-Line device (PN REL-2.2K) with the control panel releasing circuit (one of the four Notification Appliance Circuits).
Page 172 Releasing Applications $SSOLFDWLRQV ,QVWDOOLQJD&RPELQDWLRQ:DWHUIORZ6XSHUYLVRU\9DOYH0RQLWRU 2YHUYLHZ A Combination Waterflow/Supervisory Valve Monitor circuit allows an FACP to distinguish between a Waterflow Alarm Switch and a Waterflow Supervisory Switch installed on the same FMM-1 module. The figure below shows an NFPA Style B Initiating Device Circuit (IDC) that meets requirements for a Combination Waterflow/Supervisory Valve Monitor circuit.
Page 173 Acceptance Test 7HVWLQJ WKH 6\VWHP 7HVWLQJWKH6\VWHP $&&(37$1&(7(67 When finished with the original installation and all modifications, conduct a complete operational test on the entire installation to verify compliance with applicable NFPA standards. Testing should be conducted by a factory-trained fire alarm technician in the presence of a representative of the Authority Having Jurisdiction and the owner's representative.
Page 174 Battery Checks and Maintenance 7HVWLQJ WKH 6\VWHP ❏ Return all circuits to their pretest condition. ❏ Check that all yellow LEDs are off and the green AC POWER LED is on. ❏ Notify fire, central station and/or building personnel when you finish testing the system. %$77(5<&+(&.6$1'0$,17(1$1&( Maintenance-free sealed lead-acid batteries used in the system do not require the addition of water or electrolyte.
Page 175 Overview $SSHQGL[ $ $QQXQFLDWRUV $SSHQGL[$$QQXQFLDWRUV 29(59,(: 1RWH $SSHQGL[ $ FRQWDLQV LQIRUPDWLRQ VSHFLILF WR WKH $)& RQO\ )RU GHWDLOHG LQIRUPDWLRQ RQ DQQXQFLDWRU LQVWDOODWLRQ UHIHU WR WKH DQQXQFLDWRU PDQXDO Appendix A contains the following information: • Annunciator interface information for EIA-485 connections to the control panel •...
Page 176 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $1181&,$7256(/(&7,21*52836 2YHUYLHZ The control panel’s annunciation points are divided into 13 ACS Selection Groups of 64 points. Table 47 contains a list of the ACS Selection Groups, what an annunciator displays if a group is selected, and where to locate a list of the 64 points within the ACS Selection Groups.
Page 177 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6$QQXQFLDWRU6HOHFWLRQ*URXS$ $&6 3RLQW 3RLQW 7\SH 5HG /(' <HOORZ /(' 6ZLWFK )XQFWLRQ &RPPHQWV 1XPEHU ,QGLFDWHV ,QGLFDWHV Input System Alarm System Trouble Acknowledge Output Not Used Signal Silenced Alarm Silence Output Not Used Program Mode System Reset Output Not Used Supervisory...
Page 178 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6$QQXQFLDWRU6HOHFWLRQ*URXS% $&6 3RLQW 3RLQW 7\SH 5HG /(' <HOORZ /(' 6ZLWFK )XQFWLRQ &RPPHQWV 1XPEHU ,QGLFDWHV ,QGLFDWHV Input Zone 57 Active Zone 57 Trouble Not Used Input Zone 58 Active Zone 58 Trouble Not Used Input Zone 59 Active Zone 59 Trouble Not Used...
Page 179 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6$QQXQFLDWRU6HOHFWLRQ*URXS& $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input or Output Loop 1, Module 001 Active Loop 1, Module 001 Trouble Controls Output Module Input or Output Loop 1, Module 002 Active Loop 1, Module 002 Trouble Controls Output Module Input or Output...
Page 180 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6$QQXQFLDWRU6HOHFWLRQ*URXS' $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input or Output Loop 2, Module 001 Active Loop 2, Module 001 Trouble Controls Output Module Input or Output Loop 2, Module 002 Active Loop 2, Module 002 Trouble Controls Output Module Input or Output...
Page 181 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6$QQXQFLDWRU6HOHFWLRQ*URXS( $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input or Output Loop 1, Module 065 Active Loop 1, Module 065 Trouble Controls Output Module Input or Output Loop 1, Module 066 Active Loop 1, Module 066 Trouble Controls Output Module Input or Output...
Page 182 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6$QQXQFLDWRU6HOHFWLRQ*URXS) $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input or Output Loop 2, Module 065 Alarm Loop 2, Module 065 Trouble Controls Output Module Input or Output Loop 2, Module 066 Alarm Loop 2, Module 066 Trouble Controls Output Module Input or Output...
Page 183 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6$QQXQFLDWRU6HOHFWLRQ*URXS* $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Output Loop 1, Module 129 Active Loop 1, Module 129 Trouble Controls Loop 1, Module 129 Output Loop 1, Module 130 Active Loop 1, Module 130 Trouble Controls Loop 1, Module 130 Output Loop 1, Module 131 Active Loop 1, Module 131 Trouble...
Page 184 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6$QQXQFLDWRU6HOHFWLRQ*URXS+ $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input Loop 1, Detector 001 Alarm Loop 1, Detector 001 Trouble Not Used Input Loop 1, Detector 002 Alarm Loop 1, Detector 002 Trouble Not Used Input...
Page 185 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6$QQXQFLDWRU6HOHFWLRQ*URXS, $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input Loop 2, Detector 001 Alarm Loop 2, Detector 001 Trouble Not Used Input Loop 2, Detector 002 Alarm Loop 2, Detector 002 Trouble Not Used Input...
Page 186 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6$QQXQFLDWRU6HOHFWLRQ*URXS- $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input Loop 1, Detector 065 Alarm Loop 1, Detector 065 Trouble Not Used Input Loop 1, Detector 066 Alarm Loop 1, Detector 066 Trouble Not Used Input...
Page 187 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6$QQXQFLDWRU6HOHFWLRQ*URXS. $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input Loop 2, Detector 065 Alarm Loop 2, Detector 065 Trouble Not Used Input Loop 2, Detector 066 Alarm Loop 2, Detector 066 Trouble Not Used Input...
Page 188 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6$QQXQFLDWRU6HOHFWLRQ*URXS/ $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input Loop 1, Detector 129 Alarm Loop 1, Detector 129 Trouble Not Used Input Loop 1, Detector 130 Alarm Loop 1, Detector 130 Trouble Not Used Input Loop 1, Detector 131 Alarm Loop 1, Detector 131 Trouble...
Page 189 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6$QQXQFLDWRU6HOHFWLRQ*URXS0 $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Output Module P1.1 Active Module P1.1 Trouble Controls Module P1.1 Output Module P1.2 Active Module P1.2 Trouble Controls Module P1.2 Output Module P1.3 Active Module P1.3 Trouble Controls Module P1.3...
Page 190 Connecting Annunciators $SSHQGL[ $ $QQXQFLDWRUV &211(&7,1*$1181&,$7256 2YHUYLHZ This section contains guidelines, installation instructions, and wiring diagrams for connecting annunciator devices to the control panel. Table 61 lists each device covered in this section: Refer to Topic Covers page LCD-80 Terminal Mode EIA-485 Connecting an LCD-80 in terminal connections mode, to the CPU.
Page 191 Connecting Annunciators $SSHQGL[ $ $QQXQFLDWRUV /&'7HUPLQDO0RGH(,$&RQQHFWLRQ&387% &RQQHFWLRQ *XLGHOLQHV An LCD-80 operating in Terminal Mode connects to TB3 on the CPU using a power-limited and supervised EIA-485 circuit as shown in Figure 156the figure below. • Maximum distance between the control panel and the first or last LCD-80 and between each LCD-80: 6,000 feet (using 16 AWG wire).
Page 192 Connecting Annunciators $SSHQGL[ $ $QQXQFLDWRUV /&'$&60RGH(,$&RQQHFWLRQ&387% &RQQHFWLRQ *XLGHOLQHV When operating an LCD-80 in ACS Mode, the LCD-80 connects to TB4 on the CPU using an EIA-485 circuit as shown in Figure 157. • EIA-485 circuits are power-limited and supervised. • LCD-80s require connection of operating power.
Page 193 Connecting Annunciators $SSHQGL[ $ $QQXQFLDWRUV 3RZHULQJ$&6$&0DQG/&'W\SH$QQXQFLDWRUV 2YHUYLHZ An LCD-80 operated in ACS Mode connects to TB4 on the CPU using a power-limited EIA-485 circuit. Figure 158Figure 158 shows power connections for LCD-, ACM-, and ACS- type annunciators; and Figure 159 Figure 159 shows power connections for LCD-80s. The following guidelines apply to both figuresFigure 158Figure 159: •...
Page 194 Connecting Annunciators $SSHQGL[ $ $QQXQFLDWRUV $&6DQG/'06HULHV(,$&RQQHFWLRQ &RQQHFWLRQ *XLGHOLQHV When operating an ACS Series annunciator, including the LDM-32, connect the annunciator to TB4 on the CPU using an EIA-485 circuit as shown in figure belowFigure 160. 1RWH 5HIHU WR WKH $&6 0DQXDO DQG WKH /'0 0DQXDO IRU DGGLWLRQDO LQIRUPDWLRQ •...
Page 195 Connecting Annunciators $SSHQGL[ $ $QQXQFLDWRUV This page intentionally left blank. AFC-600 Installation PN 51031:A 03/08/99...
Page 196 Connecting Annunciators $SSHQGL[ $ $QQXQFLDWRUV This page intentionally left blank. AFC-600 Installation PN 51031:A 03/08/99...
Page 197 Electrical Specifications $SSHQGL[ % (OHFWULFDO 6SHFLILFDWLRQV $SSHQGL[%(OHFWULFDO6SHFLILFDWLRQV (/(&75,&$/63(&,),&$7,216 $&3RZHU Component Values MPS-6 9 $& +] $ RU Power Supply 240 VAC, 50/60 Hz, 1.5 A APS-6R 120 VAC, 60 Hz, 2.5 A Auxiliary Power Supply 240 VAC, 50 Hz, 1.2 A AVPS-24 120 VAC, 1.0 A each Audio/Visual Power Supply...
Page 198 Electrical Specifications $SSHQGL[ % (OHFWULFDO 6SHFLILFDWLRQV 6LJQDOLQJ/LQH&LUFXLW6/& Listed below are specifications for an SLC: Item Value Voltage 24 VDC nominal, 27.6 VDC maximum Maximum length 10,000 ft. (3048 m) per channel (NFPA Style 4) or 10,000 ft. (3048 m) total loop or circuit length (NFPA Style 6 and 7) 1RWH 5HIHU WR ZLUH WDEOH IRU OLPLWDWLRQV Maximum current 250 mA (max short circuit) or 100 mA (normal)
Page 199 Electrical Specifications $SSHQGL[ % (OHFWULFDO 6SHFLILFDWLRQV )RXUZLUH6PRNH'HWHFWRU3RZHU MPS-6 Power Supply terminals TB2-5 (+) and TB2-6 (–) supply filtered, low-noise power for four-wire smoke detectors. Specifications are: • Max. ripple voltage: 10 mVrms • Up to 1.25 A is available for powering four-wire smoke detectors. For 24 VDC detectors, refer to the Device Compatibility Document for compatible detectors.
Page 200 Wire Requirements $SSHQGL[ % (OHFWULFDO 6SHFLILFDWLRQV :,5(5(48,5(0(176 Each type of circuit within the Fire Alarm Control System requires use of a specific wire type to ensure proper circuit operation. The wire gauge of a particular circuit depends on the length of that circuit.
Page 201 Wire Requirements $SSHQGL[ & &RPSDWLEOH (TXLSPHQW $SSHQGL[&&RPSDWLEOH(TXLSPHQW This document lists Notifier and System Sensor equiptment that is compatible with the control panel. Also, refer to the Device Compatibility Document (Document 15378) for other compatible equipment. 1RWLILHU&RPSDWLEOH(TXLSPHQW 4XTM Transmitter Module CRM-4 Control Relay Module AA-30 30-Watt Audio Amplifier CRT-2 Video Display Monitor with Keyboard AA-100 100-Watt Audio Amplifier...
Page 202 Wire Requirements $SSHQGL[ & &RPSDWLEOH (TXLSPHQW 1RWLILHU&RPSDWLEOH(TXLSPHQW PS-12120 Battery 12-volt, 12 amp-hour TR-500 Trim Ring for CAB-600AA PS-12180 Battery 12-volt, 18 amp-hour UDACT Universal Digital Alarm Communicator PS-12250 Battery 12-volt, 25 amp-hour Transmitter PS-12600 Battery 12-volt, 60 amp-hour UZC-256 Universal Zone Coder R-120 120 Ohm End-of-Line Resistor Veri•Fire Off-line Programming Kit R-2.2K 2.2K End-of-Line Resistor...
Page 203 Overview $SSHQGL[ ' &57 &RQILJXUDWLRQ $SSHQGL['&57&RQILJXUDWLRQ 29(59,(: The CRT-2 communicates with the control panel through a protocol defined by thirteen groups of parameters. To access a parameter group, press the corresponding function key (F1-F13) as shown in Table 68. You can then program parameters in each group. 6HWWLQJ&573DUDPHWHUV Enter the CRT-2 setup menu by pressing and holding the <Ctrl>...
Page 204 Overview $SSHQGL[ ' &57 &RQILJXUDWLRQ 8SORDGLQJRU'RZQORDGLQJWKH2SHUDWLQJ3URJUDP 1RWH )RU LQVWUXFWLRQV RQ XVLQJ 9HUL‡)LUHŒ2II/LQH 3URJUDPPLQJ 8WLOLW\ UHIHU WR WKH 9HUL‡)LUH RQOLQH KHOS You can also use the CPU EIA-232 port to upload and download the operating program of the control panel, using the Veri•Fire™ Off-Line Programming Utility. Download operations that change the basic program of the control panel must be performed by responsible service personnel in attendance at the control panel.
Page 205 General Description $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO $SSHQGL[(7HUPLQDO,QWHUIDFH3URWRFRO *(1(5$/'(6&5,37,21 The control panel can communicate with a remote terminal or computer connected to the CPU EIA-232 PC/Terminal port (CPU, TB2). (Refer to Section 2, “Installation,” for installation information.) Set up the EIA-232 port for interactive operation or for monitoring only. Interactive operation requires that all equipment be UL-listed under UL Standard for Safety UL 864 and be installed and set up as directed under Local Terminal Mode (LocT) or Local Monitor Mode (LocM).
Page 206 Operating Modes $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO /RFDO7HUPLQDO0RGH/RF7 Functions, passwords, and special requirements of Local Terminal Mode (LocT) are: Table 69 Functions: Read Status, Alter Status, and Control Functions (Table 69). Passwords: User-defined password for Alter Status functions. Requirements: The terminal must be mounted in a UL 864 listed enclosure, a Notifier Rack-51, Rack-67, or positioned to provide equivalent protection against unauthorized use.
Page 207 Operating Modes $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO /RFDO0RQLWRU0RGH/RF0 Functions, passwords, and special requirements of Local Monitor Mode (LocM) are: Functions: Read Status, Alter Status, and Control Functions (Table 70). Passwords: User-defined password for Alter Status and Control functions. Requirements: Password security feature for Control Functions eliminates the need for mounting the CRT-2 in an enclosure.
Page 208 Operating Modes $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO 5HPRWH7HUPLQDO0RGH5HP7 Functions, passwords, and special requirements of Remote Terminal Mode (RemT) are: Functions: Read Status only. See Table 71. Passwords: None Requirements: Use with UL EDP-listed terminals, including personal computers with the Veri•Fire™ Off-Line Programming Utility or terminal emulation software. Intended for terminals connected through modems, including FSK modems connected through a public switched telephone network.
Page 209 Using the CRT-2 for Read Status $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO 86,1*7+(&57)255($'67$786 2YHUYLHZ This section shows how to do Read Status functions from a CRT-2. For information on the Read Status function, refer to the AFC-600 Operations Manual. Function Lets you... Read Point Read the status of any point in the system (detectors, modules, panel circuits, software zones, and system parameters).
Page 210 Using the CRT-2 for Read Status $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO 5HDG3RLQW From the Read Status menu, select option 1. The CRT-2 displays the following: Press $GGUHVV 6/& QXPEHU Number Type (n)D(nnn), (n)M(nnn), P(nn), Z(nn), F(n),, R(n) or S(n) then hit Enter Enter the following: Enter Loop Number “1”...
Page 211 Using the CRT-2 for Read Status $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO 'LVSOD\WKH6WDWXVRIDOO3URJUDPPHG3RLQWV From the Read Status menu, select Read All Points, option 3. The CRT-2 displays a list of the status of all addressable detectors, modules, panel circuits, system parameters and software zones: Press NORMAL SMOKE(PHOTO) DETECTOR ADDR 1D001 Z03 Z Z Z Z 000%A5 PA:0 ** L1D001 NORMAL SMOKE(ION) DETECTOR ADDR 1D002 Z02 Z Z Z Z 00%A5 PA:0 ** L1D002...
Page 212 Using the CRT-2 for Alter Status $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO 86,1*7+(&57)25$/7(567$786 2YHUYLHZ This section shows how to do Alter Status functions Table 73from a CRT-2. Function Lets you... Disable Enable or disable detectors, modules, or panel circuits. Alarm/Pre-Alarm Change the Alarm and Pre-Alarm levels of any addressable detector in the system.
Page 213 Using the CRT-2 for Alter Status $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO (QDEOHRU'LVDEOH'HWHFWRUV0RGXOHVRU3DQHO&LUFXLWV From the Alter Status menu, select Disable, option 1. Disable lets you enable or disable detectors, modules, panel circuits, or zones: Press $GGUHVV & 1XPEHU 6/& QXPEHU SDVVZRUG Disable/Enable.
Page 214 Using the CRT-2 for Alter Status $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO &KDQJH$ODUPDQG3UH$ODUPOHYHOV This option lets you change the Alarm and Pre-Alarm levels of any addressable detector in the system. To do so, follow these steps. From the Alter Status menu, select option 2, Alarm/Pre-Alarm: Press Det.
Page 215 Using the CRT-2 for Alter Status $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO 6HWWKH3UH$ODUPIRU$OHUWRU$FWLRQ Set Action/Alert lets you set the Pre-Alarm for Alert or Action. For example, Change Pre-Alarm from “Alert” to “Action” as follows: Press Set Pre-alarm Alert(NO)/Action(YES). Type N or Y then Enter STATUS CHANGE Change Alert/Action 09:37A Wed 03/21/97 Press...
Page 216 Overview $SSHQGL[ ) 8/ 3RZHUOLPLWHG :LULQJ 5HTXLUHPHQWV $SSHQGL[)8/3RZHUOLPLWHG:LULQJ5HTXLUHPHQWV 29(59,(: Power-limited and nonpower-limited circuit wiring must remain separated in the cabinet. All power-limited circuit wiring must remain at least 0.25 inches from any nonpower-limited circuit wiring. All power-limited and nonpower-limited circuit wiring must enter and exit the cabinet through different knockout and or conduits.
Page 217 Power-limited Modules and Circuits $SSHQGL[ ) 8/ 3RZHUOLPLWHG :LULQJ 5HTXLUHPHQWV 8/3RZHUOLPLWHG:LULQJ5HTXLUHPHQWV Figure 161 shows a typical wiring diagram for the control panel. The first two rows show rows of modules configured with at least a 0.25 inch separation between power-limited and nonpower-limited wiring.
Page 218 Power-limited Modules and Circuits $SSHQGL[ ) 8/ 3RZHUOLPLWHG :LULQJ 5HTXLUHPHQWV 3RZHU6XSSO\:LULQJ AC and battery wiring are not power-limited. Maintain at least 0.25 inches between power-limited and nonpower-limited circuit wiring. Install tie wraps and adhesive squares to secure the wiring. Figure 162 shows a typical wiring diagram for a power supply: +DUQHVV WR WKH &38 $GKHVLYH VTXDUH DQG WLH ZUDSV IRU VHFXULQJ SRZHUOLPLWHG ZLULQJ...
Page 219 Overview $SSHQGL[ * 3RZHU 6XSSO\ &DOFXODWLRQV $SSHQGL[*3RZHU6XSSO\&DOFXODWLRQV 29(59,(: Follow these guidelines when wiring the AC branch circuit current: • The control panel requires connection to a separate dedicated AC fire alarm circuit, which must be labeled “Fire Alarm.” • The AC power circuit must connect to the line side of the main power feed of the protected premises.
Page 220 Calculating the System Current Draws $SSHQGL[ * 3RZHU 6XSSO\ &DOFXODWLRQV +RZWR8VHWKH&DOFXODWLQJ7DEOHV Throughout these current calculation tables, “Primary” refers to the FACP primary source of AC power. “Secondary” refers to the FACP backup batteries (or any other 24 VDC power supply listed for Fire Protective Signaling and connected in place of the batteries).
Page 221 Calculating the System Current Draws $SSHQGL[ * 3RZHU 6XSSO\ &DOFXODWLRQV &DOFXODWLRQIRU0DLQ6XSSO\&XUUHQW &DWHJRU\ &DOFXODWLRQ &ROXPQ &DOFXODWLRQ &ROXPQ &DOFXODWLRQ &ROXPQ 3ULPDU\ 1RQ)LUH $ODUP 3ULPDU\ )LUH $ODUP 6HFRQGDU\ 1RQ)LUH $ODUP &XUUHQW DPSV &XUUHQW DPSV &XUUHQW DPSV ; >FXUUHQW GUDZ@ 7RWDO ;...
Page 222 Calculating the System Current Draws $SSHQGL[ * 3RZHU 6XSSO\ &DOFXODWLRQV &DOFXODWLRQIRU6/&/RRS&XUUHQW &DWHJRU\ &DOFXODWLRQ &ROXPQ &DOFXODWLRQ &ROXPQ &DOFXODWLRQ &ROXPQ 3ULPDU\ 1RQ)LUH $ODUP 3ULPDU\ )LUH $ODUP 6HFRQGDU\ 1RQ)LUH $ODUP &XUUHQW DPSV &XUUHQW DPSV &XUUHQW DPSV ;>FXUUHQW GUDZ@ 7RWDO ;>FXUUHQW GUDZ@ 7RWDO ;>FXUUHQW GUDZ@ 7RWDO...
Page 223 Calculating the System Current Draws $SSHQGL[ * 3RZHU 6XSSO\ &DOFXODWLRQV &DOFXODWLRQIRU6/&/RRS&XUUHQW &DWHJRU\ &DOFXODWLRQ &ROXPQ &DOFXODWLRQ &ROXPQ &DOFXODWLRQ &ROXPQ 3ULPDU\ 1RQ)LUH $ODUP 3ULPDU\ )LUH $ODUP 6HFRQGDU\ 1RQ)LUH $ODUP &XUUHQW DPSV &XUUHQW DPSV &XUUHQW DPSV ;>FXUUHQW GUDZ@ 7RWDO ;>FXUUHQW GUDZ@ 7RWDO ;>FXUUHQW GUDZ@ 7RWDO...
Page 224 Calculating the System Current Draws $SSHQGL[ * 3RZHU 6XSSO\ &DOFXODWLRQV 7DEOH 1RWHV &RO ,QFOXGH RQO\ WKHVH GHYLFHV WKDW FDQ EH DFWLYDWHG LQ WKH QRQILUH DODUP FRQGLWLRQ &RO ,QFOXGH DOO GHWHFWRUV DQG PRGXOHV FRQQHFWHG WR 6/& ORRS XQOHVV GLUHFWHG RWKHUZLVH E\ $+- &RO ,QFOXGH RQO\ QRQILUH DODUP GHYLFHV WKDW FDQ DFWLYDWH GXULQJ ORVV RI $&...
Page 225 Calculating the System Current Draws $SSHQGL[ * 3RZHU 6XSSO\ &DOFXODWLRQV &DOFXODWLQJWKH0D[LPXP6HFRQGDU\3RZHU)LUH$ODUP&XUUHQW'UDZ Use the table below to determine the maximum current requirements of secondary power source during fire alarm conditions. The result obtained is the amount of current that the batteries must be able to supply to the fire alarm system.
Page 226 Calculating the Battery Requirements $SSHQGL[ * 3RZHU 6XSSO\ &DOFXODWLRQV &$/&8/$7,1*7+(%$77(5<5(48,5(0(176 &DOFXODWLQJWKH%DWWHU\&DSDFLW\ Use this table to determine the battery capacity needed for the system: Current (amps) Time (hours) Secondary Non-Fire Required Secondary Non-Fire Alarm (current from Alarm Standby Time (24 or 60 column 3 in Table 76) hours) ________________...
Page 227 Calculating the Battery Requirements $SSHQGL[ * 3RZHU 6XSSO\ &DOFXODWLRQV &DOFXODWLQJWKH%DWWHU\6L]H Use this table to sum the standby and alarm loads which determine the battery size, in amp-hours, needed to support the fire alarm system. Select batteries that meet or exceed the Total Amp-Hours calculated and that are within the acceptable battery charger range (12-60 AH).
Page 228 1RWHV AFC-600 Installation PN 51031:A 03/08/99...
Page 229 1XPHULFV Alarm relay (MPS-400, TB3) 71 Alarm Silence (annunciator function) 175 24 VDC power 52 (ATG-2) 113 ALERT CHANNEL 4XTM module Alter Status (CRT-2 Display Terminal) 212 Auxiliary Fire Alarm Systems, wiring 150 AM2020/AFP1010 connecting 63 NIB-96, wiring 153 installing 62 security applications 157 municipal box, wiring 150 AMG-1 and AMG-E...
Page 230 Trouble indicator 40 battery connection 40 knockouts, using 44 terminating shield drain wire 80 B01-B04 (MPS-400, TB7-TB10) 178 Central Station Fire Alarm System 149 backbox CHG-120 Battery Charger mounting 41 current draw 219 backup amplifier 130 wire requirements 200 backup power 51 CHS-4 chassis 39 battery CHS-4L chassis 39...
Page 231 CRM-4 module Factory Mutual, standby power requirements 226 connecting 66 fault conditions for an SLC 78 current draw 221 FCC wire requirements 200 mounting 61 FFT-7 and FFT-7S nonpower-limited circuits, wiring 216 additional circuits, connecting 122 wiring 66 AMG-1 connections 106 CRT-2 Display Terminal chassis 43 Alter Status functions 212...
Page 232 isolating an SLC segment 85 application of 87 isolator detector bases 84 Style B (Class B) IDC, wiring 91 ISO-X module 84 Style D (Class A) IDC, wiring 93 description of 85 testing 87 function of 77 wiring 91 MMX modules, flanking 84 mounting wiring 85 AA-100 and AA-120 119...
Page 233 TB7-TB10 NAC/Releasing 69 power-limited Proprietary Security Alarm applications 158 wire requirements 200 Style Y (Class B), wiring 96 wire spacing requirements 70 Style Z (Class A), wiring 98 wiring 217 total current available 64 primary (AC) power 70 trouble (annunciator function) 177 primary channel see EVAC CHANNEL UZC-256 module, wiring 160...
Page 234 security devices 157 Style 4 LED 156 SLC performance 78 SECURITY Security relay (MPS-400, TB6) 71 wiring 85 security switch, wiring 158 Style 6 Security Tamper Switch see Tamper Switch shield termination 79 Type Code 156 SLC performance 78 SECURITY setting wiring 83 CRT-2 75...
Page 235 telephone circuits VCM-4 module connecting 124 backup amplifier, connecting 121 expanding 124 components of 122 FFT-7 and FFT-7S wiring 116 current draw 221 testing 173 installing 61 see also VCM-4 module speaker circuits, connecting 123 Temporal code 109 speaker or telephone mode, selecting 125 Terminal Mode telephone circuits, connecting 124 LCD-80 display 175...
Page 236 telephone circuits 124 trouble bus to CPU 132 UDACT (Central Fire Station) 149 UZC-256 module 163 voice system, internal power 128 XP Series Transponder 155 XP Series Transponder 155 XP5 134 XP5-C compatible equiptment 202 connecting 133 current calculations 221 SLC Devices 77 speaker/telephone circuits 133 wiring diagram 134...
Page 237 AFC-600 Installation PN 51031:A 03/08/99...
Page 238 Limited Limited W W W W W arr Limited anty anty Limited Limited arranty anty anty ® ® ® ® ® NOTIFIER TIFIER TIFIER TIFIER TIFIER warrants its products to be free from defects in materials and workmanship for eighteen (18) months from the date of manufacture, under normal use and service. Products are date stamped at time of manufacture.

Pittway NOTIFIER AFC-600 Installation Manual

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