Page 1 FX-MNS-6000 Network Fire Alarm and Emergency Communication System LT-6683 Rev 0 Installation and Operation Manual August 2021...
Page 3: Table Of Contents
Table of Contents Introduction The FX-MNS-6000 Network Fire and Emergency Communication System ....Document Conventions ....................FX-MNS-6000 Fire and Audio Expansion System Layout ..........FX-MNS-6000 Fire with Audio Expansion System Layout ..........System Components Installation BBX-FXMNS-6000 Enclosure Installation ..............QBB-6001 Expansion Audio Cabinet Installation ............QBB-6001 Enclosure ......................
Page 4 UDACT-300A Main Board Terminal Connections ............Power Supply Wiring ...................... 5.10 Wiring Tables and Information ..................Field Wiring of Audio QBB-6001 Enclosure (Expansion Cabinet) Assembly ........... Installing and Removing Amplifiers ................QCC-6000 Communications Card ................. Audio Network Card and Telephone Network Card ............ANC-6000 Audio Network Controller Board ..............
Page 5 10.0 Indication 10.1 Amplifier Displays ......................11.0 Audio Configuration 12.0 System Checkout 12.1 Before Turning the Power On ..................12.2 Power-Up Procedure ...................... 12.3 Troubleshooting ......................13.0 Indicators, Controls, and Operation 13.1 Common Indicators ......................13.2 Common Controls ......................13.3 Single Stage Operation ....................
Page 6 17.4 RAXN-LCD/RAXN-LCDG Remote Annunciator Address Setting (DIP SWITCH SW1) . 18.0 Appendix D: Alarm Verification Timing 19.0 Appendix E: Wiring For Addressable Supervised Output Module 20.0 Appendix F: Power Supply & Batteries for Audio Expansion Cabinet QBB-6001 21.0 Appendix G: APB-200/COA Sounder Bases Appendix H: Configuration Example Setup 22.0 23.0...
Page 7 List of Figures Figure 1 Typical FX-MNS-6000 Layout ..................Figure 2 Typical FX-MNS-6000 Layout with Audio Expansion ............. Figure 3 BBX-FXMNS-6000 Enclosure ..................Figure 4 BBX-FXMNS-6000 Enclosure Complete View ............... Figure 5 FX-6000MNS-CH mounted within the BBX-FXMNS-6000 Enclosure ......Figure 6 BBX-FXMNS-6000 Backbox Dimensions and Contents ..........
Page 8 Figure 44 Power Supply Connections within BBX-FXMNS-6000 Enclosure........Figure 45 QBB-6001 Expansion Audio Cabinet Module Placement ..........Figure 46 QCC-6000 Communications Card .................. Figure 47 QCC-6000 Rotary Switch ....................Figure 48 Installing the QCC Communications Card..............Figure 49 QCC-6000 Communications Class B Wiring ..............Figure 50 QCC-6000 Communications Class A Wiring ..............
Page 9 List of Tables Table 1: FX-6000MNS System Components ................Table 2: FNC-2000 Module List of Connectors and Jumpers and Functions ......Table 3: FOM-2000-UM Fiber Optic Network Module Cable Connection ........Table 4: RAX-1048TZDS Zone Display Module Cable Function ..........Table 5: IPS-4848DS Programmable Input Switches Module Cable Function ......
Page 10: Introduction
The FX-MNS-6000 Network Fire and Emergency Communication System Mircom’s FX-MNS-6000 Network Fire Alarm and Emergency Communication system offers modular components for network systems providing a wide variety of applications. Designed for peer to peer network communications, using industrial standard ARCnet protocol. The FX- MNS-6000 allows for a maximum of 63 nodes (where a node can be a control center or a floor panel) while providing reliability and flexibility.
Page 11 Walk Test. • Outputs for 4 Wire resettable Smoke Power Supply, Auxiliary Power Supply, and an interface to the Mircom RTI-1 Remote Trouble Indicator. • RS-485 Interface for Remote Annunciators. Remote Annunciators do not occupy a node on the network. Up to seven annunciators can be connected per node.
Page 12 ™ • The FleX-Net is compatible with COPTIR, Pinnacle, Acclimate and 4-20mA devices. • Configuration options are provided for grouping inputs. • Panel supports previous, current and next configuration. Configuration automatically reverts back to previous or moves to future configuration through front-panel menu. •...
Page 13: Document Conventions
Document Conventions 1.2.1 Circuits and Zones The term circuits refers to an actual electrical interface, initiating (detection), indicating (signal), or relay. The term zone is a logical concept for a fire alarm protected area, and will consist of at least one circuit.
Page 14: Figure 1 Typical Fx-Mns-6000 Layout
Figure 1 Typical FX-MNS-6000 Layout...
Page 15: Fx-Mns-6000 Fire With Audio Expansion System Layout
FX-MNS-6000 Fire with Audio Expansion System Layout The figure below shows a typical FX-MNS-6000 system layout with the main lobby control panel as Node 1 and the combination of fire and audio systems as Node 2 and 3. The diagram also shows addressable fire alarm loops, paging and telephone connections and QBB-6001 extension audio cabinets.
Page 16: System Components
System Components Table 1: FX-6000MNS System Components Model Description Each FX-MNS-6000 integrated fire and BBX-FXMNS-6000 audio network panel consists of a BBX- Enclosure FXMNS-6000 enclosure which contains an audio portion QMB-6000 card cage that holds up to 4 amplifiers and a QCC-6000 Communications Card, a fire alarm portion FX-6000MNS-CH Main Chassis, which holds the main fire alarm control board, an...
Page 17 Model Description Audio Network Controller module. The ANC-6000 Audio Network Controller module is mounted in a QX-6000 backbox over the main fire alarm board. ANC-6000 Telephone Network Controller module. This module is mounted over the ANC-6000 module. The recommended mounting of TNC-5000 the TNC-5000 is sideways with LEDs across the top.
Page 18 SGM-1004A Four NAC Circuit Module RM-1008A Eight Relay Circuit Module PR-300 Polarity Reversal and City Tie Module UDACT-300A Digital Communicator/Dialer Module Fan Damper Module with white LEDs for AUTO switch position indication. FDX- 008W provides switch operation of 8 fan FDX-008W(KI) damper zones and the FDX-008WKI provides switch operation of 7 fan damper...
Page 19 4 line by 20 character display which provides 16 zone alarm and trouble DSPL-420-16TZDS indicators. can be mounted in the BBX- FXMNS-6000 backbox Programmable Input Switches Module IPS-4848DS (mounts in the BBX-FXMNS-6000 backbox and can also be part of the RAXN-LCD) Programmable Input Switches Module IPS-2424DS (mounts in the BBX-FXMNS-6000 backbox...
Page 20 Network Master Telephone Control Panel QMT-5302NV (Vertical Mount) mounts in the BBX- FXMNS-6000 backbox Addressable Telephone and Paging QAZT-5348DS Selector Panel mounts in the BBX-FXMNS- 6000 backbox Addressable Telephone and Paging QAZT-5302DS Selector Panel mounts in the BBX-FXMNS- 6000 backbox 70V Amplifier, maximum four speaker QAD-6425-70 zones.
Page 21 QBB-6001 Expansion Audio Enclosure Enclosure 45.85”H x 22.9”W x 10.03”D (full red door/black backbox) Remote Shared Display Annunciator. RAXN-LCD Please refer to LT-895 RAXN-LCD manual for further information. Remote Shared Graphical Display Annunciator. Please refer to LT-6033 RAXN-LCDG RAXN-LCDG manual for further information.
Page 22: Installation
Installation This chapter describes the installation of the BBX-FXMNS-6000 enclosure and the BB-6001 enclosure. BBX-FXMNS-6000 Enclosure Installation This enclosure can accommodate the FX-6000MNS-CH chassis with FleX-Net main fire alarm board and adder modules, the QMP-6101NV vertical mounting master paging microphone and the QMT-5302NV Master Telephone panels.The BBX-FXMNS-6000 enclosure includes a backbox, an inner door and an outer door.
Page 23: Figure 4 Bbx-Fxmns-6000 Enclosure Complete View
Figure 4 BBX-FXMNS-6000 Enclosure Complete View BBX-FXMNS-6000 Enclosure includes backbox, inner door and front door...
Page 24: Figure 5 Fx-6000Mns-Ch Mounted Within The Bbx-Fxmns-6000 Enclosure
3.1.1 FX-6000MNS-CH Main Fire Alarm Chassis This chassis mounts into the BBX-FXMNS-6000 Enclosure (backbox) as shown below. FX-6000MNS-CH mounted within the BBX-FXMNS-6000 Enclosure Figure 5 Inside Backbox View FX-6000MNS-CH Main Fire Alarm Board Chassis NOTE: Up to 9 modules can be mounted over the main fire alarm board Slot 2 is reserved for SGM-1004A...
Page 25: Figure 6 Bbx-Fxmns-6000 Backbox Dimensions And Contents
3.1.2 QMB-6000 Amplifier Card Cage This card cage mounts into the BBX-FXMNS-6000 Enclosure (backbox) as shown in figure below. The BBX-FXMNS-6000 backbox supports the QMB-6000 amplifier card cage which holds up to four amplifiers, the Fire Alarm main board chassis and QPS-6650 Power Supply. Figure 6 BBX-FXMNS-6000 Backbox Dimensions and Contents BBX-FXMNS-6000 Backbox...
Page 26: Figure 7 Bbx-Fxmns-6000 Inner Door
3.1.3 QMP-6101NV Master Paging Microphone and QMT-5302NV Master Telephone The QMP-6101NV and QMT-5302NV are mounted on the inner door of the BBX-FXMNS-6000 enclosure Refer to Figure 7 Figure 7 BBX-FXMNS-6000 Inner Door QMP-6101NV Modules are mounted from the backside of the inner door using the screws provided...
Page 27: Qbb-6001 Expansion Audio Cabinet Installation
QBB-6001 Expansion Audio Cabinet Installation The QBB-6001 expansion audio cabinet may be surface mounted only. The QBB-6001 consists of the bacbox and door. Install all cabinets and enclosures empty. Pull all required wiring in through the conduit holes provided (must be punched out). Do not mount the modules until mechanical installation is complete and all wires have been fed into the cabinets and enclosures.
Page 28: Qbb-6001 Enclosure
QBB-6001 Enclosure The QBB-6001 expansion audio cabinet includes the QPS-6650 Power Supply, and up to two QMB-6000 Card cages. Up to eight Amplifier Modules QAD-6425-25/-70 may be installed into two QMB-6000 card cages. The total maximum wattage per expansion audio cabinet is 575 Watts. Figure 9 QBB-6001 Expansion Audio Cabinet Module Placement Mounting Holes...
Page 29: Display Modules
Display Modules Each display module occupies one display position. These modules are mounted in the BBX- FXMNS-6000 enclosure which has cutouts (with brackets) on the inner door. A “Frame” is a measure of display capacity, used in the programming of the system. DSPL-420DS RAM-1032TZDS IPS-4848DS...
Page 30: Module Settings
Module Settings Main Fire Alarm Module (MD-871A “N” Version Main Chassis) This main board has one addressable loop and network capability. Jumper is removed if a PR-300 or UDACT-300A is installed. JW2,JW4 Jumpers are Factory Set and should not be changed. Normally un-installed, add jumper to silence on-board buzzer.
Page 31: Dspl-420Ds Main Display Module
Figure 10 Main Fire Alarm Module (MD-871A”N” Version Main Board. FIELD WIRING TERMINALS MAIN FIRE ALARM BOARD P2 P1 P10 P11 NAC PWR + BR - +BAT - 4.1.1 SW2 DIP Switch Node Address Setting on Main Fire Alarm Module Refer to table in Appendix for Node Address Setting.
Page 32: Dspl-2440 Graphical Main Display Module
DSPL-2440 Graphical Main Display Module The DSPL-2440 is a separate item. It can be mounted onto the inner door of the BBX-FXMNS- 6000. It can replace the DSPL-420DS found with the model FX-6000MNS-CH. Figure 12 DSPL-2440 Graphical Main Display Module TROUBLE BLDG TROUBLE...
Page 33: Fnc-2000 Fire Network Controller Module
FNC-2000 Fire Network Controller Module An FNC-2000 Fire Network Controller module is required in each fire alarm node in the system. The FNC-2000 also provides a connection for an optional FOM-2000-UM Fiber Optics Module. Figure 13 FNC-2000 Fire Network Controller Module This cable connects to P19 on the...
Page 34: Fom-2000-Um Fiber Optic Network Module
FOM-2000-UM Fiber Optic Network Module Figure 14 FOM-2000-UM Fiber Optic Network Module Bay for optical module Bay for optical module Connect cable to P10 on the FNC-2000 One of these modules is required at each panel where fiber optics will be used between them. The FOM-2000-UM is mounted over the FNC-2000 Network board (over the field wiring terminals) with two #6 Phillips screws and two Hex spacers.
Page 35: Rax-1048Tzds Zone Display Module
RAX-1048TZDS Zone Display Module Figure 15 Zone Display Module (RAX-1048TZDS) Table 4: RAX-1048TZDS Zone Display Module Cable Function Connector Function P1 Cable connects to P2 of previous display module. P2 Cable connects to P1 of next display module The zone display module comes with laser printer-compatible slide-in paper Note: labels for zone labelling.
Page 36: Ips-4848Ds Programmable Input Switches Module
IPS-4848DS Programmable Input Switches Module Figure 16 IPS-4848DS Programmable Input Switches Module Ribbon Cable connects here on IPS-4848DS and connects to the next display module Ribbon IN Ribbon Cable is permanently attached here and connects to previous Ribbon OUT connector Table 5: IPS-4848DS Programmable Input Switches Module Cable Function Connector...
Page 37: Ips-2424Ds Programmable Input Switches Module
IPS-2424DS Programmable Input Switches Module The IPS-2424DS Programmable Input Switches Module provides 24 programmable switches, 24 bi-coloured (red/amber) LEDs for fire alarm zone annunciation and 24 amber trouble LEDs Figure 17 IPS-2424DS Programmable Input Switches Module ZONE ZONE ZONE ZONE ZONE ZONE BYPASS...
Page 38: Fdx-008W(Ki) Fan Damper Control Display Module
FDX-008W(KI) Fan Damper Control Display Module There are two models of the Fan Damper Control Display modules available. The FDX-008W provides switch control and LED indication of 8 fan damper zones. The FDX-008WKI provides switch control of 7 fan damper zones with the eighth zone activated by keyswitch. LED indication is provided for all 8 fan damper zones on the FDX-008WKI.
Page 39: Figure 19 Fdx-008W Block Diagram Of Fan And Monitor Set-Up
A bypass function always has priority, so that if a circuit is bypassed by moving Note: the switch manually or by loop bypass (FX-2000N Fire Alarm Panel), no other action will operate this switch other than again moving the switch manually or by un-bypassing the loop.
Page 40: Figure 20 Fdx-008Wki Fan Damper Control Display Module
Figure 20 FDX-008WKI Fan Damper Control Display Module There are also terminals located behind TS1 on the other side of the board for Note: the convenience of wiring the keyswitch. The last fan damper zone in the bottom right position of the FDX-008WKI is controlled by the keyswitch 4.9.3 UUKL with FDX-008W and FDX-008WKI The models FDX-008W and FDX-008WKI can be effectively used to provide an automatic and manual control system for smoke.
Page 41: 4.10 Dm-1008A Hardwire Detection Adder Module
4.10 DM-1008A Hardwire Detection Adder Module Figure 21 Hardwire Detection Adder Module (DM-1008A) Power connector to P8 of Data cable to P6 or P5 of main fire alarm module, main fire alarm module or to P13 or P12 of hardwire or to P2 of hardwire loop loop controller module, or controller module, or to...
Page 42: 4.11 Sgm-1004A Hardwire Signal Adder Module
4.11 SGM-1004A Hardwire Signal Adder Module Figure 22 Hardwire Signal Adder Module (SGM-1004A) ZONE 4 1 2 3 Data cable to P6 or P5 of Power connector to P8 of main fire alarm module, or main fire alarm module or to P13 or P12 of loop to P2 of loop controller ZONE 3 module, or to previous...
Page 43: 4.12 Rm-1008A Hardwire Relay Adder Module
4.11.2 Isolator Mode Jumpers for the Isolator Mode JW2: Place jumper over pins 2 and 3 for the ability to connect an isolator on Zone 1. JW3: Place jumper over pins 2 and 3 for the ability to connect an isolator on Zone 2. JW4: Place jumper over pins 2 and 3 for the ability to connect an isolator on Zone 3.
Page 44: Polarity Reversal And City Tie Module (Model Pr-300)
4.13 Polarity Reversal and City Tie Module (Model PR-300) Figure 24 Polarity reversal and city tie module Mounting hole for #6-32 screws Mounting hole for #6-32 screws The following hardware configuration must be performed before installing the PR-300. Table 7: PR-300 jumper settings Cable connects to P4 on the FX-2000N Main Fire Alarm Board Not used.
Page 45: 4.14 Udact-300A Main Board
4.14 UDACT-300A MAIN BOARD There are two jumpers on the UDACT-300A which are used for operation/configuration purposes. Jumper JW1 is used to reset the default passcode. Jumper JW2 is required for configuring (which can be done using the FX-2000N Configurator Software) the UDACT-300A. Refer to Figure 25 below for location of jumpers, cable connections, pushbutton and LEDs.
Page 46: Table 9: Udact-300A List Of Leds And Their Functions
The following table lists all the LEDs located on the UDACT-300A board and states the function of each LED. Table 9: UDACT-300A List of LEDs and their Functions LEDs LED Function Located below Line 1 terminal block. When Line 1 relay is energized, this green Relay Line 1 LED will illuminate Located below Line 2 terminal block.
Page 47: Alcn-792Miso Isolated Quad Loop Adder Module With Alcn-792D Daughter Board
4.15 ALCN-792MISO Isolated Quad Loop Adder Module with ALCN- 792D Daughter Board The Quad Loop Adder module provides two addressable loops plus an additional two loops as part of the daughter board ALCN-792D which is mounted over the ALCN-792MISO. The Quad Loop Adder module may be mounted over the main fire alarm controller board of the FX-2000N Fire Alarm Panel or on any chassis that supports adder boards.
Page 48: Figure 26 Alcn-792Miso Quad Loop Adder Module
Mounting holes, terminals for wiring, cable connections and jumper locations on the ALCN-792MISO Quad Loop Adder module are shown in Figure 26 below. Figure 26 ALCN-792MISO Quad Loop Adder Module SHIELD LOOP 1 LOOP 2 NOT USED ALARM OUT COM (-) RS-485 Green flashing USB PORT...
Page 49: Figure 27 Alcn-792D Daughter Board
4.15.1 ALCN-792MISO DIP Switch Setting Set the DIP switches on SW1 starting at address 1 for the first ALCN-792MISO adder and consecutively up to seven for the next six ALCN-792MISO modules. Refer to Appendix C for DIP switch settings. 4.15.2 ALCN-792D Daughter Board Installation The location of Loop 1 and 2 terminals on ALCN-792D are shown in Figure 27 below.
Page 50: Field Wiring For Fire Alarm
Field Wiring for Fire Alarm Main Fire Alarm Board Wiring Wire devices to terminals as shown in Figure 28 below. Refer to Appendix A for specifications and to LT-1023 for compatible devices. Attention: Do not exceed power supply ratings: Main Chassis: FX-6000MNS-CH: total current for NACs is 10A max. "All wiring shall be in accordance with NFPA 70 and CSA C22.1, Safety Notes: Standard for Electrical Installations, Canadian Electrical Code."...
Page 51: Figure 29 Main Fire Alarm Control Board Field Terminal Connections (Continued)
SEE ANALOG LOOP WIRING SECTION ADDRESSES FOR FIRST 8 POWER-LIMITED, 22V DC, 400 mA MAX CARDS AND Maximum Loop Resistance 40 ohms CONNECTION TO MIRCOM RTI SECOND 8 REMOTE TROUBLE INDICATOR CARDS (SEE RTI INSTALLATION RESPECTIVELY INSTRUCTION) BLK TO TRB+ BLU POWER-LIMITED, REGULATED TO TRL-RED &...
Page 52: Addressable Loop Wiring
Addressable Loop Wiring Figure 30 Loop Terminal Connections - Class B TWIS TE D P AIR WIR E Conventional Heat Sensors and Manual Pull Stations MD-871A MAIN FIRE ALARM BOARD 2 P air TWO WIR E S ANAL OG LOOP CONNECTIONS 4- W IRE RESE...
Page 53: Figure 31 Loop Terminal Connections - Class X (Formerly Style 7)
Figure 31 Loop Terminal Connections - Class X (Formerly Style 7) TWISTED PAIR WIRE ADDRESSABLE SMOKE DETECTOR WITH ISOLATOR BASE MD-871A MAIN FIRE ALARM BOARD TWISTED PAIR WIRE TWISTED PAIR WIRE ADDRESSABLE THERMAL SENSOR Conventional Heat Sensors WITH and Manual Pull Stations ISOLATOR BASE Class X: For Class X operation use isolator bases...
Page 54: Figure 32 Loop Terminal Connections - Class A
Figure 32 Loop Terminal Connections - Class A ADDRESSABLE THERM AL SENSOR TWIS TE D P AIR WIR E MD-871A MAIN FIRE ALARM BOARD TWIS TE D P AIR WIR E ADDRESSABLE SMOKE DE TEC TORS Conventional 4-Wire Smoke Detectors, Heat Sensors and Manual Pull Stations ANAL OG LOOP...
Page 55: Figure 33 Quad Loop Terminal Connections - Class B
Figure 33 Quad Loop Terminal Connections - Class B ALCN-792MISO QUAD LOOP ADDER MODULE TWISTED PAIR WIRE Conventional Heat Sensors ANALOG and Manual Pull Stations LOOP 1 TWISTED PAIR WIRE 2 Pair ANALOG LOOP 2 TWO WIRES MD-871A LEGEND MAIN FIRE ALARM BOARD 4-WIRE Addressable Smoke Sensor Combination...
Page 56: Figure 34 Quad Loop Adder Module Terminal Connections - Class X (Formerly Style 7)
Figure 34 Quad Loop Adder Module Terminal Connections - Class X (Formerly Style 7) ALCN-792MISO QUAD LOOP ADDER MODULE TWISTED PAIR WIRE TWISTED PAIR WIRE ANALOG LOOP 1 ADDRESSABLE SMOKE DETECTOR WITH ISOLATOR BASE TWISTED PAIR WIRE ANALOG LOOP 2 TWISTED PAIR WIRE ADDRESSABLE THERMAL SENSOR...
Page 57: Figure 35 Quad Loop Adder Module Terminal Connections - Class A
Figure 35 Quad Loop Adder Module Terminal Connections - Class A TWISTED PAIR WIRE ADDRESSABLE THERMAL SENSOR ALCN-792MISO QUAD LOOP ADDER MODULE ANALOG LOOP 1 ADDRESSABLE SMOKE DETECTORS Conventional 4-Wire Smoke Detectors, Heat Sensors and Manual Pull Stations ANALOG LOOP 2 LEGEND Addressable Smoke Sensor Addressable Thermal Sensor...
Page 58: Network Wiring
Network Wiring 5.3.1 FNC-2000 Fire Network Controller Module Wiring The FNC-2000 Fire Network Controller modules are wired from terminals marked Line A, positive and negative (see specific cable recommended in Figure ) to the Line B terminals of the next FNC-2000 module. Use of shielded cable is not recommended. Wire from Line B terminals to Line A of the next FNC-2000 module.
Page 59: Figure 37 Fom-2000-Um Fiber Optic Network Adder Module Wiring
5.3.2 FOM-2000-UM Fiber Optic Network Adder Module The FOM-2000-UM Fiber Optic Network Adder Module is wired with fiber optic cable. Connect L1 to L2 and L2 to L1 as shown in the Class A wiring of Figure 37. Refer to LT-6907 document for more wiring and installation information.
Page 60: Analog Initiating Wiring
Analog Initiating Wiring 5.4.1 Detection Module (DM-1008A) Terminal Connections Wire devices to terminals as shown below. See wiring tables, and Appendix A for electrical specifications and document LT-1023 for compatible devices. Figure 38 Hardwire Detection Module (DM-1008A) Terminal Connections INI 1+ SUPERVISED INITIATING CIRCUIT #1 CLASS B WIRING...
Page 61: Analog Nac Wiring
Legend: SMOKE DETECTOR 3.9K 1/2W ELR LISTED S5434 MODEL MP-300 MANUFACTURED BY MIRCOM The terminal blocks are “depluggable” for ease of wiring. Note: All power limited circuits must use type FPL, FPLR, or FPLP power limited cable. SGM-1004A NACs are fully supervised and rated for 24 VDC regulated, 1.5A...
Page 62: Analog Relay Wiring
Analog Relay Wiring 5.6.1 Relay Module (RM-1008A) Terminal Connections Relays are available as shown below. Figure 40 Hardwire Relay Module Terminal Connections RM-1008A Relay Module AUX RELAY 1 AUX RELAY 5 CONTACTS CONTACTS RLY 1 RLY 5 28 VDC, 1 AMP 28 VDC, 1 AMP RESISTIVE LOAD RESISTIVE LOAD...
Page 63: Polarity Reversal And City Tie Module (Pr-300) Wiring
Polarity Reversal and City Tie Module (PR-300) Wiring Wire PR-300 Polarity Reversal and City Tie Module (if used) as shown in Figure below. Power Limited cable type FPL, FPLR or FPLP must be used. For USA installation, the installer must use Atlantic Scientific (Tel: 407-725-8000), Model #24544 Protective Device, or similar UL-Listed QVRG secondary protector, as shown.
Page 64: Udact-300A Main Board Terminal Connections
UDACT-300A Main Board Terminal Connections Wire the two telephone lines to RJ31X Connector terminals as shown in Figure 42 below. The UDACT-300A terminals are located on the top left hand corner of the board. Note: For two wired telephone lines see figure below. For combination wired and wireless, refer to UDACT-300A manual LT-888.
Page 65: Power Supply Wiring
Power Supply Wiring 5.9.1 QPS-6650 Power Supply Connections The power supply is model QPS-6650. The ratings are outlined in the table below. Model Electrical Input Ratings Power Supply Total Battery Fuse on Main Current Module 120 VAC, 60 Hz/ 230 VAC, QPS-6650 27 AH @ 24V DC 50 Amp...
Page 66: Figure 44 Power Supply Connections Within Bbx-Fxmns-6000 Enclosure
Figure 44 Power Supply Connections within BBX-FXMNS-6000 Enclosure. Power Supply Connections MD-1331 FX-6000MNS-CH To Node 2 To GND(*) ARCNET Connect to QPS-6650 Power Supply AUX 24V DC GND(*) RS-485 shown below FNC-2000 MD-871A HS Audio WC-100015 wire harness 10 AWG 10 AWG 10 AWG 10 AWG...
Page 67: 5.10 Wiring Tables And Information
5.10 Wiring Tables and Information Table 11: Wiring Table for Initiating Circuits. Wire Gauge Maximum Wiring Run to Last Device (ELR) (AWG) 2990 4760 1450 7560 2300 12000 3600 19000 5800 30400 9200 Note: Maximum loop resistance should not exceed 100 Ohms. Table 12: Wiring Table for NACs ain board NACs are rated for 1.7 amps each.
Page 68: Table 13: Analog Loop Wiring
Table 13: Analog Loop Wiring Wire Gauge Loop Total (Out and In) Maximum (use twisted pair) Twisted Pair Wire Run (AWG) 10,000 3049 7971 2429 4980 1518 3132 Line capacitance shall not exceed 0.5 F. Note: Inductance shall not exceed 1 mH. Resistance shall not exceed 40 ohms.
Page 69: Field Wiring Of Audio
Field Wiring of Audio The modules that mount into the audio card cage are the amplifier modules. Up to four amplifiers may be installed in each BBX-FXMNS-6000 enclosure and QBB-6001 Expansion Audio Cabinet. One of the four amplifiers may be designated as a backup amplifier through configuration.
Page 70: Installing And Removing Amplifiers
Field Wiring of Audio Components on the amplifiers should be facing right when inserted into backplane. Make sure connections for the power supply and battery charger are as shown above. Place all amplifier modules from left to right in slot positions one to four in each card cage. Up to 9 expansion audio cabinets QBB-6001 can be used per Fire Alarm Node.
Page 71: Qcc-6000 Communications Card
Field Wiring of Audio 6.2.2 Removing the QAD Amplifier Modules 1. Unscrew the two screws holding the amplifier in place. Do not handle, push or pull any of the components on the amplifier as this will damage those components. 2. Place the forefinger of one hand on the top section of the amplifier metal front plate and the forefinger of the other hand on the bottom edge of the amplifier metal front plate.
Page 72: Figure 46 Qcc-6000 Communications Card
Field Wiring of Audio Figure 46 QCC-6000 Communications Card To CN3 on next From CN4 on previous QCC-6000 QCC-6000 Set the communication card’s address with SW1 rotary switch. To CN8 on AUDIO COMMUNICATION AUDIO COMMUNICATION QPS-6650 Short the center jumper pins (jumpers 5 and 6) on the card that is connected directly to...
Page 73: Figure 48 Installing The Qcc Communications Card
Field Wiring of Audio Figure 48 Installing the QCC Communications Card. QCC-6000 mounts onto outside edge of amplifier card cage with two screws provided.
Page 74: Figure 49 Qcc-6000 Communications Class B Wiring
Field Wiring of Audio Figure 49 QCC-6000 Communications Class B Wiring AUDIO COMMUNICATION AUDIO COMMUNICATION Jump to enable Audio Controller connection AUDIO COMMUNICATION AUDIO COMMUNICATION AUDIO COMMUNICATION AUDIO COMMUNICATION Node 1 Jump to enable Audio Controller connection Jump to enable Audio Controller connection Node 3 Node 2 Figure 50 QCC-6000 Communications Class A Wiring...
Page 75: Audio Network Card And Telephone Network Card
Field Wiring of Audio Audio Network Card and Telephone Network Card Each QMB-6000 backplate requires an ANC-6000 Audio Network Controller Card. The TNC- 5000 Telephone Controller Network card is necessary only if Telephone circuits are required. Below is a diagram for mounting both audio and telephone cards over the main fire alarm board in FX-6000MNS-CH.
Page 76: Anc-6000 Audio Network Controller Board
Field Wiring of Audio ANC-6000 Audio Network Controller Board Figure 52 ANC-6000 Audio Network Controller board Ribbon Cable to REMOTE MIC AUX AUDIO P1 on QCC-6000 + S - FPGA JTAG Connects to P10 on TNC-5000 Telephone Network Controller Module JW4 Jumper factory use only, leave open...
Page 77: Anc-6000 Wiring
Field Wiring of Audio ANC-6000 Wiring The auxiliary audio input has a maximum input of 1 VRMS. The transformer is isolated on the ANC-6000. Connect an audio source, for example background music or paging, to the SIG terminal. Connect a normally open relay and 3.9 k resistor to the CTL terminal as shown in Figure 53. Short the relay to activate the auxiliary audio.
Page 78: Qmp-6101Nv Vertical Paging Control Module
QMP-6101NV Vertical Paging Control Module QMP-6101NV Vertical Paging Control Module The QMP-6101NV Paging Module fits into the new BBX-FXMNS-6000 Enclosure. It mounts on the inside door chassis (part of the BBX-FXMNS-6000). Figure 54 QMP-6101NV Vertical Paging Control Module PAGE TO EVAC PAGE TO ALL-CALL...
Page 79: Paging Modules
QMP-6101NV Vertical Paging Control Module Paging Modules Figure 55 QMP-6101NV Network Master Paging Control Module Connections and Terminal Blocks From ANC-6000 Not used Leave jumper on these two pins. DIP Switch SW1 is to set and remains at addresss 1. Microphone connection The interface wiring between the ANC-6000 and QMP-6101NV is as follows: 18-22 AWG Twisted Pair...
Page 80: Qazt-5348Ds Zoned Paging Selector Panel
QMP-6101NV Vertical Paging Control Module QAZT-5348DS Zoned Paging Selector Panel Each QAZT-5348DS annunciates and controls up to 48 audio zones. There is one button and two LEDs per zone. The lower amber LED indicates Zone trouble. The upper green LED indicates whether that zone is selected for voice paging via the master microphone.
Page 81: Qmp-6101Nv Paging Operation
QMP-6101NV Paging Operation QMP-6101NV Paging Operation This section describes the controls and indicators on the QMP-6101NV Master Paging Microphone Module and the QAZT-5348DS Paging Selector Module. QMP-6101NV LEDs 8.1.1 All Call Illuminates steady green to indicate that the All-Call function is active. 8.1.2 Microphone Active LED Flashes green to indicate any activity on the paging bus (i.e.
Page 82: Qmp-6101Nv Pushbutton Controls
QMP-6101NV Paging Operation QMP-6101NV Pushbutton Controls 8.2.1 All-Call Button Selects all zones for voice paging. 8.2.2 All-Call Minus Button Inverts the selection of zones for voice paging. 8.2.3 Page to Evac Pressing this button selects all the audio zones currently in evacuation mode, for paging. 8.2.4 Page to Alert Pressing this button selects all the audio zones currently in alert mode, for paging.
Page 83: Tnc-5000 Telephone Network Controller Module
TNC-5000 Telephone Network Controller Module TNC-5000 Telephone Network Controller Module Module Mounting Locations The TNC-5000 Telephone Network Controller board can be mounted in one place. The TNC- 5000 Telephone Network Controller Board is mounted above the ANC-6000 Audio Network board, both are mounted in position 2 above the main fire alarm board, see Figure 51. Typical Addressable Telephone Set-up The typical addressable telephone set-up is with an addressable fire alarm system using the TNC-5000 and from the TNC-5000 to the Master Telephone (QMT-5302NV).
Page 84: Connectors And Terminal Locations
TNC-5000 Telephone Network Controller Module Connectors and Terminal Locations Table 14 below shows the cable connections and jumpers required and additional wiring. Refer to Figure 57 for connector and terminal locations. Table 14: TNC-5000 Connectors and Terminals TNC-5000 Connects to Connector and Terminals P10 Cable P11 on the ANC-6000 Audio Network Controller Module.
Page 85: Tnc-5000 Telephone Wiring
TNC-5000 Telephone Network Controller Module TNC-5000 Telephone Wiring Figure 58 Telephone Bus Wiring Diagram Tel. Bus Tel. Bus TNC-5000 TNC-5000 Tel. Bus Tel. Bus Tel. Bus Tel. Bus TNC-5000 TNC-5000 Tel. Bus Tel. Bus Tel. Bus Tel. Bus TNC-5000 TNC-5000 Tel.
Page 86: Figure 59 Tnc-5000 Telephone Zone Wiring
TNC-5000 Telephone Network Controller Module Zones 1 to 5 are wired to telephones via MIX-M500FP(A) addressable control modules. Only Zone 1 is wired to the Master Telephone (if used) at the main fire alarm center, otherwise Zone 1 is wired as another telephone zone when a master telephone is not required. Figure 59 TNC-5000 Telephone Zone Wiring FROM PREVIOUS FIREPHONE MODULE.
Page 87: Qmt-5302Nv Vertical Master Telephone
TNC-5000 Telephone Network Controller Module QMT-5302NV Vertical Master Telephone The QMT-5302NV Vertical Master Telephone Module fits into the BBX-FXMNS-6000 Enclosure. The master telephone is mounted to the inside door chassis. Figure 60 QMT-5302NV Master Firefighters’ Telephone INCOMING CALL CONTROL TROUBLE ACTIVE CALL CALL...
Page 88: Qmt-5302Nv Connections
TNC-5000 Telephone Network Controller Module QMT-5302NV Connections The connections required on the QMT-5302NV Network Master Firefighters’ Telephone Control Module are the cable from the previous display module to P1 or IN connector on the bottom left of the board and the OUT connection goes to the IN connector of the next display board.
Page 89: Qazt-5348Ds Network Firefighters' Telephone Selector Panel
TNC-5000 Telephone Network Controller Module Figure 62 QAZT-5348DS Network Firefighters' Telephone Selector Panel Each QAZT-5348DS annunciates and controls up to 48 telephone zones. There is one button and two LEDs per zone. The lower amber LED indicates zone trouble. The upper green LED indicates whether that zone is selected for telephone communication.
Page 90: Telephone Operation
TNC-5000 Telephone Network Controller Module Figure 63 QAZT-5348DS Telephone Selector Panel Cable Connections. Ribbon Cable connects PROG here on IPS-4848DS and goes to the next display module Ribbon Ribbon Cable is permanently attached here and connects to previous Ribbon OUT connector. Telephone Operation When any telephone zone rings (the local buzzer sounds intermittently, and the green zone LED and Incoming Call LED flash) press that zone's button (on the selector panel QAZT-...
Page 91: Qazt-5348Ds Network Telephone Selector Panel Leds
TNC-5000 Telephone Network Controller Module 9.11.2 Deselect All Pressing this pushbutton will disconnect all master telephone calls initiated at this node (Call Control minus). 9.12 QAZT-5348DS Network Telephone Selector Panel LEDs 9.12.1 Telephone Zone Green LED This LED will flash green if there is any handset off-hook on that zone, and the zone has not been answered by pressing the zone's button.
Page 92: Figure 64 Installing The Amplifiers Into The Qmb-6000 Card Cage
TNC-5000 Telephone Network Controller Module Figure 64 Installing the Amplifiers into the QMB-6000 Card Cage The QMB-6000 card cage provides the terminals for the amplifier field wiring. There are 4 slots for the amplifier cards, and 4 sets of terminals for the speaker wiring. Figure 65 shows the correlation between the slots for the amplifier cards and the terminals for the speakers.
Page 93: Figure 65 Qmb-6000 Terminals For Amplifier Wiring
TNC-5000 Telephone Network Controller Module Figure 65 QMB-6000 Terminals for Amplifier Wiring Power from QPS-6650 Slot 1 Slot 2 Slot 3 Slot 4 To P2 on QCC-6000 Slot 1 Slot 2 Slot 3 Slot 4...
Page 94: Amplifier Wiring
TNC-5000 Telephone Network Controller Module 9.16 Amplifier Wiring 9.16.1 QAD-6425-25/-70 Amplifier Wiring (100W Circuit) The QAD-6425-25/-70 amplifiers can be wired as one 100 Watt supervised speaker output. Each 100W circuit may be wired as Class A or Class B. Must use terminal block 1.1 and 1.2 for 100W circuit wiring.Wiring for 100W Amplifier Circuit Figure 66 Wiring for 100 Watt Amplifier Circuit Connector location on all amplifiers...
Page 95: Table 15 End Of Line Resistor Value For Amplifier Circuits
TNC-5000 Telephone Network Controller Module Table 15 End of Line Resistor Value for Amplifier Circuits Amplifier Type Configuration EOL Value 3k9 ohms 3k9 ohms 3k9 ohms 100W 3k9 ohms 10k ohms 10k ohms 10k ohms 100W 10k ohms...
Page 96: Figure 67 Wiring For 75W And 25W Amplifier Circuits
TNC-5000 Telephone Network Controller Module 9.16.2 QAD-6425-25/-70 Amplifier Wiring (75W and 25W Circuits) The QAD-6425-25/-70 amplifiers can be wired as one 75 Watt and one 25W supervised speaker output. Each circuit may be wired as Class A or Class B. Must use terminal block 1.1 (or 2.1, 3.1, 4.1) for the 75W circuit wiring.
Page 97: Figure 68 Wiring For 50W Amplifier Circuits
TNC-5000 Telephone Network Controller Module 9.16.3 QAD-6425-25/-70 Amplifier Wiring (50W Circuits) The QAD-6425-25/-70 amplifiers can be wired as two 50 Watt supervised speaker outputs. Each 50W circuit may be wired as Class A or Class B. Figure 68 Wiring for 50W Amplifier Circuits Connector location on all amplifiers Six connectors for wattage and...
Page 98: Figure 69 Wiring For 25W Amplifier Circuits
TNC-5000 Telephone Network Controller Module 9.16.4 QAD-6425-25/-70 Amplifier Wiring (25W Circuits) The QAD-6425-25/-70 amplifiers can be wired as four 25 Watt supervised speaker outputs. Each 25W circuit may be wired as Class A or Class B. Figure 69 Wiring for 25W Amplifier Circuits CLASS A WIRING CLASS A...
Page 99: Table 16 Wiring Chart For 70V Speakers
TNC-5000 Telephone Network Controller Module 9.16.5 Backup Amplifier Wiring Any amplifier may be designated (through configuration) as a backup amplifier per node when backup is required. Use of 25V or 70V must be restricted to one or the other per node. The backup amplifier can be any amplifier installed in any audio cabinet per each node.
Page 100: Indication
Indication Table 17 Wiring Chart for 25V Speakers Total Maximum Wiring Run To Last Device (ELR) Power 18AWG 16AWG 14AWG 12AWG Watts 10.0 Indication Figure 70 Audio Cabinet Displays and Controls Card Level LEDs Amplifier Circuit LEDs (Four groups of 4 LEDs) There are 20 LEDs provided on each amplifier.
Page 101: Audio Configuration
Audio Configuration Common Trouble Overload - power overload indication FOUR SETS OF FOUR LEDS FOR EACH CIRCUIT Auxiliary - solid blue for BG (background music) - blinking blue for startup Paging - solid green, active page Trouble - solid amber for amplifier trouble Alarm - solid red for alarm condition, flashing red for alert condition 11.0 Audio Configuration...
Page 102: System Checkout
12.0 System Checkout 12.1 Before Turning the Power On 1. To prevent sparking, do not connect the batteries. Connect the batteries after powering the system from the main AC supply. 2. Check that all modules are installed in the proper location with the proper connections. 3.
Page 103: Indicators, Controls, And Operation
13.0 Indicators, Controls, and Operation Refer to figure below for LED indicators, control buttons, and switches locations. Figure 71 Indicators and Control Location Queue controls and 16 Configurable AC On CPU Fault indicators for Alarm, bi-coloured zone Indicator Indicator Supervisory, indicators and 16 Trouble and Monitor trouble indicators...
Page 104: Common Indicators
Indicators, Controls, and Operation 13.1 Common Indicators Indicators Description The Buzzer is activated by any of the following: Fire Alarm - Steady Supervisory Alarm - Fast Rate Trouble - Trouble Rate Buzzer Monitor - Configurable to sound at Trouble Rate If the Buzzer is turned on in response to a Non-Latching Trouble or Supervisory, it will be turned off if the condition causing it goes away and there is no other reason for it to be on.
Page 105: Common Controls
Indicators, Controls, and Operation 13.2 Common Controls 13.2.1 LCD Display The display is a large 4 line by 20 character back-lit alphanumeric LCD. It displays information on the panel and its devices. There are cursor buttons for menu selection and control. Information provided by the LCD display is an alarm log, an event log, current levels, device information, verification and maintenance reports.
Page 106 Indicators, Controls, and Operation 13.2.3 Cursor Buttons These four buttons around the Enter Button are used for up (previous), down (latest), left, and right selection of items on the LCD Display. 13.2.4 Enter Button This button is used to select a displayed item on the LCD Display.
Page 107 Indicators, Controls, and Operation 13.2.10 Fire Drill Button The Fire Drill button activates all programmed and non-Disconnected NACs, but does not transmit any Alarms via the City Tie, or Common Alarm Relay. Fire Drill may be programmed to operate specific NACs. Fire Drill is cancelled by pressing the button again (toggle switch), or if the Panel goes into a real Alarm.
Page 108: Single Stage Operation
Indicators, Controls, and Operation 13.3 Single Stage Operation In a single stage system, all alarm inputs are treated in a similar manner. Alarm inputs include any of the following: non-verified alarm, verified alarm, sprinkler alarm, water-flow alarm, and general alarm circuits. Any of these alarm inputs occurring when the panel is not already in alarm cause the following: •...
Page 109 Indicators, Controls, and Operation • All non-disconnected strobe circuits are activated continuously. • All non-disconnected signal circuits are activated at the evacuation rate. • The General Alarm LED turns on. If the alarm is a First Stage alarm, • Non-disconnected strobe circuits programmed to that circuit are activated continuously. •...
Page 110: Pre-Signal Operation
Indicators, Controls, and Operation 13.5 Pre-Signal Operation To configure the panel for pre-signal, all alarm inputs must be correlated to one NAC circuit that is wired to a Notification Appliance in the Control Room that is constantly monitored by an Operator.
Page 111 (open-circuit). This circuit is used for monitoring a trouble condition from an external device such as Trouble-Only a Mircom Series 500 Audio System. Both open and short circuits generate a non- latching trouble condition. 13.6.2...
Page 112: Figure 72 Evacuation Codes
13.6.3 Evacuation Codes Single stage codes On 100% of the time Continuous 3 of 0.5 second on, 0.5 second off then, 1.5 second pause Temporal Code 0.5 second on, 0.5 second off March Code 5 seconds on, 10 seconds off California Code Two-stage codes Alert Code...
Page 113: Configuration
Configuration 14.0 Configuration The FX-MNS-6000 network system is configured using MGC software MSW-036. NOTE: When setting up a system to use the Request, Grant, Deny functionality, if any nodes within that system have annunciators attached, the controls must be disabled on those annunciators. 14.1 Configuration Backup, Query and Fast-Forward The panel supports previous, current and next configuration.
Page 114: Boolean Logic Engine
Configuration 14.4 Boolean Logic Engine Boolean logic functions are now available within the configuration software. Sophisticated logic functions such as: AND, OR, NOT, ANY n of m, >, <, >=, <> Built-in timers or user configurable timers and intervals and schedules available to support UUKL operations.
Page 115: Appendix A: Specifications
15.0 Appendix A: Specifications Main Fire Alarm Chassis (FX-6000MNS-CH) Quad Intelligent Analog Loop Module (ALCN-792MISO/D) Quad Analog Loops with additional ALCN-792D daughter board General capable of monitoring 636 AP Sensors and 636 AP Modules. Power limited: 22 VDC, 400 mA max, max loop resistance 40 Power limited: 24 VDC, 400 mA max, 10kHz frequency ohms...
Page 116: Compliance
Appendix A: Specifications DSPL-420DS and DSPL-2440 Displays Programmable Input Switches Module (IPS-2424DS) standby: 25mA and 35mA standby: 5 mA Current Consumption: Current Consumption: alarm: 25mA and 30mA alarm (one zone active): 22 mA Fan Damper Display Module (FDX-008W/KI) Programmable Input Switches Module (IPS-4848DS) 24V DC nominal, range of 20 to 39V DC.
Page 117: Fx-Mns-6000 Audio Specifications
15.1 FX-MNS-6000 Audio Specifications All circuits are power limited, unless specified otherwise. Note: Table 18FX-MNS-6000 Audio Specifications Model QPS-6650 Power Supply and Charger Model FNC-2000 Fire Network Controller Module • 0 to 49 degrees Celsius, 0 to 93 + or - 2% RH (non- •...
Page 118: Appendix B: Power Supply And Battery Calculations
Appendix B: Power Supply and Battery Calculations 16.0 Appendix B: Power Supply and Battery Calculations Power Requirements (All currents are in amperes) Total Total Model Number Description Standby Alarm Standby Alarm FX-6000MNS-CH Main Chassis (12 Amp) 0.357 0.506 ALCN-792MISO Dual Analog Loops 0.130 0.145 ALCN-792MISO...
Page 119: 16.1 Raxn-Lcd/Raxn-Lcdg
LCD display (or for the RAXN-LCDG a graphical display) which uses a simple menu system complete with a directional key pad and switches for Enter, Menu, Cancel and Info. For more information see Mircom documents LT-895 and LT-6033. 16.1.1 Models •...
Page 120: Appendix C: Dip Switch Settings
Appendix C: DIP Switch Settings 17.0 Appendix C: DIP Switch Settings FX-6000MNS-CH Network Main Board Address Setting (DIP SWITCH SW2) 17.1 SW2 DIP SWITCHES Node Address SW2-1 SW2-2 SW2-3 SW2-4 SW2-5 SW2-6 SW2-7 SW2-8...
Page 121: Anc-6000 Audio Network Controller Board Address Setting (Dip Switch Sw1)
17.2 ANC-6000 Audio Network Controller Board Address Setting (DIP SWITCH SW1) ADDR SW1-1 SW1-2 SW1-3 SW1-4 SW1-5 SW1-6 SW1-7 SW1-8 17.3 ACN-792MISO Loop Adder Module (CPU) Address Setting (DIP SWITCH SW1) ADDR SW1-1 SW1-2 SW1-3 SW1-4 SW1-5 SW1-6 SW1-7 SW1-8 Refer to Network Fire Alarm Manual as to whether addresses 5, 6 and 7 are available 17.4 RAXN-LCD/RAXN-LCDG Remote Annunciator Address Setting (...
Page 122 Appendix D: Alarm Verification Timing 18.0 Appendix D: Alarm Verification Timing ULI/ULC Retard / Reset / Restart ULI/ULC Confirmation Period 60 seconds Maximum 60 seconds Minimum SMOKE DETECTOR Restart IN ALARM Reset (30s) (65s) These intervals are determined This interval is determined by the maximum by the maximum Detector Reset Detector Start-up time.
Page 123 19.0 Appendix E: Wiring For Addressable Supervised Output Module CSIS - 202A CSIS - 202A Supervised Signal Supervised Signal BPS -1100 Isolator #1 Isolator #2 Booster Power Supply ROOM1 ROOM 2 ROOM1 ROOM 2 RETURN RETURN RETURN RETURN ROOM1 ROOM 2 ROOM1 ROOM 2 SIGNAL...
Page 124 20.0 Appendix F: Power Supply & Batteries for Audio Expansion Cabinet QBB-6001 Use the form below to determine the required main chassis and secondary power supply (batteries). IMPORTANT NOTICE The main AC branch circuit connection for Fire Alarm Control Unit must provide a dedicated continuous power without provision of any disconnect devices.
Page 125 21.0 Appendix G: APB-200/COA Sounder Bases ™ The FleX-Net Network Fire Alarm system can accommodate up to 32 APB-200/COA sounder bases per panel (node). The sounder base audio is synchronized on the same loop basis. Below is a wiring diagram for connecting the sounder bases to auxiliary power with supervision.
Page 126 Appendix I: Configuration Example Setup Appendix H: Configuration Example 22.0 Setup Configuration Example Setup Here is the drawing of a sample hardware setup that represents new components within the FX-MNS-6000 product and their connection with the existing FleX-Net system. Node Builds Description Part Number Node 1: MAIN PANEL...
Page 127 Appendix I: Configuration Example Setup Node 1: EXPANSION PANEL Expansion Box QBB-6001 Amplifier cage QMB-6000 25V amplifier QAD-6425-25 70V amplifier QAD-6425-70 Communication card QCC-6000 Power supply QPS-6650 Node 2: FX-2003-12NDS Enclosure BBX-1024DS Main board MD-871A Narrow Main Display DSPL-420DS Telephone network controller TNC-5000 (MD-891) Fire Network Controller FNC-2000 (MD-881)
Page 128 Appendix I: Configuration Example Setup Enter in the description of the job and select the Agency Standard. In the job info, select “Digital Audio”, select “enable dig msg to continue playing after paging”, and “monitor Alert”. The monitor alert allows the display and the buzzer ON THE DSPL-420DS AT THE AT NODE 1 AND 2? to respond to the addressable monitor circuit.
Page 129 Appendix I: Configuration Example Setup Modify the Alert and Evac messages to any custom message. Messages can be imported or composed based on pre-existing messages...
Page 130 Appendix I: Configuration Example Setup To add an audio controller (ANC-6000), right click on Node 1 and select “add audio controller” Select “Add” from the viewed window as shown below.
Page 131 Appendix I: Configuration Example Setup Next, add a quad loop adder (SLC loops) by following this capture below: Next, add UDACT by following this capture below:...
Page 132 Appendix I: Configuration Example Setup Add the second Node (Node 2) by following this capture: To Node 1 add a Display adder: Add Telephone/Page selector as well as Master Telephone and 48 LED adder. Add master paging under “Audio control” category. This is specific to FX-MNS-6000. Next, add amplifiers by right clicking on Loop 4 (Amplifiers).
Page 133 Appendix I: Configuration Example Setup Select the type of the amplifier to add from the pop up window menu. Add amplifiers based on the hardware configuration.
Page 134 Appendix I: Configuration Example Setup Different wattage combinations can be achieved by properly setting the AJ flag in F2 column. Note: If the F2 column is hidden you can expand the line between F1 and F3 to reveal column 2. Add the following input devices to the configuration by right clicking on Loop 2 and adding the following input types: Here are the input devices that we added for the particular hardware setup...
Page 135 Appendix I: Configuration Example Setup Button Assignments Assign the first 3 buttons to “Page Select” in order to correlate these buttons with different amplifiers. Additionally assign 3 digital message buttons. Below is the screen shot of the assigned telephone page selector after defining those buttons:...
Page 136 Appendix I: Configuration Example Setup Assign some of the 48 LED adder indicators to show status of output zones (NACs and Speakers). Next, add 3 input zones for each of Alarm, Supervisory and Monitor events by right clicking on Input Zones and adding zones.
Page 137 Appendix I: Configuration Example Setup Next, go to Loop 2 and right click on any of the inputs and add correlations to input zones. This becomes the end result of the correlations of the input zones.
Page 138 Appendix I: Configuration Example Setup Next, go to amplifiers, select all of them and create a correlation to input alarm zone 1. Next, go to the 48 LED adder and create buttons for input zones and create correlations to their respective zones.
Page 139 Appendix I: Configuration Example Setup Page Select Correlations Go to Telephone/Page Selector under Main display and correlate the first “page select” button to the first amplifier card in the main panel. Below is a capture. Next, create correlations for custom digital messages by following information on the screen below. If the digital msgs screen is empty, you need to add messages in the “Audio Setup”...
Page 140 Appendix I: Configuration Example Setup Dialer Related Configurations In the dialer related view, make sure “advanced addressing” is set. The rest of the information (account number…) is custom and depends on your central station requirements. At the end of your configurations, validate the job by following sample capture below.
Page 141 Appendix I: Configuration Example Setup ULC Configurations (changes to satisfy ULC requirements) Hardware changes required for ULC compliance: 48 LED adder (RAX-1048TZDS) was changed to 48 switch adder (IPS-4848DS). The IPS-4848DS is represented by two 24 SW Adder in the configurator. In order to modify an existing job for ULC, you can create a new job and change the agency to ULC and then copy current job date to it.
Page 142 Appendix I: Configuration Example Setup Make sure the Agency selected in the job detail is ULC. Make the following changes in the job details view to configure for two-stage.
Page 143 Appendix I: Configuration Example Setup Having the “two stage” option checked, configures the system for a simple two-stage (the mall operation). The simple two stage puts all output zones into alert for the duration of the Auto GA. Upon expiring the Auto GA timer, all output zones go into Evac.
Page 144 Appendix I: Configuration Example Setup Add 3 Manual Stations to Loop 2. Sample shown below. Then, correlate the manual stations to their respective input zones. Next, correlate input zones to signals (amplifier circuits) based on your physical configuration. Below is an example: Next, assign 3 LED display points to indicate the Alarm statuses of the 3 input zones.
Page 145 Appendix I: Configuration Example Setup Then correlated those display points to their respective input zones as shown below: Finally, Validate the job by going to the job menu and selecting “validate.”...
Page 146 As the only individual in contact with system users, please bring each item in this warning to the attention of the users of this Mircom System. Failure to properly inform system end-users of the circumstances in which the system might fail may result in over-reliance upon the system.
Page 147 11. Battery Failure. If the Mircom System or any device connected to the system operates from batteries it is possible for the batteries to fail. Even if the batteries have not failed, they must be fully charged, in good condition, and installed correctly.
Page 148 20. Integrated Products. Mircom System might not function as intended if it is connected to a non-Mircom product or to a Mircom product that is deemed non-compatible with a particular Mircom System.
Page 149 CANADA - Main Office U.S.A © Mircom 2021 25 Interchange Way 4575 Witmer Industrial Estates Printed in Canada Vaughan, ON L4K 5W3 Subject to change without prior notice Niagara Falls, NY 14305 Tel: (905) 660-4655 Tel: (905) 660-4655 www.mircom.com (888) 660-4655...

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