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Honeywell Notifier AFP-100 Wiring Manual

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Intelligent Control Panel
SLC
Wiring Manual
Document 51253 Rev: U5
12/20/2017 ECN: 17-0433

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Summary of Contents for Honeywell Notifier AFP-100

  • Page 1 Intelligent Control Panel Wiring Manual Document 51253 Rev: U5 12/20/2017 ECN: 17-0433...
  • Page 2 Fire Alarm & Emergency Communication System Limitations While a life safety system may lower insurance rates, it is not a substitute for life and property insurance! An automatic fire alarm system—typically made up of smoke Heat detectors do not sense particles of combustion and alarm detectors, heat detectors, manual pull stations, audible warning only when heat on their sensors increases at a predetermined rate devices, and a fire alarm control panel (FACP) with remote notifica-...
  • Page 3 HARSH™, NIS™, and NOTI•FIRE•NET™ are all trademarks; and Acclimate® Plus™, eVance®, FlashScan®, FAAST Fire Alarm Aspiration Sensing Technology®, Honeywell®, Intelligent FAAST®, NOTIFIER®, ONYX®, ONYXWorks®, SWIFT®, VeriFire®, and VIEW® are all registered trademarks of Honeywell International Inc. Microsoft® and Windows® are registered trademarks of the Microsoft Corporation. Chrome™ and Google™ are trademarks of Google Inc. Firefox® is a registered trademark of The Mozilla Foundation.
  • Page 4 • Your suggestion for how to correct/improve documentation Send email messages to: FireSystems.TechPubs@honeywell.com Please note this email address is for documentation feedback only. If you have any technical issues, please contact Technical Services. Notifier SLC Wiring Manual — P/N 51253:U5 12/20/2017...

  • Page 5: Table Of Contents

    Table of Contents Section 1: Introduction ..............................8 1.1: About This Manual ......................................8 1.2: UL 864 Compliance......................................8 1.2.1: Products Subject to AHJ Approval.................................8 1.3: Reference Documentation ....................................9 1.4: SLC Overview .........................................11 1.5: Polling Protocols......................................11 1.5.1: Available Protocols....................................11 1.5.2: Protocol Use......................................12 1.6: Devices ...........................................12 1.6.1: Monitor/Zone Interface Module ................................12 1.6.2: Control Modules ....................................12...
  • Page 6 Table of Contents 5.5: NFPA Style 6 SLC Using Isolator Modules ..............................31 5.6: NFPA Style 7 SLC Using an Isolating Device ..............................32 Section 6: Monitor Modules............................33 6.1: Description........................................33 6.1.1: Addressable Monitor Module ................................33 6.1.2: Zone Interface Module ..................................33 6.1.3: Miniature Monitor Module ...................................34 6.1.4: FMM-4-20 4-20mA Monitor Module ..............................34 6.2: Setting an SLC Address for a Module ................................35 6.3: NFPA Style B IDC Using Monitor Modules ..............................35...
  • Page 7 Table of Contents A.2.3: Using the Addressable Control Module Without Relay ........................60 Appendix B: SLC Surge Suppression ........................... 62 B.1: Introduction........................................62 B.2: Installation........................................62 B.2.1: AFP-100 & AFP-200 ...................................63 B.2.2: AFP-300, AFP-400 ....................................63 B.2.3: AM2020 & AFP1010(LIB-200A or LIB-400) ............................64 B.2.4: NFS2-3030, NFS-3030, NFS2-640, NFS-640, NFS-320, and NFS-320SYS ..................65 Appendix C: Terminal Conversion Charts for V-type and H-type Devices ..............

  • Page 8: Section 1: Introduction

    Section 1: Introduction 1.1 About This Manual This document covers the installation and wiring of various Signaling Line Circuit (SLC) devices, when used with the following Fire Alarm Control Panels (FACPs): • AFP-100 • AFP-200 • AFP-300/AFP-400 • AM2020/AFP1010 • NFS-3030/NFS2-3030 •...

  • Page 9: Reference Documentation

    Reference Documentation Introduction The following products have not received UL 864 9th Edition certification and may only be used in retrofit applications. Operation with products not tested for UL 864 9th Edition has not been evaluated and may not comply with NFPA 72 and/or the latest edition of UL 864.
  • Page 10 Introduction Reference Documentation Document Number B224BI, B224BI-IV Isolator Base Installation Document (FlashScan/CLIP) I56-0725 / I56-3736 B224BIA, B224BIA-IV Canadian I56-1045 B224RB, B224RB-IV Relay Base Installation Document I56-2815 / I56-3737 B224RBA, B224RBA-IV Canadian I56-1079 B501, B501-IV and B501-BL 4" Plug-in Detector Base I56-3738-003 (and higher) B501 Standard Base Installation Document (Replaced by B501 in 2018)

  • Page 11: Slc Overview

    SLC Overview Introduction Document Number FSI-751 Ion Detector Installation Document I56-1249 FSI-851 Ion Detector Installation Document I56-1924 FSI-851A Canadian FSL-751 Laser Detector Installation Document I56-057 FSL-751A Canadian FSP-751 & FSP-751T Photo Installation Document I56-1230 FSP-851, FSP-851T, and FAPT-851 Photoelectric Detectors Installation Document I56-3524, I56-1925 FSP-851A, FSP-851TA, and FAPT-851A I56-2296...

  • Page 12: 2: Protocol Use

    Introduction Devices CLIP CLIP (Classic Loop Interface Protocol) polls devices in sequential order. Many but not all Flash-Scan-capable devices can be set to run in CLIP mode; see installation sheet shipped with the device. 1.5.2 Protocol Use LCM-320/LEM-320 loops on NFS2-640, NFS2-3030, NFS-3030 and NFS-640, and SLC loops on NFS-320 can run in FlashScan mode or CLIP mode.

  • Page 13: 4: Relay Modules

    Devices Introduction 1.6.4 Relay Modules These addressable modules provides the control panel with a dry-contact output for activating a variety of auxiliary devices. • FRM-1 Relay Module with two Form-C relays; FlashScan or CLIP mode. • XP6-R Controls six independent Form-C relays; FlashScan or CLIP mode. 1.6.5 Multiple Input/Output Modules These addressable modules offer dual input and/or dual ouput in a single device.

  • Page 14: 9: Addressable Manual Pull Stations

    Introduction Devices and replace FSP-851, FSP-851T, and FSP-851R, which all supported FlashScan or CLIP mode. (Earlier versions named FSP-751 and FSP-751T [both discontinued] also supported FlashScan or CLIP mode, but were not listed for use in ducts. Earlier models named SDX- 551, SDX-751, and SDX-551TH were CLIP mode only.

  • Page 15: Slc Capacity

    SLC Capacity Introduction 1.7 SLC Capacity The protocol selected for an SLC loop determines the maximum number of devices that can be handled by the loop (see Section 1.5, “Polling Protocols”, on page 11). Within those limits, the individual control panel may have additional restrictions. See the specific installation manual for this information.

  • Page 16: Section 2: Wiring Requirements

    Section 2: Wiring Requirements 2.1 Recommended SLC Wiring Depending on the panel, there are two recommended options for SLC wiring: • Twisted, unshielded pair: NFS-320, NFS2-640, NFS-640, NFS2-3030, NFS-3030, LCM-320, LEM-320, LIB-200A, LIB-400. Maximum resistance 50 ohms per branch. See Table 2.1. Maximum capacitance: 0.5 µFarads per branch.

  • Page 17: Two-Wire Slc - Style 4 (Class B)

    Two-Wire SLC - Style 4 (Class B) Wiring Requirements FACP: Recommended Wire Gauge Wire Type and Limitations Max. Distance AFP-200 Twisted-shielded pair. 40 ohms maximum per 10,000 ft. (3,048 m) 12 AWG (3.31 mm²) length of Style 6 and 7 loops. 40 ohms per 8,000 ft.

  • Page 18: 2: Measuring Total Wire Length

    Wiring Requirements Four-Wire SLC Style 6 & 7 (Class A) Branch A Branch B Branch C SLC Out Branch SLC Terminal Short Point Block B– Figure 2.1 Measuring DC Resistance of a Two-Wire SLC 2.2.2 Measuring Total Wire Length The total wire length of all combined branches of one SLC cannot exceed the limits set forth in each system’s instruction manual. Deter- mine the total length in each SLC by summing all wire segments.

  • Page 19: 2: Measuring Total Wire Length

    Control Panel Terminal Blocks Wiring Requirements First Device SLC Out STEP 2 Last Device SLC Return Short Point SLC Out First Device STEP 3 SLC Return Last Device Figure 2.3 Measuring DC Resistance of a Four-Wire SLC 2.3.2 Measuring Total Wire Length The total wire length in a four-wire SLC cannot exceed the limits set forth in each system’s instruction manual.

  • Page 20: 2: Nfs2-640 With Loop Expander Modules, Nfs-320 And Nfs-320Sys

    Wiring Requirements Control Panel Terminal Blocks 2.4.2 NFS2-640 with Loop Expander Modules, NFS-320 and NFS-320SYS The NFS2-640 provide one SLC loop and supports a second using optional expander module LEM-320. The NFS-320 provides one SLC loop on the FACP’s main circuit board. Terminal block designations are the same on the circuit board for both FACPs. Loops can be either CLIP mode or FlashScan mode.

  • Page 21: 6: Afp-300/Afp-400

    Control Panel Terminal Blocks Wiring Requirements 2.4.6 AFP-300/AFP-400 The AFP-300 supports one SLC loop; the AFP-400 supports two SLC loops. The loops are CLIP mode only. SLC loops connect to TB6 on the AFP-300; SLC loops connect to TB5 and TB6 on the AFP-400. SLC Loop Connections on AFP-300 SLC Loop Connections on AFP-400 main circuit board...

  • Page 22: Section 3: Shielded Wire Termination

    Section 3: Shielded Wire Termination 3.1 Overview This section shows the proper termination of the shield, if used. Shielding of the SLC is recommended for use with the AFP-100, AFP-200, AFP-300/400, LIB-200, and AIM-200. Proper termination of the shield depends on the type of conduit used: •...

  • Page 23: Partial Conduit

    Partial Conduit Shielded Wire Termination 3.4 Partial Conduit For use with the AFP-100, AFP-200, AFP-300/400, LIB-200, and AIM-200 only If the length of conduit from the control panel cabinet is less than 20 ft. (6.1 m), terminate the shield as shown. If using a metal box, you must use a metal conduit.

  • Page 24: Section 4: Slc Circuits Without Isolators

    Section 4: SLC Circuits without Isolators 4.1 Overview This chapter concerns itself with the two styles of circuits that do not require isolation devices: • NFPA 72 Style 4 • NFPA 72 Style 6 4.2 NFPA Style 4 SLC NFPA Style 4 requirements can be met by using the diagram below. •...

  • Page 25: Nfpa Style 6 Slc

    NFPA Style 6 SLC SLC Circuits without Isolators 4.3 NFPA Style 6 SLC NFPA Style 6 requirements can be met by using the diagram below. Two-wire Addressable Detector SLC Out Addressable Module SLC Return B+ B– A– A+ Control Panel Figure 4.2 Basic NFPA Style 6 SLC NOTE: T-tapping of the SLC wiring is NOT allowed for Style 6 configuration.

  • Page 26: Section 5: Slc Circuits With Isolators

    Section 5: SLC Circuits with Isolators 5.1 Overview There are two isolator devices used to protect critical elements of the FlashScan-mode or CLIP-mode SLC loop from faults on other SLC branches or segments. • Fault Isolator Module ISO-X • Isolator Detector Base B224BI, B224BI-IV •...

  • Page 27: Isolator Detector Bases

    Isolator Detector Bases SLC Circuits with Isolators Each of the ISO-6’s six isolator terminals acts as a single ISO-X module. Figure 5.2 shows a Style 4 example for wiring the ISO-6. Ter- minal numbers are added for clarification; these do not appear on the physical device. Out - Out + In -...
  • Page 28 SLC Circuits with Isolators Isolator Detector Bases Detector 1 Detector 2 Detector 5 Detector 4 Detector 3 SLC Out SLC Return Control Panel Isolator Base Non-Isolating Device Short-circuit path Figure 5.3 Isolator Base Circuit: Sample Style 6 Wiring NOTE: For information on wiring an isolator base, refer to Figure 10.3, “Wiring a B224BI Isolator Base Mounting Plate”...

  • Page 29: Nfpa Style 4 Slc Using Isolator Modules

    NFPA Style 4 SLC Using Isolator Modules SLC Circuits with Isolators 5.4 NFPA Style 4 SLC Using Isolator Modules A variation of a Style 4 operation using isolator modules to protect each branch of the SLC. Refer to Figure 5.1 on page 26 and Figure 5.2 on page 27 for isolator module wiring and to Section 5, “SLC Circuits with Isolators”...
  • Page 30 SLC Circuits with Isolators NFPA Style 4 SLC Using Isolator Modules Each of the six circuits on ISO-6 functions the same way as ISO-X (discussed earlier). However, ISO-6 cannot accept two wires at one pin. Wire Style 4 SLC loops as shown in Figure 5.5. Isolated Branch of SLC Out - Out +...

  • Page 31: Nfpa Style 6 Slc Using Isolator Modules

    NFPA Style 6 SLC Using Isolator Modules SLC Circuits with Isolators 5.5 NFPA Style 6 SLC Using Isolator Modules A variation of Style 6 operation using isolator modules to protect a section of the SLC. By flanking each group of devices with fault isolator modules each group is protected from faults that may occur in the other groups.

  • Page 32: Nfpa Style 7 Slc Using An Isolating Device

    SLC Circuits with Isolators NFPA Style 7 SLC Using an Isolating Device 5.6 NFPA Style 7 SLC Using an Isolating Device Style 7 operation requires using a combination of isolator detector bases and isolator modules or isolator modules before and after a non- isolator device.

  • Page 33: Section 6: Monitor Modules

    Section 6: Monitor Modules 6.1 Description These addressable modules monitor conventional contact-type alarm initiating devices. You can configure module circuits as NFPA Style B (Class B) or Style D (Class A) Initiating Device Circuits (IDC). There is no limit to the number of contact-type devices installed on a monitor module IDC.

  • Page 34: 3: Miniature Monitor Module

    Monitor Modules Description 6.1.3 Miniature Monitor Module The FMM-101 is intended to monitor a Style B (Class B) IDC; it is offered in a smaller package for mounting directly in the electrical box of the device being monitored. Label – Use to record the Rotary device address and SLC Switches...

  • Page 35: Setting An Slc Address For A Module

    Setting an SLC Address for a Module Monitor Modules 6.2 Setting an SLC Address for a Module FlashScan capable control or relay modules, as well as detectors, can be set to one of 159 addresses (01-159) and are factory preset with an address of “00”.

  • Page 36: Nfpa Style D Idc Using Monitor Modules

    Monitor Modules NFPA Style D IDC Using Monitor Modules From Supply 24 VDC Four-wire 24 VDC Power Detector Base Filtered, Regulated, Resettable Manual pull station To Next IDC Supervision Device 47K ELR (supplied with module) Heat detector FMM-1 Figure 6.6 Typical Style B IDC Wiring with FMM-1 6.4 NFPA Style D IDC Using Monitor Modules Connect the SLC wiring to the module terminals 1 (–) and 2 (+).

  • Page 37: Nfpa Style B Idc Using Zone Interface Modules

    NFPA Style B IDC Using Zone Interface Modules Monitor Modules From Supply 24 VDC Four-wire 24 VDC Power Detector Base Filtered, Regulated, Resettable Manual pull station To Next IDC Supervision Device Heat detector FMM-1 Figure 6.7 Typical Style D IDC Wiring with FMM-1 6.5 NFPA Style B IDC Using Zone Interface Modules Connect the SLC wiring to the module terminals 1 (–) and 2 (+).

  • Page 38: Nfpa Style D Idc Using Zone Interface Modules

    Monitor Modules NFPA Style D IDC Using Zone Interface Modules 24 VDC Resettable power. 90 mA External 24 volt supply required. (Non-resettable power may be used for NFS-320, NFS- 320SYS, NFS2-640/E, NFS-640, NFS2-3030, or NFS-3030 when Two-wire operating in FlashScan mode.) smoke detectors 3.9K ELR...
  • Page 39 NFPA Style D IDC Using Zone Interface Modules Monitor Modules 24 VDC Resettable power. 90 mA External 24 volt supply required (Non-resettable power may be used Two-wire for NFS-320, NFS-320SYS, smoke NFS2-640, NFS-640, NFS2-3030, or detectors NFS-3030 when operating in FlashScan mode.) FZM-1 3.9K ELR...

  • Page 40: Section 7: Control Modules

    Section 7: Control Modules 7.1 Description The FCM-1 module is an addressable module that can be used for monitoring and switching 24 VDC Notification Appliance Circuit (NAC) power for NFPA Style Y (Class B) and NFPA Style Z (Class A) circuits. The FCM-1-REL is an addressable module used to switch an external power supply to a solenoid.

  • Page 41: 1: Wiring A Solenoid With The Fcm-1-Rel

    Wiring a Style Y NAC (Two-Wire) with Addressable Control Modules Control Modules 7.2.1 Wiring a Solenoid with the FCM-1-REL Figure 7.3 shows the connections to wire the FCM-1-REL to a solenoid. When using the FCM-1-REL for Class B applications, remove jumper J1. 24 VDC (-) 24 VDC (+) SLC (-)

  • Page 42: Wiring A Style Z Nac (Four-Wire) With Addressable Control Modules

    Control Modules Wiring a Style Z NAC (Four-Wire) with Addressable Control Modules Refer to Device Compatibility Document for compatible notification appliances and relays. NOTE: A power supervision relay is required only on the 24 VDC last module of the power run Nonresettable FCM-1 power...

  • Page 43: Connecting A Releasing Device To The Addressable Control Module

    Connecting a Releasing Device to the Addressable Control Module Control Modules 7.5 Connecting a Releasing Device to the Addressable Control Module The FCM-1-REL module can control 1 A of current. Make sure to keep total system current within the limits of the power supply. Power for the module must come from the FACP’s main power supply or any UL 864-listed 24 VDC regulated, power-limited power supply for Fire Protective Signaling.

  • Page 44: Section 8: Relay Module

    Section 8: Relay Module 8.1 Description The FRM-1 is an addressable module that provides two isolated sets of Form-C relay contacts. Ratings for the dry relay contacts on a Form-C module are: • Resistive – 2 amps @ 30 VDC (e.g. Electronic devices and strobes.) •...

  • Page 45: Section 9: Multiple Input/Output Modules

    Section 9: Multiple Input/Output Modules 9.1 Description 9.1.1 FDM-1 The FDM-1 is similar to the FMM-1, except intended for use in intelligent two-wire systems providing two independent Style B (Class B) IDCs at two separate, consecutive addresses. Addresses can start using either an even or odd number. 9.1.2 FDRM-1 The FDRM-1 is an addressable module that functions as two individual relay control modules (two isolated sets of Form-C relay con- tacts) and two Class B monitor modules.

  • Page 46: Wiring The Addressable Dual Monitor/Dual Relay Module

    Multiple Input/Output Modules Wiring the Addressable Dual Monitor/Dual Relay Module 9.4 Wiring the Addressable Dual Monitor/Dual Relay Module The figure below shows the FDRM-1 module wired to the control panel. FDRM-1 IDC 1 (+) IDC 1 (-) IDC 2 (+) IDC 2 (-) Normally Closed Common...
  • Page 47 NFPA Style B IDC Wiring Using Dual Monitor Modules Multiple Input/Output Modules Refer to the Device Compatibility Document for compatible smoke detectors. Manual Pull Station Heat Detector FDM-1 Base +1 Address (IDC Circuit H) Base Address (IDC Circuit L) Figure 9.3 Typical Style B IDC Wiring with FDM-1 Notifier SLC Wiring Manual —...

  • Page 48: Section 10: Intelligent Detectors, Intelligent Detector Bases, And Wireless Gateway

    Section 10: Intelligent Detectors, Intelligent Detector Bases, and Wireless Gateway 10.1 Description 10.1.1 Intelligent Detector Bases Detector bases provide a connection between the SLC and a variety of intelligent detectors: • B501, B501-BL, B501-IV: 4-inch flangeless plug-in detector base. (FlashScan/CLIP; Figure 10.1) •...

  • Page 49: Wiring A Detector Base

    Wiring a Detector Base Intelligent Detectors, Intelligent Detector Bases, and Wireless Gateway 10.2 Wiring a Detector Base Figure 10.1 shows typical wiring of a standard detector base (B501 is shown) connected to an SLC. An optional RA100Z Remote LED Annunciator is shown connected to the base. From Control Panel SLC –...
  • Page 50 Intelligent Detectors, Intelligent Detector Bases, and Wireless Gateway Wiring a Detector Base Figure 10.2 shows typical wiring of the B710HD detector base (for use with a HARSH™ detector) connected to an SLC. An optional RA100Z Remote LED Annunciator is shown connected to the base. To next device on SLC For connection of...

  • Page 51: Wiring An Isolator Base

    Wiring an Isolator Base Intelligent Detectors, Intelligent Detector Bases, and Wireless Gateway 10.3 Wiring an Isolator Base The Isolator base will isolate its detector from short circuits that occur on the SLC connected at terminals 3 and 2. It will not isolate its installed detector from short circuits that occur on the SLC connected at terminals 1 and 2.

  • Page 52: Wiring A Sounder Base

    Intelligent Detectors, Intelligent Detector Bases, and Wireless Gateway Wiring a Sounder Base 10.5 Wiring a Sounder Base Figure 10.5 shows typical wiring of the B200S and B200S-LF Sounder Bases. Note: The “grid” pattern on the B200S/B200S-LF has been removed for illustration To next device purposes only.
  • Page 53 Wiring and Programming Aspiration Detectors Intelligent Detectors, Intelligent Detector Bases, and Wireless Gateway Figure 10.7 shows how to wire the FSA-5000 detector on an SLC loop. Figure 10.8 shows how to wire the FSA-8000 detector on an SLC loop. Figure 10.9 shows how to wire the FSA-20000/FSA-20000P detectors on an SLC loop. To program the addressable pipes on the Intelligent FAAST XT PRO, use VeriFire Tools.

  • Page 54: Wiring The Fwsg

    Intelligent Detectors, Intelligent Detector Bases, and Wireless Gateway Wiring the FWSG To Next SLC Device - From FACP or Previous Device - Connection To Next SLC Device + From FACP or Previous Device + To Next Device + 24V External From Power Supply or Previous Device + Power To Next Device -...

  • Page 55: Power Connections: Powered By The Slc

    Power Connections: Powered by the SLC Intelligent Detectors, Intelligent Detector Bases, and Wireless Gateway A7 SLC OUT+/In+ A6 SLC IN+/OUT+ A5 SLC- (Common) A4 SLC Power Select 2 A3 Power +24VDC A2 Power Ground A1 SLC Power- Select 1 Figure 10.10 FWSG Mounting Plate - Terminal Layout 10.8 Power Connections: Powered by the SLC The FWSG provides isolation of short circuits on the SLC in Class A (Style 6) installations.

  • Page 56: 1: Power Connections: External, Regulated +24 Vdc Power Source

    Intelligent Detectors, Intelligent Detector Bases, and Wireless Gateway Power Connections: Powered by the SLC 10.8.1 Power Connections: External, Regulated +24 VDC Power Source The FWSG provides isolation of short circuits of the SLC in Class A (Style 6) installations. SLC connections are power-limited by the panel.

  • Page 57: Section 11: Addressable Manual Pull Station

    Section 11: Addressable Manual Pull Station 11.1 Description The NBG-12LXis an addressable manual pull station with a key-lock reset feature. The NBG-12LXSP is a Spanish/English labeled ver- sion; NBG-12LXP is a Portuguese-labeled version. Both support FlashScan or CLIP mode. Wiring is the same as for the NBG-12LX Manual Pull Station.

  • Page 58: Appendix A: Power Considerations

    Appendix A: Power Considerations A.1 Supplying Power to 24 VDC Detectors and NACs Resistance and Size To determine the maximum allowable resistance that can be tolerated in supplying power to 24 VDC four-wire devices and NACs, use the calculations below. These simplified equations assume that the devices are at the end of a long wire run. With the computed resis- tance and using the manufacturers specifications for the desired wire, select the proper gauge wire for the power run.
  • Page 59 Supervising 24 VDC Power Power Considerations Figure A.1 shows the supervision of a 24VDC circuit using the FCM-1 or FZM-1. Refer to the Device Compatibility Document for com- patible notification appliances and relays. 24 VDC Power from Control Panel or Power Supply Last device on the SLC loop (FCM-1 or FZM-1)

  • Page 60: A.2.3: Using The Addressable Control Module Without Relay

    Power Considerations Supervising 24 VDC Power A.2.3 Using the Addressable Control Module Without Relay An alternate method of supervising 24 VDC power fed to the Notification Appliance Circuit of the FCM-1 module eliminates the need for a power supervision relay. This method uses a Notification Appliance Circuit from the control panel or power supply to supply power to the FCM-1 modules.
  • Page 61 Supervising 24 VDC Power Power Considerations Connect the NAC power as follows: FCM-1 NAC Terminal Block (24 VDC) Circuit supervised by control panel Note: Drawing shows power wiring only; SLC Wiring not shown. FCM-1 Figure A.4 NFPA Style Z NAC Power (Alternate) Notifier SLC Wiring Manual —...

  • Page 62: Appendix B: Slc Surge Suppression

    Appendix B: SLC Surge Suppression B.1 Introduction There are one primary and three secondary UL–listed surge protectors approved for use with the FACPs listed in this appendix. Primary Surge Protector: • 326-2M TII Station Protector Secondary Surge Protectors: • DTK-2LVLP-F: Diversified Technology Group, Inc. (DITEK) 1720 Starkey Rd. Largo, FL 33771 (800) 753-2345 •...

  • Page 63: B.2.1: Afp-100 & Afp-200

    Installation SLC Surge Suppression B.2.1 AFP-100 & AFP-200 DTK-2LVLP-F Connections 2LVLP-F Optional Four-wire Return Loop Style 6 (Class A) SLC Terminal Block 2LVLP-F – A Shield B Shield SLC Loop PLP-42N Connections PLP-42N Optional Four-wire Return Loop Style 6 (Class A) SLC Terminal Block PLP-42N –...

  • Page 64: B.2.3: Am2020 & Afp1010(Lib-200A Or Lib-400)

    SLC Surge Suppression Installation DTK-2LVLP-F Connections 2LVLP-F Optional Four-wire Return Loop Style 6 (Class A) SLC Terminal Block 2LVLP-F – SLC Loop Earth PLP-42N Connections PLP-42N Optional Four-wire Return Loop Style 6 (Class A) SLC Terminal Block PLP-42N – SLC Loop Earth NOTE: Use 12 AWG (3.31 mm ) to 18 AWG (0.82 mm...

  • Page 65: B.2.4: Nfs2-3030, Nfs-3030, Nfs2-640, Nfs-640, Nfs-320, And Nfs-320Sys

    Installation SLC Surge Suppression DTK-2LVLP-F Connections Earth 2LVLP-F SLC Terminal Block – No conn SLC Loop – No conn Optional Four-wire No conn Return Loop Style 6 (Class A) NOTE: Do not connect shield (if present) to surge protector or fire panel. PLP-42N Connections PLP-42N Earth...
  • Page 66 SLC Surge Suppression Installation PLP-42N Connections PLP-42N Earth SLC Terminal Block No conn SLC Loop No conn Optional Four-wire No conn Return Loop Style 6 (Class A) NOTE: Use 12 AWG (3.31 mm ) to 18 AWG (0.82 mm ) wire with crimp-on connectors to connect the unit’s ground terminal to equipment ground.

  • Page 67: Appendix C: Terminal Conversion Charts For V-Type And H-Type Devices

    Appendix C: Terminal Conversion Charts for V-type and H-type Devices C.1 FRM-1 Common 2 SLC - SLC - Common 2 Closed 2 SLC + Closed 2 SLC + Open 2 Open 2 Common 1 Common 1 Closed 1 Open 1 Open 1 Closed 1 Type V...

  • Page 68: C.2: Fcm-1 And Fzm-1

    Terminal Conversion Charts for V-type and H-type Devices FCM-1 and FZM-1 C.2 FCM-1 and FZM-1 VDC - Class A Supervision A- SLC - VDC + Class A SupervisionA+ SLC - SLC + SLC + Class A Supervision A- Class A/B Supervision + Class A Supervision A+ VDC - Class A/B Supervision -...

  • Page 69: C.5: Fdm-1

    FDM-1 Terminal Conversion Charts for V-type and H-type Devices Class A Supervision+ Riser - Class A Supervision - Riser + SLC - SLC - Class A/B Supervision - Class A Supervision - SLC + SLC + Class A/B Supervision + Class A Supervision+ Riser - Class A/B Supervision +...

  • Page 70: Appendix D: Intelligent Detector Base Layouts For Legacy Devices

    Appendix D: Intelligent Detector Base Layouts for Legacy Devices D.1 Wiring a Detector Base Figure D.1 shows typical wiring of the B710LP or B501 detector base connected to an SLC. An optional RA100Z Remote LED Annun- ciator is shown connected to the base. Use a female disconnect to wire the RA100Z (–) to Terminal 1 (–).

  • Page 71: D.2: Wiring An Isolator Base

    Wiring an Isolator Base Intelligent Detector Base Layouts for Legacy Devices D.2 Wiring an Isolator Base Figure D.2 shows typical wiring of a B224BI Isolator Base. SLC Out SLC In Conduit ISO-X Isolator Module Figure D.2 Wiring an Isolator Base D.3 Wiring a Relay Base Figure D.3 shows typical wiring of the B224RB plug-in relay detector base connected to an SLC.

  • Page 72: D.4: Wiring A Sounder Base

    Intelligent Detector Base Layouts for Legacy Devices Wiring a Sounder Base D.4 Wiring a Sounder Base Figure D.4 shows typical wiring of the B501BH(-2) and B501BHT(-2) Sounder Bases. UL-Listed 24V Power Supply Optional Sounder Interconnect SLC + SLC - Figure D.4 Wiring the B501BH(-2) and B501BHT(-2) Sounder Bases Notifier SLC Wiring Manual —...

  • Page 73: Appendix E: Canadian Versions Of Slc Devices

    Appendix E: Canadian Versions of SLC Devices UL-listed SLC Device ULC-listed SLC Device Description Detectors FSP-951 FSP-951A Analog, addressable intelligent smoke detector that uses a photoelectric sensing chamber. Listed for use in ducts. Designed to provide open area protection. FlashScan and CLIP mode. White. FSP-951-IV FSP-951A-IV Analog, addressable intelligent smoke detector that uses a photoelectric...
  • Page 74 Canadian Versions of SLC Devices UL-listed SLC Device ULC-listed SLC Device Description FSA-5000 FSA-5000A Intelligent FAAST XS aspiration smoke detector, covers up to 5,000 square feet. FlashScan mode. FSA-8000 FSA-8000A Intelligent FAAST XM aspiration smoke detector, covers up to 8000 square feet.
  • Page 75 Canadian Versions of SLC Devices UL-listed SLC Device ULC-listed SLC Device Description FTM-1 FTM-1A Firefighter’s Telephone Module; FlashScan-only device for use with Fire Fighters Telephone. Fault Isolator Module ISO-X ISO-XA The Fault Isolator Module protects the system against wire-to-wire short circuits on the SLC.

  • Page 76: Index

    Index Numerics circuit, speaker/telephone 12 FCM-1 40 – CLIP (Classic Loop Interface Protocol) 12 FCM-1-REL 12 24 VDC power 58 coded output 60 FCPS-24 58 alternate method of supervising 60 common ground 62 FDM-1, see dual monitor module monitoring and switching NAC power 40 communications loop 27 FDRM-1 12 8/2017 ADD I56-3549 11...
  • Page 77 Index IDC, see Initiating Device Circuits NAC 12 Security service 35 – Initiating Device Circuits 12 NAC power 40 shield 65 integral relay 26 wiring 60 shield drain wire 22 IntelliQuad 13 NAC terminal block 60 shielded wire 23 IPX-751 Discontinued December 1, 2001 NBG-12LX 57 shield-termination 22 isolator bases 13...
  • Page 78 Index isolator bases 51 isolator modules 26 multiple input/output modules 46 NACs 60 pull stations 57 relay modules 44 SLCs 35 wiring pair 62 wiring style requirements 15 XP Series Transponders 13 XP10-MA 75 XP5-C Transponder 12 XP5-M Transponder 12 XP6-C, XP10-M, XP6-MA 75 XP6-CA 75 XP6-MAA 75...
  • Page 79 Manufacturer Warranties and Limitation of Liability Manufacturer Warranties. Subject to the limitations set forth herein, Manufacturer warrants that the Products manufactured by it in its Northford, Connecticut facility and sold by it to its authorized Distributors shall be free, under normal use and service, from defects in material and workmanship for a period of thirty six months (36) months from the date of manufacture (effective Jan.
  • Page 80 NOTIFIER 12 Clintonville Road Northford, CT 06472-1610 USA 203-484-7161 www.notifier.com...

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