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FX-2000
Intelligent Analog Fire Alarm Control Panel
Installation and Operation Manual
For the latest compatability information visit www.mircom.com/deviceguide
LT-657 Rev 14
September 2015
1.0
2.0
3.0
4.0
5.0
6.0
6.1
6.2
6.3
6.4
7.0
8.0
8.1
8.2
8.3
8.6
8.8
9.0
7.5
7.6
7.7
7.8
7.1
7.2
7.3
7.4
7.9
7.10
7.13
Table of Contents
Introduction 1
Document Conventions
System Components
Mechanical and Chassis Installation
Module Mounting Locations
3
4
12
23
Display and Adder Modules Mounting Locations 25
FX-2003-6DS/FX-2003-12DS/FX-2003-6DS-16LED Compact Main Chassis ...............
25
FX-2017(S)-12DS Mid-size Main Chassis ......................................................................
25
FX-2009(S)-12DS Large Main Chassis ..........................................................................
26
ECX-0012 Expander Chassis for FX-2009-12DS ...........................................................
26
Module Settings 29
Main Fire Alarm Modules (MD-764 Part of Main Chassis) .............................................
29
Main Fire Alarm Super Module (MD-757 Part of “S” Version Main Chassis) .................
30
RAX-1048TZDS Zone Display Module ...........................................................................
32
IPS-2424DS Programmable Input Switches Module ......................................................
32
Fan Damper Control Display Module (FDX-008/KI) .......................................................
33
DM-1008A Hardwire Detection Adder Module ...............................................................
36
SGM-1004A Hardwire NAC Signal Adder Module .........................................................
37
RM-1008A Hardwire Relay Adder Module .....................................................................
39
Polarity Reversal and City Tie Module (Model PR-300) ................................................
40
UDACT-300A Main Board ..............................................................................................
41
ALC-H16 Hardwire Loop Controller Module ...................................................................
47
Field Wiring 49
Main Fire Alarm Module Terminal Connections .............................................................
49
Analog Loop Wiring ........................................................................................................
51
NAC Signal Module (SGM-1004A) Terminal Connections .............................................
58
UDACT-300A Main Board Terminal Connections ..........................................................
61
Wiring Tables and Information ........................................................................................
63
System Checkout 65
i
10.0
Indicators and Controls 66
11.0
Operation 72
11.1
11.2
11.3
11.4
11.5
11.6
Single Stage Operation ..................................................................................................
72
Two Stage Operation .....................................................................................................
73
Pre-Signal Operation ......................................................................................................
74
UUKL feature .................................................................................................................
74
Output Circuit Delay Operation ......................................................................................
74
Circuit Types ..................................................................................................................
75
12.0
Appendix A: Specifications 79
13.0
Appendix B: Compatible Devices 85
13.1
13.2
13.3
13.4
13.5
13.6
13.7
FX-2000 Series Compatible Addressable Loop Devices (UL) .......................................
85
FX-2000 Series Compatible Two-Wire Smoke Detectors (UL) ......................................
86
FX-2000 Series Compatible Four-Wire Smoke Detectors (UL Listed) ...........................
88
FX-2000 Series Compatible Signalling Devices (UL Listed) ..........................................
88
FX-2000 Series Compatible Addressable Loop Devices (ULC) .....................................
89
FX-2000 Series Compatible Hardwire Smoke Detectors (ULC) ....................................
90
FX-2000 Series Compatible Synchronized Modules and Strobes .................................
91
14.0
Appendix C: Power Supply and Battery Calculations 92
15.0
Appendix D: Remote Annunciator Panels
16.0
Appendix E: DIP Switch Settings Summary
94
96
17.0
Appendix F: Alarm Verification Timing
18.0
Appendix G: Wiring For Supervised Output Module
19.0
Warranty & Warning Information
98
99
100
ii
Introduction
1.0
Introduction
1.1 About the FX-2000
Mircom's cost-effective FX-2000 Intelligent Analog Fire Alarm Control Panel (FACP) is a flexible and easy-to-use analog system. The FX-2000 base panel consists of: one intelligent analog loop controller capable of supporting 99 analog sensors and 99 addressable modules that can be wired in Class A (Style 6 or 7) or Class B (Style 4). Analog sensors and addressable modules consist of all compatibility listed devices including Advanced Protocol devices. Loop adder modules are available for additional addressable (SLC) loops. The ALC-
198S provides one additional addressable loop, and the ALC-396S provides two addressable loops each capable of supporting 99 analog sensors and 99 addressable modules. In addition, the base panel supports up to 16 conventional adder modules such as the DM-1008A Initiating
Circuit Module, SGM-1004A NAC Circuit Module, and the RM-1008A Relay Circuit Module.
The base panel also includes 4 Class A/B (Style Z/Y) NAC circuits rated at 1.7 amperes each, and either a 6- or 12-ampere power supply. The ALC-H16 adder board provides expansion for
16 additional conventional hardwire modules.
1.2 Overall Features
•
Large system capacity and modular design.
•
Each Analog Loop is capable of supporting 99 analog sensors and 99 addressable modules which can be wired as Class A (Style 6 or 7) or Class B (Style 4).
•
The base system supports 16 conventional hardwire adder modules.
•
6 or 12 Ampere Power Supply.
•
Four Class A/B (Style Z/Y) NAC Circuits rated at 1.7 Amperes each, which can be configured as Audible or Visual (silenceable or non-silenceable circuits). Audibles may be steady, Temporal Code, California Code, or March Time.
•
NAC circuits may be configured to provide additional auxiliary power or resettable auxiliary power.
•
Fault isolators are present on all in panel addressable loops.
•
Configurable Signal Silence Inhibit, Auto Signal Silence, Two-Stage Operation, One-
Man Walk Test.
•
Outputs for 4 Wire resettable Smoke Power Supply, Auxiliary Power Supply, and an interface to the Mircom RTI Remote Trouble Indicator.
•
RS-485 Interface for Remote Multiplex Annunciators.
•
Three Level Password Protection with field settable definition which enables the installer to determine what functions are accessible for each of the three levels of pass
•
Four Queues for Alarm, Supervisory, Trouble, and Monitor, with LED indicators and selector keys.
•
Auxiliary Form-C Relay Contacts for Common Alarm, Common Supervisory, and
Common Trouble.
•
RS-232 Port for remote system printer or “CRT terminal”.
•
Two Event History Logs; one for Alarm related events and one for all events.
•
Front Panel Auto-Configure and / or Personal Computer Configuration.
•
Large 4 line by 20 character alphanumeric, back-lit LCD Display with user-friendly menu system.
1
2
Introduction
•
Common controls and indicators for System Reset, Visual Indicator Test, Fire Drill,
Signal Silence, General Alarm,
•
Acknowledge, AC On, Pre-Alarm, and Ground Fault.
•
Two Spare configurable Keys and LED Indicators.
•
16 configurable LEDs (bi-coloured) with slide-in labels, available with the DSPL-420-
16TZDS display.
•
Provides drift compensation for photoelectric smoke detectors.
•
Provides Signal Coding of signal circuits for easy alarm identification (code consists of 1 to 4 digits, each digit consisting of 1-15 pulses on the signal).
•
Selection for Canadian (ULC) or USA (ULI) requirements for Smoke Sensor sensitivity.
•
Extensive transient protection.
•
Surface Mountable Enclosures with removable doors for easy installation and service.
Flush Trims available.
•
Removable Terminal Blocks for easy wiring and service.
•
Loop Adder modules ALC-198S and ALC-396S for expanding addressable loops by 1 and 2 respectively.
•
Adder module ALC-H16 hardwire loop interface board for expanding conventional input, output, relay capability.
Document Conventions
2.0
Document Conventions
2.1 Circuits and Zones
The term circuits refers to an actual electrical interface, initiating (detection), NAC (signal), or relay.
The term zone is a logical concept for a fire alarm protected area, and will consist of at least one circuit.
Often the terms zone and circuit are used interchangeably, but in this manual the term circuit is used.
On the FX-2000, circuits can be hardwired inputs and outputs or addressable inputs and outputs. Both hardwired inputs and outputs, and addressable inputs and outputs may be grouped together to form logical zones.
2.2 Wiring Styles
Initiating circuits
are configured by default as Class B (Style B). They may be globally (all or none) configured as Class A (Style D) as described in the system configurator. This operation uses odd and even pairs of two-wire Class B (Style B) circuits to make one four-wire Class A
(Style D) circuit, thus cutting in half the number of available initiating circuits.
Notification Appliance Circuits (NAC) circuits
(also known as NAC circuits) may be individually wired as Class A (Style Z) or Class B (Style Y) without affecting the number of circuits available.
Addressable Loops may be configured system wide as Class B (Style 4) or Class A (Style 6).
With the addition of isolators, a Class A (Style 6) will become a Class A (Style 7).
3
3.0
System Components
FX-2000 Chassis Types
System Components
FX-2003-6DS (pictured on the left)
FX-2003-6DS-16LED (pictured on the right)
FX-2003-12DS (pictured on the left)
FX-2017-12ADS
FX-2017S-12ADS
FX-2009-12DS
FX-2009S-12DS
4
ECX-0012 Expander Chassis
FX-2003-12XTDS
System Components
Model
FX-2003-6DS
FX-2003-6DS-
16LED
FX-2003-12DS
FX-2003-12XTDS
FX-2009-12DS
FX-2009S-12DS
FX-2017-12ADS
FX-2017S-12ADS
EXC-0012
All FX-2000 Series Panels have the following features:
•
Main Chassis with one analog loop
•
4 Style Y or Z NAC Circuits
•
4 line by 20 character back-lit LCD display
Table 1 details the specifics of each chassis type. Some models may not be available in all markets. Verify with your local distributor.
Table 1 FX-2000 Chassis Types
Amps
6
# of
Addressable loops
1
# of
NACs
4
# of
Adder
Modules
3
# of
Conventional
Adder
Modules
3
Max # of
Display
Adders
2
Mounts into
UB-1024DS
6
12
1
1
4
4
3
3
3
3
2
2
12
12
12
12
12
12
1
1
0
1
0
0
4
4
4
4
4
0
9
9
9
17
17
12
9
16
16
16
16
0
2
3
3
3
3
2
UB-1024DS
UB-1024DS
BBX-1024XT or
BBX1024XTR
BB-5008 or
BB-5014
BB-5008 or
BB-5014
BBX-1072ADS or BBX-
1072ARDS
BBX-1072ADS or BBX-
1072ARDS
BB-5008 or
BB-5014
3.1 Adder Modules
The following table describes the adder modules used with the FX-2000.
Table 2 FX-2000 Adder Modules
Models Description
ALC-198S
Single Intelligent Analog Loop Controller
Module
5
6
Table 2 FX-2000 Adder Modules
Models
ALC-396S
System Components
Description
Dual Intelligent Analog Loop Controller
Module
DM-1008A, SGM-1004A,
RM-1008A
Conventional Circuit Adder Modules,
Detection, Signal and Relay.
DSPL-420-16TZDS
Optional main display with 16 configurable bi-coloured LEDs.
This display is included in the
FX-2003-6DS-16LED chassis package.
3.2
Auxiliary Modules
The following table describes the auxiliary modules used with the FX-2000.
Table 3 FX-2000 Auxiliary Modules
Model Description
PR-300
Polarity Reversal and City Tie Module
UDACT-300A
Digital Communicator/Dialer Module
IPS-2424DS
Programmable Input Switches Module
3.3 Enclosures
The following table describes the enclosures used with the FX-2000.
Table 4 FX-2000 Enclosures
Model Description
System Components
BB-5008
Backbox 36”H x 30”W x 7”D
BB-5014
Backbox 60”H x 30”W x 7”D
7
8
System Components
Table 4 FX-2000 Enclosures
Model Description
UB-1024DS
DOX-1024DS
DOX-1024DSR
UB-1024DS Universal Backbox
26”H x 14.5”w x 4.2”D
DOX-1024DS white door for universal backbox.
DOX-1024DSR red door or universal backbox.
FX-2003-6DS-
16LED
Complete system with DSPL-420-16TZDS display and UB-1024DS backbox and
DOX-1024DSR door.
Table 4 FX-2000 Enclosures
Model Description
System Components
BBX-1024XT
BBX-1024XTR
Enclosure 35.5”H x 14.5”w x 5.25”D, white door
Enclosure 35.5”H x 14.5”w x 5.25”D, red door
BBX-1072ADS
BBX-1072ARDS
Enclosure 24.8” x 32.5” x 6.4”, white door
Enclosure 24.8” x 32.5” x 6.4”, red door
9
10
3.4
Flush Trim Ring
The following table describes the flush trim ring used with the FX-2000.
Table 5 FX-2000 Flush Trim Ring
Model Description
System Components
FA-XT-TRB
Black flush trim ring for BBX-1024XT and
BBX-1024XTR.
3.5
Remote Annunciators
The following table describes the remote annunciators used with the FX-2000.
Table 6 FX-2000 Remote Annunciators
Model
RA-1000
Series
RAM-208/216
Description
Remote multiplex annunciator panels. For Canada,
ULC-S527 Standard
requires a Common Alarm,
Common Supervisory, and a Common Ground Fault
LED indicator on the Remote Annunciators. To meet this requirement, use the FX-2000 Configurator to correlate one LED for Common Alarm, one LED for
Common Supervisory and one LED for Common
Ground Fault.
Remote multiplex annunciator panels. For Canada,
ULC-S527 Standard
requires a Common Alarm,
Common Supervisory, and a Common Ground Fault
LED indicator on the Remote Annunciators. To meet this requirement, use the FX-2000 Configurator to correlate one LED for Common Alarm, one LED for
Common Supervisory and one LED for Common
Ground Fault.
System Components
Table 6 FX-2000 Remote Annunciators
Model
Description
MGD-32,
AGD-048
Remote graphic annunciator drivers. The AGD-048 must be installed in the same enclosure as the
MGD-032.
RAX-LCD
Remote Shared Display Annunciator
3.6 Batteries
Model
Batteries
The following table describes the batteries used with the FX-2000.
Table 7 Batteries
Description
10 to 55 AH
3.7 FX-2000 Accessories
Model
MP-300/R/S
RTI-1
BC-160
Table 8 Accessories
Description
End-of-line Resistor Plate, Beige, R for red, S for stainless steel finish
Remote Trouble Indicator (ULC and ULI listed)
External Battery Cabinet (ULC and ULI listed)
11
Mechanical and Chassis Installation
4.0
Mechanical and Chassis Installation
The following chapter describes the Mechanical and Chassis installation for all FX-2000
FACPs.
4.1
Mechanical Installation Diagrams
Mechanical Installation Instructions for the following enclosures:
•
BB-5008
•
BB-5014
•
UB-1024DS and DOX-1024DS/R
•
BBX-1024XT
•
BBX-1024XTR
•
BBX-1072ADS
•
BBX-1072ARDS
4.1.1 BBX-1072ADS and BBX-1072ARDS Mechanical Installation
Material
Cold rolled steel18GA (0.048”) thick cold rolled steel
16GA (0.059”) thick for backbox
14GA (0.075”) thick for door
The BBX-1072ADS and BBX-1072ARDS are suitable for flush or surface mounting, and have a built-in trim ring.
Dimensions of Enclosure (minus built in trim ring)
Distance between horizontal mounting screws
Distance between vertical mounting screws
Complete Dimensions of Enclosures
24.8” x 6.4” x 32.5”
16”
23.6”
26.4” x 7.7” x 34”
12
Mechanical and Chassis Installation i
Figure 1 BBX-1072ADS and BBX-1072ARDS Flush or Surface Enclosure Installation and Dimensions
Note:
Leave bottom of box conduit free for batteries.
13
Mechanical and Chassis Installation
4.1.2 BB-5008 Mechanical Installation
Material
Cold rolled steel18GA (0.048”) thick cold rolled steel
16GA (0.059”) thick for backbox
14GA (0.075”) thick for door
BB-5008 Backbox
Backbox
Backbox with DOX-5008M Door
DOX-5008M Metal Door
14 i
Figure 2 BB-5008 Enclosure Installation Instructions and Dimensions
Note:
Leave bottom of box conduit free for batteries.
Mechanical and Chassis Installation
4.1.3 BB-5014 Mechanical Installation
Material
Finish
Cold rolled steel18GA (0.048”) thick cold rolled steel
16GA (0.059”) thick for backbox
14GA (0.075”) thick for door
Painted except for hinges
BB-5014 Backbox
Backbox
Backbox with DOX-5014M Door
DOX-5014M Metal Door
i
Figure 3 BB-5014 Installation Instructions and Dimensions
Note:
Leave bottom of box conduit free for batteries.
15
Mechanical and Chassis Installation
4.1.4 UB-1024DS and DOX-1024DS/R Mechanical Installation
The universal enclosure is suitable for flush or surface mounting, and have a built-in trim ring.
Dimensions of backbox (minus built in trim ring)
Distance between horizontal mounting screws
Distance between vertical mounting screws
Complete Dimensions of Enclosure with door
26” x 14.5” x 4.25”
12”
23.5”
28” x 17” x 5.6”
UB-1024DS UNIVERSAL BACKBOX AND DOX-1024DS/R DOOR
5 5/8”
12”
14 1/2”
17”
23 1/2”
26 ”
26 ”
28 ”
BACKBOX
SIDE VIEW
BACKBOX FRONT VIEW
1 3/4”
4 1/4”
1 3/8”
SIDE VIEW
6”
2”
9 1/2”
KNOCKOUT LOCATIONS
1 3/4” 2”
1 3/4”
TOP VIEW
2”
1 3/4”
DOOR
Dimensions of backbox (minus built-in trim ring)
Horizontal distance between mounting screws
Vertical distance between mounting screws
Complete dimensions of enclosure with door
Size of Knockouts
26”H x 14 1/2”W x 4 1/4” D
12”
23 1/2”
28”H x 17”W x 5 5/8”D
1”
Figure 4 UB-1024DS and DOX-1024DS/R Installation Instructions and Dimensions
16
Mechanical and Chassis Installation
4.1.5 FX-2003-12XTDS Mechanical Installation
FX-2003-12XTDS is an expanded version of the FX-2003-12DS.
Dimensions
Finish
14.76” wide by 35.8” long by 5.45”
16GA (0.059”) thick for backbox
14GA (0.075”) thick for door
Painted except for hinges
14.500
12.000
Mounting Holes
Adhere trim ring to wall surface around backbox.
Front Door
(Inside View)
17.000
FA-XT-TRB
Trim Ring for
Flush Mounting
5.25
Backbox
Figure 5 BBX-1024XT/R Backbox Enclosure with Trim Ring
Backbox
17
Mechanical and Chassis Installation
4.1.6 Surface and Flush Mounting Views of the BBX-1024XT/R
5.45” 0.7”
18
Figure 6 BBX-1024XT/R Surface and Flush Side Views
4.1.7
BBX-1024XT Flush Mounted Box with FA-XT-TRB Trim Ring
TRIM RING
WALL
WOOD OR
METAL STUD
BACKBOX
Figure 7 Cross section view of mounted BBX-1024XT/R enclosure
Mechanical and Chassis Installation
4.2 Chassis Installation
Chassis Installation Instructions for the following:
•
FX-2003-6DS
•
FX-2003-12DS
•
FX-2003-12XTDS
•
FX-2009-12DS
•
FX-2009S-12DS
•
FX-2017-12ADS
•
FX-2017S-12ADS
•
ECX-0012
For proper chassis installation do the following
1. Group the incoming wires through the top of the enclosure to prepare it for wiring the modules. Do not run the wires in-between the modules since it could cause a short circuit.
2. Use a wire tie to group wires for easy identification and neatness.
3. Be sure to connect a solid earth ground (from building system ground / to a cold water pipe) to the chassis earth ground mounting lug, and to connect the earth ground wire lugs from the main chassis to the ground screw on the backbox.
4. Mount chassis using the supplied hex nuts.
19
Mechanical and Chassis Installation
4.2.1 Mounting the Chassis into the BBX-1072ADS or BBX-1072ARDS
Enclosure
Mount chassis FX-2017-12ADS or FX-2017S-12ADS into backbox BBX-1072ADS or BBX-
1072ARDS using the supplied four #6 hex nuts (two at the top and two at the bottom) as shown below. The transformer chassis is also mounted using four hex nuts.
20
8 #8 hex nuts, 4 for inner chassis and 4 for the transformer chassis.
Figure 8 Chassis Installation into BBX-1072ADS or BBX-1072ARDS Module Mounting
Locations
Mechanical and Chassis Installation
4.2.2 Mounting the Chassis into the BB-5008 or BB-5014
The chassis is mounted using the four #6 hex nuts provided. Two across the top portion and two across the bottom of the chassis. The inner door is mounted using four hex nuts on the left side and secured with two screws on the right side.
Figure 9 Chassis Installation into backbox BB-5008 and BB-5014
21
Mechanical and Chassis Installation
4.2.3 Mounting the Chassis into the UB-1024DS and DOX-1024DS/R Enclosure
The chassis is mounted using the six #8 hex nuts provided. Three across the top and three across the bottom of the chassis. The inner door mounts over the chassis with two #8 hex nuts.
22 i
Figure 10
Chassis Installation into Universal Enclosure UB-1024DS and DOX-1024DS/R
Note:
Leave bottom of box conduit free for batteries.
Module Mounting Locations
5.0
Module Mounting Locations
The FX-2003-6DS/12DS or FX-2017-12ADS Main Chassis come pre-assembled with a main chassis, display components and boards. Install adder modules of different types as shown in the diagrams on the following pages.
PR-300 CITY TIE MODULE
FX-2000
MAIN CHASSIS
UDACT-300A
DIALER MODULE
OTHER ADDER
CIRCUIT MODULE i i
OTHER ADDER
CIRCUIT MODULE
SCREWS
PROVIDED
M/F HEX SPACER
Figure 11 Module Mounting Locations View #1
Note:
To enable communication from the main module to all of the adder modules, it is necessary to add a continuity jumper on the last adder module in a chain (see the appropriate module settings section to verify the location of the continuity jumper on a particular circuit adder module). Only the last circuit adder module should have a jumper plug on its continuity jumper; all others must be left without a jumper plug.
Notes:
Front plate is not shown. Reserved for PR-300 or UDACT-300A. Other circuit adder modules may be:
•
DM-1008A Detection Circuit Adder Module
•
SGM-1004A Signal Circuit Adder Module
•
RM-1008A Relay Circuit Adder Module
•
ALC-198S Loop Adder Module
•
ALC-396S Loop Adder Module
•
ALC-H16 Hardwire Loop Controller Module
23
24
Provision for PR-300 or UDACT-300A
Module Mounting Locations
Figure 12 Module Mounting Locations View #2
Display and Adder Modules Mounting Locations
6.0
Display and Adder Modules Mounting Locations
6.1 FX-2003-6DS/FX-2003-12DS/FX-2003-6DS-16LED Compact
Main Chassis
Mounts in the UB-1024DS backbox and supports three circuit adder modules.
Exterior View Interior View
Slot is reserved for
PR-300 or UDACT-
300A. If not required, this slot can be used to mount any of the adder modules.
3 2
FX-2000 Main Board
1
6.2 FX-2017(S)-12DS Mid-size Main Chassis
Mounts in the BBX-1072ADS or BBX-1072ARDS Enclosure, and supports three display modules and 17 adder modules.
Exterior View Interior View
12
17
11
16
10
15
9
14
8
13
3 2 1
5
7
4
6
FX-2000 Main Board
Slot is reserved for PR-300 or UDACT-
300A. If not required, this slot can be used to mount any of the adder modules.
25
26
Display and Adder Modules Mounting Locations
6.3
FX-2009(S)-12DS Large Main Chassis
Mounts and occupies four display positions in BB-5008 or BB-5014 Enclosures, and supports two display modules and nine adder modules.
Exterior View
Cutout to mount display module
Cutout to mount display module
3 2
Interior View
1
6
9
5
8
4
7
Cutout to mount display module
FX-2000 Main Board
Slot is reserved for PR-300 or UDACT-
300A. If not required, this slot can be used to mount any of the adder modules.
6.4
ECX-0012 Expander Chassis for FX-2009-12DS
Mounts and occupies two display positions in BB-5008 or BB-5014 Enclosures, and supports two display and 12 adder modules.
Cutout to mount display module
Exterior View
Cutout to mount display module
6
12
5
11
Interior View
4
10
3
9
2
8
1
7
Display and Adder Modules Mounting Locations
6.5 Mounting the Boards to the BBX-1024XT Chassis
The main board is mounted to the chassis and is shipped out this way. Mounts up to 9 adder modules and one display module such as RAX-1048TZDS Programmable 48 Zone and Trouble LED display module, IPS-2424DS Programmable Input Switches module and FDX-008 Fan Damper module.
Inside Chassis for mounting adder modules. Three modules can be mounted over the main fire alarm board and six above the main fire alarm board stacked three over three.
6
9
5
8
4
7
Main Fire Alarm Board
1
2 3
Figure 13 FX-2003-12XT in a BBX-1024XT Enclosure
Three adder modules mounted over main fire alarm board.
27
28
Display and Adder Modules Mounting Locations
6.5.1 Adder Modules
Each adder module occupies one module slot and mounts inside the following chassis:
•
FX-2003-6DS/FX-2003-12DS/FX-2003-12XT/FX-2003-12XTDS Chassis
•
FX-2017-12DS Mid-size Main Chassis and FX-2009-12DS Large Main Chassis
•
ECX-0012 Expander Chassis for FX-2009-12DS
ALC-198S
Single Intelligent
Analog Loop
Controller Module
SGM-1004A
Four NAC Circuit
Module
ALC-396S
Dual Intelligent
Analog Loop
Controller Module
RM-1008A
Eight Relay
Circuit Module
ALC-H16
Hardwire Loop
Controller Module
CONNECT RIBBON
CABLE FROM P1
TO FIRE ALARM
CONTROL PANEL
UDACT-300A
Digital Alarm
Communicator
Module
DM-1008A
Eight Initiating
Circuit Module
CITY
TIE
POLARITY
REVERSAL
POLARITY
REVERSAL
ALARM SUPV
+ | - + | - + | -
JW4
PR-300
Polarity
Reversal/ City
Tie Module
6.5.2 Display Modules
Each display module occupies one display position and mounts to the display cutouts on the following chassis:
•
FX-2003-6/FX-2003-12 Compact Main Chassis
•
FX-2003-6DS/FX-2003-6DS-16LED/FX-2003-12DS Compact Main Chassis
•
FX-2003-12XT/FX-2003-12XTDS Mid-size Main Chassis
•
FX-2017-12DS Mid-size Main Chassis
•
FX-2009-12DS Large Main Chassis
•
ECX-0012 Expander Chassis for FX-2009-12
These modules can also be mounted in the standard BB-5000 cutouts (with brackets), and the
BBX-1000 enclosures (requires RAX-LCD as a driver).
RAX-1048TZDS
Programmable Zone LED
Annunciator Module
IPS-2424DS
Programmable Input
Switches Module
RAX-1048TZDS
Programmable Zone LED
Annunciator Module
FDX-008
Fan Damper Module
OFF AUTO ON TROUBLE OFF AUTO ON TROUBLE OFF AUTO ON TROUBLE OFF AUTO ON TROUBLE
OFF AUTO ON TROUBLE OFF AUTO ON TROUBLE OFF AUTO ON TROUBLE OFF AUTO ON TROUBLE
Module Settings
7.0
Module Settings
7.1
Main Fire Alarm Modules (MD-764 Part of Main Chassis)
JW1
Remove jumper if a PR-300 or UDACT-300A is installed.
JW2 to JW4
Jumpers are factory set and should not be changed.
P3
P4
Black RS-485 Connector connects to the Adder Loop ALC-198S, ALC-396S or ALC-H16 if used (Address Loops 3, 4, etc)
Connector for PR-300 module or UDACT-300A.
P6
P5
P7
P8
P9
P10, P11
P12, P13
P14
F1
Connector for first eight conventional hardwire circuit adder modules (Loop 0).
Connector for next eight conventional hardwire circuit adder modules (Loop1).
White BDM Connector for factory use only.
Power Connector for Adder Modules.
RS-232C for printer or CRT monitor.
Factory connection to bridge rectifier.
Connection to 24VDC battery. Observe correct polarity
Connector for display module.
20 Amp slow blow non-replaceable fuse.
TO CONFIGURE THE FIRE ALARM PANEL USE THE RS-485 CONNECTOR P4 OF THE
LAST ADDER LOOP CONTROLLER MODULE INSTALLED .
P3 P4
FIELD WIRING TERMINALS
P 5
J W1
MAIN FIRE ALARM BOARD
P9
P 6
i
P14
JW3
JW2
JW4
P 7
P 8
P 10 P1 1 P12 P1 3
+ BDG- +BATF1
Figure 14 Main Fire Alarm Board
Note:
To enable communication from the Main Module to all of the Adder Modules, it is necessary to add a Continuity Jumper on the last Adder Module in a chain (see the appropriate Module Settings section to verify the location of the Continuity
Jumper on a particular Circuit Adder Module). Only the last circuit adder module should have a jumper plug on its continuity jumper; all others must be left without a jumper plug.
29
30
Module Settings
7.2 Main Fire Alarm Super Module (MD-757 Part of “S” Version
Main Chassis)
This super main board does not have any addressable loops on it. For an addressable loop, adder boards are required.
JW1
Remove jumper if a PR-300 or UDACT-300A is installed.
JW2 to JW4
Jumpers are factory set and should not be changed.
P3
P4
Black RS-485 Connector connects to the Adder Loop ALC-198S,
ALC-396S or ALC-H16 if used (Address Loops 3, 4, etc)
Connector for PR-300 module or UDACT-300A.
P7
P8
P9
P10, P11
P12, P13
P14
F1
NO HARDWIRE CIRCUIT ADDER MODULES ARE CONNECTED TO
THIS MAIN FIRE ALARM SUPER MODULE
White BDM Connector for factory use only.
Power Connector for Adder Modules.
RS-232C for printer or CRT monitor.
Factory connection to bridge rectifier.
Connection to 24VDC battery. Observe correct polarity
Connector for display module.
20 Amp slow blow non-replaceable fuse.
TO CONFIGURE THE FIRE ALARM PANEL USE THE RS-485 CONNECTOR P4 OF THE
LAST ADDER LOOP CONTROLLER MODULE INSTALLED .
P3 P4
FIELD WIRING TERMINALS
J W1
MAIN FIRE ALARM SUPER BOARD
P9
i
P14
JW3
JW2
JW4
P 7
P 10 P1 1 P12 P1 3
+BD G- +BA T-
P 8
F1
Figure 15 Main Fire Alarm Super Module (MD-757 Part of “S” Version Main Chassis)
Note:
To enable communication from the Main Module to all of the Adder Modules, it is necessary to add a Continuity Jumper on the last Adder Module in a chain (see the appropriate Module Settings section to verify the location of the Continuity
Jumper on a particular Circuit Adder Module). Only the last circuit adder module should have a jumper plug on its continuity jumper; all others must be left without a jumper plug.
7.2.1 DSPL-420 Main Display Module
P1
P2
Cable connects to P14 of main fire alarm module
Connection to P1 of any adder display module if used.
Module Settings
Figure 16 DSPL-420 Main Display Module
i
Note:
The main display module comes with slide-in paper labels including both English and French slide-ins, and laser printer-compatible blanks for zone labelling.
7.2.2 Optional DSPL-420-16TZDS Display Module
P1
P2
Cable connects to P14 of main fire alarm module
Connection to P1 of any adder display module if used.
i
Figure 17 DSPL-420-16TZDS Main Display Module with 16 Zone LEDs
Note:
The main display module comes with slide-in paper labels including both English and French slide-ins, and laser printer-compatible blanks for zone labelling.
31
7.3 RAX-1048TZDS Zone Display Module
P1
P2
Cable connects to P2 of previous display module.
Cable connects to P1 of next display module.
P2
Module Settings
P1
Figure 18 Zone Display Module (RAX-1048TZDS)
7.4 IPS-2424DS Programmable Input Switches Module
P1
P2
Cable connects to P2 of previous display module.
Cable connects to P1 of next display module.
32
P2
ZONE
BYPASS
#1
ZONE
BYPASS
#2
ZONE
BYPASS
#3
ZONE
BYPASS
#4
ZONE
BYPASS
#5
ZONE
BYPASS
#6
ZONE
BYPASS
#7
ZONE
BYPASS
#8
ZONE
BYPASS
#9
ZONE
BYPASS
#10
ZONE
BYPASS
#11
ZONE
BYPASS
#12
ZONE
BYPASS
#13
ZONE
BYPASS
#14
ZONE
BYPASS
#15
ZONE
BYPASS
#16
ZONE
BYPASS
#17
ZONE
BYPASS
#18
ZONE
BYPASS
#19
ZONE
BYPASS
#20
ZONE
BYPASS
#21
ZONE
BYPASS
#22
ZONE
BYPASS
#23
ZONE
BYPASS
#24
P1
i
Figure 19 IPS-2424DS Programmable Input Switches Module.
Note:
The zone display modules comes with laser printer-compatible slide-in paper labels for zone labelling.
Module Settings
7.5
Fan Damper Control Display Module (FDX-008/KI)
There are two models of the Fan Damper Control Display modules available. The FDX-008 provides switch control and LED indication of 8 fan damper zones. The FDX-008KI 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-008KI. Both the FDX-008 and the
FDX-008KI are used in conjunction with a FX-2000 Fire Alarm Control Panel.
P2
OFF AUTO O N T
OFF AUTO ON TROUBLE
AUTO O N T ROUBLEOFF
AUTO O N T ROUBLE
OFF AUTO O N T ROUBLE OFF AUTO O N T ROUBLEOFF
AUTO O N T ROUBLE OFF AUTO O N T ROUBLE
P1
Figure 20 Fan Damper Control Display Module (FDX-008/KI)
7.5.1 Fan Damper Operation
The FDX-008 Fan Damper Control Display module has eight configurable output circuits, each with a three position switch. The FDX-008KI operates in the same manner as the FDX-008 except zone 8 is controlled by a remote keyswitch. Each switch has an ON and OFF position, plus an AUTO position. If the switch is placed in the AUTO position, the output will activate as programmed or configured. The output can be manually turned ON or OFF by placing the switch in the ON or OFF position, respectively.
Basically each switch can be configured to operate multiple fans or dampers. For each switch, there are 3 operations provided; outputs to turn ON, same outputs to turn OFF and inputs to bypass.
An example of the most common use of the FDX-008 or FDX-008KI Fan Damper Control
Display module is to operate exhaust fans and confirm fan operation (via monitor modules).
See FDX-008 Block Diagram on the next page for a block diagram of fan and monitor set up.
7.5.2 Example
As shown in the figure to the right, Parking Garage #1 has 3 exhaust fans. The three position switch is configured to operate
(to turn ON) fans 1, 2 and 3 in stairwell #1. The switch is set in the
AUTO position. Upon activation (via alarm or some other programmed trigger) with the switch in AUTO, the 3 fans (1,2, and
3) in stairwell #1 are turned ON automatically. Monitor modules in the Parking Garage #1 detect that all 3 fans are operating,
PARKING GARAGE #1,
FANS 1, 2 , 3
OFF AUTO ON TROUBLE
33
34
Module Settings therefore the ON LED will illuminate steadily. If one of the fans did not turn ON (due to malfunction), the ON LED will flash. The TRBL (trouble) LED will illuminate steady amber based on feedback from the monitor module that one or more of the fans is not working.
ON LED shows steady for all outputs operating and confirmed.
OFF LED shows steady for all outputs NOT operating and confirmed.
TRBL LED shows steady for one or more outputs NOT operating and confirmed.
OUTPUT MODULES
FX-2000 FIRE
ALARM PANEL
FANS
OFF AUTO ON TROUBLE
FDX-008/KI FAN/DAMPER CONTROL MODULE
MONITOR MODULES i i
Figure 21 FDX-008 Block Diagram of Fan and Monitor Setup
Note:
A bypass function always has priority, so that if a circuit is bypassed by moving the switch manually or by loop bypass (FX-2000 Fire Alarm Panel), no other action will operate this switch other then again moving the switch manually or by un-bypassing the loop.
Before mounting the FDX-008KI module, if a keyswitch is to be connected, wire the keyswitch to terminals at TS1 as shown in Figure 22 on page 35.
Note:
There are also terminals located behind TS1 on the other side of the board for the convenience of wiring the keyswitch. The last fan damper zone in the bottom right position of the FDX-008KI is controlled by the keyswitch.
Module Settings
Mount the FDX-008 and FDX-008KI Fan Damper Control Display modules in any position on the front part of the FX-2000 chassis.
TERMINALS AT TS1 ARE WIRED TO A KEYSWITCH.
NOTE: IF FAN DAMPER MODULE IS MOUNTED TO
THE DOOR USE TERMINALS LOCATED AT THE
BACK OF THIS BOARD, BEHIND TS1.
TS1
P2
OFF AUTO ON TROUBLE OFF AUTO ON TROUBLE
OFF AUTO ON TROUBLE
OFF AUTO ON TROUBLE
OFF AUTO ON TROUBLE
OFF AUTO ON TROUBLE
KEYSWITCH
CONTROLLED
OFF AUTO ON TROUBLE
P1
CONNECTS TO
PREVIOUS DISPLAY
MODULE P2
Figure 22 FDX-008KI Fan Damper Control Display Module
35
36
Module Settings
7.6
DM-1008A Hardwire Detection Adder Module
JW1
JW2
JW3
JW4
JW5
Install jumper for Class A (Style D) operation of initiating circuits 1 and 2.
Install jumper for Class A (Style D) operation of initiating circuits 3 and 4.
Install jumper for Class A (Style D) operation of initiating circuits 5 and 6.
Install jumper for Class A (Style D) operation of initiating circuits 7 and 8.
Remove continuity jumper if there are any more adder modules installed
.
JW4
JW3
P2 P4
Data cable to P6 or P5 of main fire alarm module or to
P12 or P13 of hardwire loop controller module, or previous adder module
Power connector to P8 of main fire alarm module, or to P2 of hardwire loop controller module, or to previous adder module
JW2
JW1
JW5
Data connector for next adder module
Power connector for next adder module
P1
P3
i
Figure 23 Hardwire Detection Adder Module (DM-1008A)
Note:
For Class A (Style D) operation the FX-2000 must be configured as Class A via the configuration program.
Module Settings
7.7 SGM-1004A Hardwire NAC Signal Adder Module
JW1
JW2
JW3
JW4
JW5
JW11
Remove continuity jumper if this is not the last adder module installed.
Jumper pins for bell cut or isolators on Zone 1.
Jumper pins for bell cut or isolators on Zone 2.
Jumper pins for bell cut or isolators on Zone 3.
Jumper pins for bell cut or isolators on Zone 4.
For basic operation do not wire these terminals.
J11
P2 P4
ZONE 4
1 2 3
JW5
ZONE 3
JW4
JW3
ZONE 2
ZONE 1
Data cable to P6 or P5 of main fire alarm module or to previous adder module
Power connector to P8 of main fire alarm module, or to previous adder module
Data connector for next adder module
JW1
P1
Power connector for next adder module
P3
GREEN SIGNAL LEDs
Figure 24 Hardwire NAC Signal Adder Module (SGM-1004A)
i
7.7.1 SGM-1004A Components
There are four green LEDs on the board, one for each signal zone. The LED will illuminate or flash following the NAC signal rate sent to its zone. It will be off when the system is normal and they will illuminate when a NAC signal zone is activated. The LED does not reflect what is happening on the NAC signal zone, just that it is receiving data to activate that NAC signal zone.
Note:
Jumpers JW2, JW3, JW4 and JW5 are positioned on pins 2 and 3 (right two pins with board orientation as shown above) from factory.
37
38
Module Settings
7.7.2 SGM-1004A Operation
There are three modes of operation for this module. The basic mode of operation does not involve any bell cut relay or isolators connected to the signal zones. For this case, leave jumpers JW2, JW3, JW4 and JW5 as they come on pins 2 and 3, and do not make any connection to terminal block J11. The second mode provides bell cut operation which allows the silencing of the bells. The third mode is used when isolators are to be connected to the signal circuits. For further information on bell cut relays or isolators, please refer to the specific fire alarm panel manual or the isolator instruction manual.
7.7.3 SGM-1004A Jumpers for the Bell Cut Mode
!
JW2
JW3
JW4
JW5
JW11
Place jumper over pins 1 and 2 for the ability to remotely silence the bells on
Zone 1.
Place jumper over pins 1 and 2 for the ability to remotely silence the bells on
Zone 2.
Place jumper over pins 1 and 2 for the ability to remotely silence the bells on
Zone 3.
Place jumper over pins 1 and 2 for the ability to remotely silence the bells on
Zone 4.
Wire these terminals to a bell cut relay (for details see QRM-1001 Bell Cut
Module Installation and Operating Instructions, LT-666).
!
Attention:
Discard jumpers on zones that are not configured for bell cut.
7.7.4 SGM-1004A Jumpers for the Isolator Mode
JW2
JW3
JW4
JW5
JW11
Place jumper over pins 2 and 3 for the ability to connect an isolator on Zone 1.
Place jumper over pins 2 and 3 for the ability to connect an isolator on Zone 2.
Place jumper over pins 2 and 3 for the ability to connect an isolator on Zone 3.
Place jumper over pins 2 and 3 for the ability to connect an isolator on Zone 4
Wire these terminals to an alarm relay. These may be tapped if more signal modules are used in this manner.
Attention:
Discard jumpers on zones that are not configured for isolators.
Module Settings
7.8 RM-1008A Hardwire Relay Adder Module
P2
P1
P4
Data cable to P6 or P5 of main fire alarm module, or to P12 or P13 of Hardwire loop controller module, or to previous adder module.
Data connector for next adder module.
Power connector to P8 of main fire alarm module, or to P2 of Hardwire loop controller or to previous adder module.
Power connector for next adder module.
P3
JW1
Remove continuity jumper if there are any more adder modules installed. If this is the last module installed, leave JW1 on.
JP1-JP8
Move jumpers from pins 1 and 2 to 2 and 3 to connect relay commons between two or more relays.
.
P4
P2
3 2 1
I4
JP4
3 2 1
I3
JP3
3 2 1
I2
JP2
3 2 1
I1
JP1
JW1
P1
3 2 1
I8
JP8
3 2 1
I7
JP7
3 2 1
I6
JP6
3 2 1
I5
JP5
P3
Figure 25 Hardwire Relay Adder Module (RM-1008A)
39
40
Module Settings
7.9
Polarity Reversal and City Tie Module (Model PR-300)
Mounting hole for
#6-32 screws
P1 P2
Mounting hole for
#6-32 screws i
Figure 26 Polarity reversal and city tie module
The following hardware configuration must be performed before installing the PR-300.
P1
P2
JW4
Cable connects to P5 on the FX-2000 Main Fire Alarm Board
P2 is for connecting the UDACT-300A if both PR-300 and UDACT-300A are installed on the FX-2000.
If the PR-300 is used this is the last module jumper. JW1 on the main board should be removed and JW4 on the PR-300 should be set. If both PR-300 and UDACT-300A are installed, then JW1 on the main board and JW4 on the PR-300 should be removed.
Table 9 PR-300 jumper settings
The Alarm Transmit signal to the PR-300 can be programmed to turn OFF when signal silence is active. This allows the City Tie Box to be manually reset. On subsequent alarms the silenceable signals will resound and the City Tie Box will be retriggered. Please refer to the
Configurator for more information.
The Trouble Transmit signal to the PR-300 can be programmed to delay AC power fail. Please refer to the Configurator for more information.
Note:
Jumper JW1 on the FX-2000 main fire alarm board must be removed if a city tie module is installed.
Module Settings
7.10 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 the UDACT-300A. Refer to Figure 22 below for location of jumpers, cable connections, pushbutton and LEDs. Table 2 following, provides a description of the user items on the UDACT-300A.
SYSTEM NORMAL
13:21 MON 2015-08-03
CONNECT RIBBON
CABLE FROM P1
TO MIRCOM FIRE
ALARM CONTROL
PANEL
Figure 27 UDACT-300A Board Layout
Table 10 UDACT-300A Cable Connectors and Miscellaneous
Cable Connector Function
P1
P2
UR1 Potentiometer
Ribbon Cable for connecting to P4 of FX-2000 FACP main board.
RS-232C/RS-485 Connection for computer configuration.
U18
Connector for CFG-300 Configuration Tool
Visual Indicator Test button
Connector for CFG-300 Configuration Tool
This potentiometer is for adjustment of the CFG-300 LCD contrast.
41
42
Module Settings
The following table lists all the LEDs located on the UDACT-300A board and states the function of each LED.
Table 11 UDACT-300A List of LEDs and their Functions
Cable Connector Function
Relay Line 1
Relay Line 2
RS-485
Common Trouble
CPU Fail
Telephone Line 1
Telephone Line 2
Power ON
Located below Line 1 terminal block. When Line 1 relay is energized, this green
LED will illuminate
Located below Line 2 terminal block. When Line 2 relay is energized, this green
LED will illuminate.
Status LED for communication, will flash when RS-485 communication is active.
Steady amber for any troubles on the Fire Alarm panel or UDACT-300A.
Steady amber for any on board CPU trouble.
Telephone status indicator LED; Red when the line is in use, Amber when there is a line trouble.
Telephone status indicator LED; Red when the line is in use, Amber when there is a line trouble.
Green LED is ON steady when power is supplied to the board.
The following table lists the user jumpers available on the UDACT-300A and their functions.
i
Cable
Connector
JW1
The following table lists the user jumpers available on the UDACT-300A and their functions..
Table 12 UDACT-300A List of Jumpers for Operation and Configuration
Function
JW2
Normally open. Place jumper here and power down the UDACT-300A by disconnecting
P1 or power down the fire alarm panel (AC and Batteries), then power back to revert to default passcode. After reset, remove the jumper. Leave normally open.
Normally open to BLOCK remote configuration via modem, PC with a UIMA converter module or using the LCD and keypad at the UDACT-300A. Place jumper here to
ALLOW any type of configuration. Remove jumper once configuration is complete.
Note:
Can be installed with the PR-300 City Tie but not in the same location. If using this configuration the PR-300 must be installed on the left and it is recommended that the UDACT-300A be installed in the middle, although it can be installed on the right if needed.
See the UDACT-300A Installation and Operation Manual (LT-888) for more information.
Module Settings
7.11 ALC-198S Single Intelligent Analog Loop Controller Module
The ALC-198S Single Intelligent Analog Loop Controller module provides a single addressable loop. It may be mounted over the main chassis of the FX-2000 Fire Alarm Panel or on any chassis which supports adder boards. Refer to Module Mounting Locations View
#2 on page 24
. The module is mounted using four #6 screws and (if necessary) four 1 1/2" spacers.
Power
The power is supplied to the board via cable from the main chassis board or from the previous loop controller module into the P1 Power IN connector.
The P2 Power OUT connector is connected to the next loop controller module or other adder module. Two power cables are supplied with the module.
RS-485
The RS-485 cable comes attached at P3 and is connected to the main chassis board or from the previous loop controller module or other adder board. The RS-485 OUT at P4 is connected to the next loop controller module if used or left without connection.
DIP switches
The dip switches are used to set the address of the board. The address is binary, with the SW-1 switch as the lowest significant digit and OFF being active. For example an address of two is SW-1 ON, SW-2 OFF, and all the other dip switches SW-3 to SW-8 ON. Refer to Appendix E: DIP Switch
Settings Summary on page 96
for more information.
Loop 1
Jumpers
BDM Port
This is the addressable loop for all initiating devices. Wire the loop as shown in Field Wiring on page 49.
A jumper is provided at JW2 for normal operation. To reset the board the jumper is left at JW2 and the pins at position JW1 are shorted momentarily.
This connection is for factory use only.
43
44
RS-485
P4
OUT
LOOP A
+ - + -
B
A
SHIELD
IN
P3
RS-485
CABLE
Module Settings
1
ADDRESS
DIP
SWITCH
8
DIP SWITCHES ARE FOR
THIS BOARD=S ADDRESS.
SW-1 IS THE LEAST
SIGNIFICANT DIGIT (BINARY).
ACTIVE POSITION IS OFF.
P5
BDM
PORT
P1
P2
POWER
CABLE
(OUT)
POWER
CABLE
(IN)
JW2 - A
JUMPER IS
PLACED HERE
TO ENABLE
WATCHDOG
TIMER. THIS
IS JUMPER=S
NORMAL
LOCATION.
JW1 - JUMPER IS
PLACED HERE TO
RESET HARDWARE
JW3 - JUMPER
FROM JW2 IS
PLACED HERE TO
BYPASS
WATCHDOG FOR
FACTORY
DOWNLOADING
USING BDM
Figure 28 ALC-198S Single Intelligent Analog Loop Controller Module
Mount the ALC-198S Single Intelligent Analog Loop Controller module as described in the section Display and Adder Modules Mounting Locations on page 25. The module may be mounted over the main chassis board or in any position that an adder module is mounted.
Module Settings
7.12 ALC-396S Dual Intelligent Analog Loop Controller Module
The ALC-396S Dual Intelligent Analog Loop Controller module provides a two addressable loops. It may be mounted over the main chassis of the FX-2000 Fire Alarm Panel or on any chassis that supports adder boards. Refer to page Module Mounting Locations View #2 on
page 24
for mounting applications. The module is mounted using four #6 screws and (if necessary) four 1 1/2" spacers.
Power
The power is supplied to the board via cable from the main chassis board or from the previous loop controller module into the P1 power in connector.
Connect the P2 power out connector to the next loop controller module or other adder module. Two power cables are supplied with the module.
RS-485
The RS-485 cable comes attached at P3 and is either connected to the main chassis board or connected from the previous loop controller module or other adder board. If the next loop controller module is used, connect the
RS-485 out at P4 to the next loop controller module; if it is not used, leave without connection.
DIP switches
Use the DIP switches to set the binary address of the board. SW-1 is the lowest significant digit and OFF is active. For example, an address of two would be created by turning SW-1 on, SW-2 off and DIP switches SW-3 to
SW-8 on. Refer to Appendix E: DIP Switch Settings Summary on page 96 for DIP switch settings.
Loop 1
Loop 2
Jumpers
BDM Port
This is the addressable loop for all initiating devices. Wire the loop as shown in Single Loop Terminal Connections - Class B on page 54 or Single
Loop Terminal Connections - Style 7 on page 55
and Single Loop Terminal
Connections - Style 6 on page 56.
This is the addressable loop for all initiating devices. Wire the loop as shown in Single Loop Terminal Connections - Class B on page 54 or Single
Loop Terminal Connections - Style 7 on page 55
and Single Loop Terminal
Connections - Style 6 on page 56.
A jumper is provided at JW2 for normal operation. To reset the board, leave the jumper at JW2 and momentarily short the pins at position JW1.
This connection is for factory use only.
45
RS-485
P4
LOOP A
LOOP B
+ - + -
B
A
SHIELD
+ - + -
B
A
P3
RS-485
CABLE
Module Settings
46
1
ADDRESS
DIP
SWITCH
8
DIP SWITCHES ARE FOR
THIS BOARD=S ADDRESS.
SW-1 IS THE LEAST
SIGNIFICANT DIGIT (BINARY).
ACTIVE POSITION IS OFF.
P5
BDM
PORT
P2
P1
POWER
CABLE
POWER
CABLE i
JW2 - THE
JUMPER IS
KEPT HERE
FOR
NORMAL
OPERATION JW1 - PINS ARE
SHORTED
MOMENTARILY TO
RESET
HARDWARE
JW3 - JUMPER
FROM JW2 IS
PLACED HERE TO
BYPASS
WATCHDOG FOR
FACTORY
DOWNLOADING
USING BDM
Figure 29 ALC-396S Dual Intelligent Analog Loop Controller Module
Mount the ALC-396S Dual Intelligent Analog Loop Controller module as shown in Module
Mounting Locations View #2 on page 24
. The module may be mounted over the main chassis board or in any position that an adder module is mounted.
Note:
There are two addressable loops present on this board (ALC-396S) that are wired in the same manner as shown in the wiring diagrams beginning with Main
Fire Alarm Module Terminal Connections on page 49
. Although these drawings show only Loop 1, Loop 2 is wired in the same way as Loop 1 is. Note that Loop
1 and Loop 2 do not have to be wired in the same class, such as Class A or
Class B or Style 7. Therefore Loop 1 may be wired as Class A and Loop 2 may be wired as Class B.
Module Settings
7.13 ALC-H16 Hardwire Loop Controller Module
The ALC-H16 Hardwire Loop Controller module provides an interface in order to add 16 conventional adder boards. This board may be mounted over the main chassis of the FX-2000
Fire Alarm Panel or on any chassis which supports adder boards. Refer to page Module Mounting
Locations View #2 on page 24
for mounting applications. Mount the module using four #6 screws and (if necessary) four 1 1/2" spacers.
Power
RS-485
Jumpers
BDM Port
P13 and P12
Connectors
The power is supplied to the board via cable from the main chassis board or from the previous loop controller module into the P1 power in connector.
Connect the P2 power out connector to the next loop controller module or other adder module. Two power cables are supplied with the module.
The RS-485 cable comes attached at P3 and is either connected to the main chassis board or connected from the previous loop controller module or other adder board. If the next loop controller module is used, connect the
RS-485 out at P4 to the next loop controller module; if it is not used, leave without connection.
A jumper is provided at JW2 for normal operation. To reset the board, leave the jumper at JW2 and momentarily short the pins at position JW1.
This connection is for factory use only.
Connect the P13 connector (via ribbon cable included with this module) to the first module of the first group of eight conventional adder modules.
Connect the P12 connector (via ribbon cable included with this module) to the first module of the second group of eight conventional adder modules
47
.
RS-485
P12 IS USED TO CONNECT SECOND GROUP OF 8 ADDER MODULES
P13 IS USED TO CONNECT FIRST GROUP OF 8 ADDER MODULES
P12
P13
P4
P3
RS-485
CABLE
Module Settings
48
ADDRESS
DIP
SWITCH
1
ON
DIP SWITCHES ARE FOR
THIS BOARD=S ADDRESS.
SW-1 IS THE LEAST
SIGNIFICANT DIGIT (BINARY).
ACTIVE POSITION IS OFF.
8
P2
JW3 - JUMPER
FROM JW2 IS
PLACED HERE TO
BYPASS
WATCHDOG FOR
FACTORY
DOWNLOADING
USING BDM
POWER
CABLE
(OUT)
POWER
CABLE
(IN)
P1
JW3
JW1
JW2
BDM PORT
JW1 - PINS ARE
SHORTED
MOMENTARILY TO
RESET
HARDWARE
JW2 - THE
JUMPER IS
KEPT HERE
FOR
NORMAL
OPERATION
Figure 30 ALC-H16 Hardwire Loop Controller Module
Mount the ALC-H16 Hardwire Loop Controller module as shown on Module Mounting
Locations View #2 on page 24
and ECX-0012 Expander Chassis for FX-2009-12DS on
page 26
. The module may be mounted over the main chassis board or in any position that an adder module is mounted.
There is no wiring at the ALC-H16 Hardwire Loop Controller module, but there is wiring at the
16 standard conventional adder modules. For conventional hardwire circuit wiring refer to
Hardwire Detection Module (DM-1008A) Terminal Connections on page 57, Hardwire Signal
Module Terminal Connections on page 58, and Hardwire Relay Module Terminal
Connections on page 59
for the specific module you are wiring.
Field Wiring
8.0
Field Wiring
8.1
Main Fire Alarm Module Terminal Connections
Wire devices to terminals as shown in Figure 31 below. See Wiring Tables and Information on page 63. See Appendix A: Specifications on page 79 and Appendix B: Compatible Devices on
page 85
for compatible devices..
!
Attention: Do not exceed power supply ratings:
Main Chassis FX-2003-6DS and FX-2003-6DS-16LED total current for NAC circuits is 5A max.
Main Chassis FX-2003-12DS, FX-2003-12XTDS, FX-2017-12ADS or FX-
2017S-12ADS total current for NAC circuits is 10A max.
Main Chassis FX-2009-12DS and FX-2009S-12DS: total current for NAC circuits is 10A max.
i
Notes:
The terminal blocks are "depluggable" for ease of wiring.
All power limited circuits must use type FPL, FPLR, or FPLP power limited cable.
8.1.1 Main Fire Alarm Module Terminal Connections.
RS485
+
-
S
TROUBLE
ALARM
SUPV.
NO
NC
COM
NO
NC
SIG GND or COM(-)
S
COM
NO
NC
COM
RS-485 INTERFACE TO
ANNUNCIATORS AND
OTHER DEVICES
(POWER LIMITED)
USE TWISTED SHIELDED PAIR.
22 AWG UP TO 2000 FT.
20 AWG UP TO 4000 FT.
COMMON TROUBLE
CONTACTS
28 VDC, 1 AMP
RESISTIVE LOAD
AUXILIARY COMMON
ALARM CONTACTS
28 VDC, 1 AMP
RESISTIVE LOAD
MUST BE
CONNECTED TO A
LISTED POWER
LIMITED SOURCE
OF SUPPLY
AUXILIARY COMMON
SUPERVISORY
CONTACTS
28 VDC, 1 AMP
RESISTIVE LOAD
NOT USED
Figure 31 Main Fire Alarm Module Terminal Connections
49
50
Field Wiring i i
ANALOG
LOOP 2
CONNECTIONS
(LOOP 0 AND
LOOP1 ARE
INTERNAL
ADDRESSES
FOR FIRST 8
CARDS AND
SECOND 8
CARDS
RESPECTIVELY
4-WIRE
POWER
SUPPLY
A
B
+
-
+
-
+
-
AUX.
POWER
+
-
RTI
INTERFACE
TRB
TRL
ANALOG LOOP FIELD WIRING
(CLASS A OR B)
SEE ANALOG LOOP WIRING SECTION
RED & WHT
AUXILIARY POWER
FOR REMOTE ANNUNCIATORS
24 VDC UNFILTERED
1.7 AMPS MAXIMUM
BLK
BLU
RTI
CONNECTION TO MIRCOM RTI
REMOTE TROUBLE INDICATOR
(SEE RTI INSTALLATION
INSTRUCTION) BLK TOTRB+ BLU
TO TRL-RED & WHT TO AUX.
POWER COM+
TO
INITIATING
CIRCUIT
+
-
+
-
+
4-WIRE
DETECTION
DEVICE
+
-
DETECTION
-
3
END OF LINE RELAY
LISTED S3403
MODEL A77-716B
MANUFACTURED BY
SYSTEM SENSOR
2
4 1
POWER
+
-
6 5
SUPERVISED INDICATING CIRCUIT #1
STYLE Y
(CLASS B)
WIRING
IND1+ (Y/Z)
+
NAC
INDICATION
CIRCUIT 1
(POWER
LIMITED)
IND1+ (Z)
IND1- (Z)
+
-
IND1- (Y/Z)
-
IND2+ (Y/Z)
+
NAC
INDICATION
CIRCUIT 2
(POWER
LIMITED)
IND2+ (Z)
IND2- (Z)
+
-
IND2- (Y/Z)
-
SUPERVISED INDICATING CIRCUIT #2
STYLE Z
(CLASS A)
WIRING
INDICATING CIRCUITS 3 & 4
ARE NOT SHOWN
Legend: See Appendix A for compatible devices.
BELL, HORN, OR
STROBE
3.9K 1/2W ELR LISTED S5434
MODEL MP-300 MANUFACTURED
BY MIRCOM
Figure 32 Main Fire Alarm Module Terminal Connections (continued)
Notes:
The terminal blocks are "depluggable" for ease of wiring.
All power limited circuits must use type FPL, FPLR, or FPLP power limited cable.
Notes:
All power limited circuits must use type FPL, FPLR, or FPLP power limited cable.
Indicating (NAC) circuits are fully supervised and rated for 24 VDC unfiltered
1.7A max. Use wire size as stated in Table 15 NAC Circuit Wiring Table on
page 63
.
8.2
Analog Loop Wiring
8.2.1 Loop Terminal Connections - Class B
S
S
S
F
TWO WIRES
M
Conventional Heat Sensors and Manual Pull Stations
Field Wiring
SO
2 Pair
M
F
C s
H
C s
C s
TWO WIRES
C s
H
H
S
F
FX-2000
MAIN FIRE ALARM BOARD
ANALOG
LOOP
CONNECTIONS
COM(-)
4-WIRE
RESETTABLE
SUPPLY
A
B
+
-
+
-
+
-
NAC
INDICATING
CIRCUITS
IND1 + (Y/Z)
IND1 + (Z)
IND1 - (Z)
IND1 - (Y/Z)
LEGEND
S
Addressable Smoke Detector with Standard Analog Base
H
Addressable Thermal Sensor with Standard Analog Base
C s
Conventional Smoke Sensor
F
Addressable Manual
Pull Station
SO
Addressable Supvr.
Output Module
End-Of-Line-Resistor
Combination
Horn/Strobe
M
Addressable
Monitor Module i
Figure 33 Loop Terminal Connections - Class B
Notes:
Terminal blocks are “depluggable” for ease of wiring.
All power limited circuits must use type FPL, FPLR, or FPLP power limited cable.
Loop wiring: maximum loop resistance is 40 ohms total. These lines are fully supervised.
Observe in and out polarity when using module and base isolators.
51
Field Wiring
8.2.2 Loop Terminal Connections - Style 7
I
F
I
S
I
ADDRESSABLE
SMOKE DETECTOR
WITH ISOLATOR BASE
TWO WIRES
I
F
I
FX-2000
MAIN FIRE ALARM BOARD
COM(-)
ANALOG
LOOP
CONNECTIONS
A
B
+
-
+
-
4-WIRE
RESETTABLE
SUPPLY
+
-
AUXILIARY
POWER
SUPPLY
+
-
TWO WIRES
I
M
Conventional Heat Sensors and Manual Pull Stations
I
TWO WIRES
I
H
ADDRESSABLE
THERMAL
SENSOR
WITH
ISOLATOR
BASE
C s
STYLE 7: For Style 7 operation use isolator bases for the detectors and use isolator modules
(front and back as shown in this diagram) for the addressable pull stations, monitor modules, and control modules
LEGEND
S
Addressable Smoke Detector with Isolator Base
H
Addressable Thermal Sensor with Isolator Base
Conventional Smoke Sensor
C s
Addressable Manual Pull Station
F
Fault Isolator Module
I
Addressable Monitor Module
M
52 i
Figure 34 Loop Terminal Connections - Style 7
Notes:
All power limited circuits must use type FPL, FPLR, or FPLP power limited cable.
Isolators need to be close nipple connected to the device being protected.
Loop wiring: maximum loop resistance is 40 ohms total. These lines are fully supervised.
Field Wiring
8.2.3 Loop Terminal Connections - Style 6 (Formerly Class A)
M
F
H
ADDRESSABLE
THERMAL SENSOR
F
TWO WIRES
M
Conventional 4-Wire Smoke
Detectors, Heat Sensors and Manual Pull Stations
TWO WIRES
S S
ADDRESSABLE
SMOKE DETECTORS
RO
FX-2000
MAIN FIRE ALARM BOARD
COM(-)
ANALOG
LOOP
CONNECTIONS
4-WIRE
RESETTABLE
SUPPLY
AUXILIARY
POWER
SUPPLY
A
B
+
-
+
-
+
-
+
-
S
LEGEND
Addressable Smoke Detector
H
F
Addressable Thermal Sensor
Addressable Manual Pull Station
M
Addressable Monitor Module
RO
Addressable
Relay Output Module
Figure 35 Loop Terminal Connections - Style 6 (Formerly Class A)
53
54
Field Wiring
8.2.4 Single Loop Terminal Connections - Class B
S S
TWO WIRES
F
TWO WIRES
M
Conventional Heat Sensors and Manual Pull Stations
ALC-198S SINGLE
LOOP MODULE
ANALOG
LOOP A A
B
+
-
+
-
SHIELD
FX-2000
MAIN FIRE ALARM BOARD
4-WIRE
RESETTABLE
SUPPLY
IND1 + (Y/Z)
IND1 + (Z)
IND1 - (Z)
IND1 - (Y/Z)
+
-
SO
M
F
2 Pair
C s
H
C s
C s
TWO WIRES
C s
H H
S
F
LEGEND
S
Addressable Smoke Sensor with Standard Analog Base
H
Addressable Thermal Sensor with Standard Analog Base
C s
F
Conventional Smoke
Sensor
Addressable Manual
Pull Station
M
SO
Combination
Horn/Strobe
Addressable
Monitor Module
Addressable Supvr.
Output Module
End-Of-Line-Resistor i
Figure 36 Single Loop Terminal Connections - Class B
Notes:
All power limited circuits must use type FPL, FPLR, or FPLP power limited cable.
Loop wiring: maximum loop resistance is 40 ohms total. These lines are fully supervised.
Field Wiring
8.2.5 Single Loop Terminal Connections - Style 7
I
F
I
TWO WIRES
S
ADDRESSABLE
SMOKE DETECTOR
WITH ISOLATOR
BASE
I
TWO WIRES
I
F
I
ALC-198S SINGLE
LOOP MODULE
ANALOG
LOOP A
A
B
+
-
+
-
I
TWO WIRES
M
Conventional Heat Sensors and Manual Pull Stations
I
TWO WIRES
I
H
ADDRESSABLE
THERMAL SENSOR
WITH ISOLATOR
BASE
STYLE 7: For Style 7 operation use isolator bases for the detectors and use isolator modules
(front and back as shown in this diagram) for the addressable pull stations, monitor modules, and control modules
C s
I
S
LEGEND
Addressable Smoke
Sensor with Isolator Base
H
Addressable Thermal
Sensor with Isolator Base
C s
Conventional Smoke Sensor
Addressable Manual Pull Station
F
M
Addressable Monitor Module
Fault Isolator Module i
Figure 37 Single Loop Terminal Connections - Style 7
Notes:
All power limited circuits must use type FPL, FPLR, or FPLP power limited cable.
Isolators need to be close nipple connected to the device being protected.
Loop wiring: maximum loop resistance is 40 ohms total. These lines are fully supervised.
55
56
Field Wiring
8.2.6 Single Loop Terminal Connections - Style 6
M
F
H
ADDRESSABLE
THERMAL SENSOR
F
TWO WIRES
RO
ALC-198S SINGLE
LOOP MODULE
ANALOG
LOOP A
A
B
+
-
+
-
M
Conventional 4-Wire Smoke
Detectors, Heat Sensors and Manual Pull Stations
S
ADDRESSABLE
SMOKE DETECTORS
S
S
LEGEND
Addressable Smoke Sensor
H
F
Addressable Thermal Sensor
Addressable Manual Pull Station
M
Addressable Monitor Module
RO
Addressable Relay Output Module i
Figure 38 Single Loop Terminal Connections - Style 6
Notes:
All power limited circuits must use type FPL, FPLR, or FPLP power limited cable.
Loop wiring: maximum loop resistance is 40 ohms total. These lines are fully supervised.
Field Wiring
8.2.7 Detection Module (DM-1008A) Terminal Connections
Wire devices to terminals as shown in Figure 39. For further wiring information 8.8 Wiring
Tables and Information. For specifications 12.0 Appendix A: Specifications. For compatible devices 13.0 Appendix B: Compatible Devices. Jumpers are required for Class A operation.
STYLE B/D
INI1
STYLE B/D
INI2
STYLE B/D
INI3
STYLE B/D
INI4
INI1+
INI1-
INI2+
INI2-
INI3+
INI3-
INI4+
INI4-
INI5+
INI5-
INI6+
INI6-
INI7+
INI7-
INI8+
INI8-
SUPERVISED INITIATING CIRCUIT #1
(ALARM ZONE) (POWER LIMITED)
SUPERVISED INITIATING CIRCUIT #2
(SUPERVISORY OR WATERFLOW ZONE)
(POWER LIMITED)
SUPERVISED INITIATING CIRCUIT #3
(ALARM ZONE) SEE STYLE D NOTE (POWER LIMITED)
Style D Note:
Initiating circuits in a series
FX-2000 must be either all Style B (Class B) or Style D (Class A). If Style D is selected, the number of circuits is cut in half.
Legend:
See Appendix B for compatible devices.
SMOKE DETECTOR
HEAT DETECTOR
SUPERVISORY OR
WATERFLOW
SWITCH (NO)
3.9K 1/2W ELR LISTED S5434
MODEL MP-300
MANUFACTURED BY MIRCOM
PULL STATION
STYLE B
(CLASS B)
WIRING
STYLE B
(CLASS B)
WIRING
STYLE D
(CLASS A)
WIRING i
Figure 39 Hardwire Detection Module (DM-1008A) Terminal Connections
Notes:
Terminal blocks are “depluggable” for ease of wiring.
All power limited circuits must use type FPL, FPLR, or FPLP power limited cable.
Initiating circuits are fully supervised and rated for 22 VDC, 3 mA standby, 5 mV ripple, 50 mA max alarm. They may be configured as required. The alarm threshold is 21 mA. Maximum loop resistance is 100 ohms, 50 ohms per side.
All conventional hardwire initiating circuits are Compatibility ID "A".
57
58
Field Wiring
8.3
NAC Signal Module (SGM-1004A) Terminal Connections
Wire devices to terminals as shown in Figure 40. For further wiring information 8.8 Wiring
Tables and Information. For specifications 12.0 Appendix A: Specifications. For compatible devices 13.0 Appendix B: Compatible Devices. i
INDICATION
CIRCUIT 1
(POWER
LIMITED)
IND1+ (Y/Z)
IND1+ (Z)
IND1- (Z)
IND1- (Y/Z)
IND2+ (Y/Z)
INDICATION
CIRCUIT 2
(POWER
LIMITED)
IND2+ (Z)
IND2- (Z)
INDICATION
CIRCUIT 3
(POWER
LIMITED)
IND2- (Y/Z)
IND3+ (Y/Z)
IND3+ (Z)
IND3- (Z)
IND3- (Y/Z)
IND4+ (Y/Z)
INDICATION
CIRCUIT 4
(POWER
LIMITED)
IND4+ (Z)
IND4- (Z)
IND4- (Y/Z)
SUPERVISED INDICATING CIRCUIT #1
SUPERVISED INDICATING CIRCUIT #2
SUPERVISED INDICATING CIRCUIT #3
SUPERVISED INDICATING CIRCUIT #4
STYLE Y
(CLASS B)
WIRING
STYLE Z
(CLASS A)
WIRING
STYLE Y
(CLASS B)
WIRING
STYLE Z
(CLASS A)
WIRING
Legend:
See Appendix B for compatible devices.
SMOKE DETECTOR
3.9K 1/2W ELR LISTED S5434
MODEL MP-300
MANUFACTURED BY MIRCOM
Figure 40 Hardwire Signal Module Terminal Connections
Notes:
The terminal blocks are “depluggable” for ease of wiring.
All power limited circuits must use type FPL, FPLR, or FPLP power limited cable.
SGM-1004A NAC circuits are fully supervised and rated for 24 VDC unfiltered
1.7A max. They must use wire size as stated in the wiring tables on page 63.
Field Wiring
NC
NO
NC
NO
COM
NC
NO
COM
COM
NC
NO
COM
8.4 Relay Module (RM-1008(A)) Terminal Connections
Relays are available as shown in Figure 41
RLY 5
RLY 6
RLY 7
RLY 8
AUX RELAY 5
CONTACTS
28 VDC, 1 AMP
RESISTIVE LOAD
AUX RELAY 6
CONTACTS
28 VDC, 1 AMP
RESISTIVE LOAD
AUX RELAY 7
CONTACTS
28 VDC, 1 AMP
RESISTIVE LOAD
AUX RELAY 8
CONTACTS
28 VDC, 1 AMP
RESISTIVE LOAD
RLY 2
COM
RLY 1
NC
NO
COM
NC
NO
COM
RLY 3
NC
NO
COM
RLY 4
NC
NO
AUX RELAY 1
CONTACTS
28 VDC, 1 AMP
RESISTIVE LOAD
AUX RELAY 2
CONTACTS
28 VDC, 1 AMP
RESISTIVE LOAD
AUX RELAY 3
CONTACTS
28 VDC, 1 AMP
RESISTIVE LOAD
AUX RELAY 4
CONTACTS
28 VDC, 1 AMP
RESISTIVE LOAD
!
i
Figure 41 Hardwire Relay Module Terminal Connections
Notes:
All relay circuits are power limited and must use type FPL, FPLR, or FPLP power limited cable.
All relay circuits must be connected to a listed power limited source of supply.
Attention: Do not connect 120 VAC directly to these relays.
59
Field Wiring
8.5
Polarity Reversal and City Tie Module (PR-300) Wiring
Wire PR-300 Polarity Reversal and City Tie Module (if used) as shown in Figure 42 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.
For use in Canada, the Protective Device is not required but still recommended.
PR-300
+
-
+
CITY TIE LOCAL ENERGY
RATED - 24VDC FILTERED
TRIP COIL - 14 Ohms, 250mA,
5mV RIPPLE
POWER LIMITED
POLARITY REVERSAL ALARM
24VDC OPEN
12VDC AT 3.5mA
8mA MAX. SHORT
-
+
POWER LIMITED
POLARITY REVERSAL SUPV.
24VDC OPEN
12VDC AT 3.5mA
8mA MAX. SHORT
-
POWER LIMITED
1
2
S
1
2
S
1
2
S
1
2
S
PROTECTOR
1
2
S
1
2
+
-
USE A SHORTING WIRE
WHEN THE CITY TIE IS
NOT USED
+
-
S
CONFIRMS TO NEMA STANDARD
SB3-1969 INTENDED FOR
CONNECTION TO POLARITY
REVERSAL CIRCUIT OF A REMOTE
STATION RECEIVING UNIT HAVING
COMPATIBLE RATINGS
DIN RAIL CONNECTION
TO EARTH GROUND
PROCTECTOR
1
+
2
-
S
1
2
S
POWER LIMITED CABLE TYPE
FPL, FPLR or FPLP MUST BE
USED FROM PR-300 TO
PROTECTORS.
DIN RAIL CONNECTION
TO EARTH GROUND
60 i
Figure 42 Polarity reversal and city tie module terminal connection
Notes:
Either the PR-300's city tie or polarity reversal interface may be used, but not both. The city tie interface is not power limited. Plug PR-300 ribbon cable (P1) into connector (P4) of the FX-2000 main fire alarm module. Cut jumper (JW1) on the PR-300 module in order to transmit a trouble condition to the monitoring station. Remove jumper plug from jumper JW4 on the main fire alarm module.
The polarity reversal interface is power limited and must use type FPL, FPLR, or
FPLP power limited cable. For polarity reversal operation, short the city tie connection.
Field Wiring
8.6 UDACT-300A Main Board Terminal Connections
Wire the two telephone lines to RJ31X Connector terminals as shown in Figure 43. The
UDACT-300A terminals are located on the top left hand corner of the board. If using a cellular or wireless service, use the Line 2 interface connection only.
1
2 3
4
TIP
8
7 6
RJ31X
5
RING
Public switch
Telephone company wiring
TIP
Line 2 is Wired as shown for Line 1
RING premise telephone
IF permitted
T R T
RES
LINE-1
C.O.
R T R
UDACT-300A
T
RES C.O.
LINE-2
R
i
Figure 43 Telephone Line Wiring Diagram
Note:
Most Authorities Having Jurisdiction (AHJ) do not allow the connection of premise telephones. see specifications for more information.
61
62
Field Wiring
8.7
Power Supply Connections
The power supply is part of the main chassis. The ratings are outlined in Table 13.
Table 13 Power Supply Ratings
Model
FX-2003-6DS & FX-2003-
6DS-16LED Main Chassis
FX-2003-12DS, FX-2003-
12XTDS,FX-2017-12ADS &
FX-2017S-12ADS Main
Chassis
FX-2009-12DS & FX-2009S-
12DS Main Chassis
Electrical Input
Ratings
120 VAC, 60 Hz, 2A /
240VAC, 50hz, 1A
Power Supply
Total Current
6 amps maximum
120 VAC, 60 Hz, 2A /
240VAC, 50hz, 1A
12 amps maximum
120 VAC, 60 Hz, 2A /
240VAC, 50hz, 1A
12 amps maximum
Battery Fuse on Main
Module
Replace with 20 Amp, 1-1/4"
Fuse
Replace with 20 Amp, 1-1/4"
Fuse
Replace with 20 Amp, 1-1/4"
Fuse
Using proper wire gauge, connect as shown in Figure 44. For specifications see 12.0
Appendix A: Specifications.
TO 24 VDC
BATTERY
P10 P11
BLACK
RED
P12
BAT
P13
CONNECT GREEN
EARTH GROUND WIRE
TO MAIN MODULE PCB
MOUNTING SCREW.
FUSE
+
TO DEDICATED
BRANCH CIRCUIT
L
L
N
G
20 Amp
FAST ACTING FUSE
GREEN
!
Figure 44 Power Supply Connections
Caution:
To prevent sparking, connect batteries after the system’s main A.C. power is turned ON. Do not exceed power supply ratings.
Field Wiring
8.8 Wiring Tables and Information
Table 14 Wiring Table for Initiating Circuits
Wire Gauge Maximum Wiring Run to Last Device (ELR)
(AWG)
22
20
18
16
14
12 ft.
2990
4760
7560
12000
19000
30400 m
910
1450
2300
3600
5800
9200 i
Note:
Maximum loop resistance should not exceed 100 Ohms.
Main board NAC circuits are rated for 1.7 amps each. The SGM-1004A NAC circuits are rated for 1.7 amps each.
Table 15 NAC Circuit Wiring Table
i
TOTAL
SIGNAL
LOAD
Amperes
0.06
0.12
0.30
0.60
0.90
1.20
1.50
1.70
MAXIMUM WIRING RUN TO LAST DEVICE (ELR) MAX. LOOP
RESISTANCE
18AWG 16AWG 14AWG 12AWG
235
156
118
94
78
ft m ft m ft m ft m
2350 716 3750 1143 6000 1829 8500 2591
1180 360 1850 567 3000 915 4250 1296
470 143 750 229 1200 366 1900 579
71
47
36
29
24
375
250
185
150
125
114
76
56
46
38
600
400
300
240
200
183
122
91
73
61
850
570
425
343
285
259
174
129
105
87
Note:
Maximum voltage drop should not exceed 1.8 volts.
Ohms
30
15
6
3
2
1.5
1.2
1.0
63
64
Table 16 Analog Loop Wiring
Wire Gauge Maximum Wiring Run to Last Device (ELR)
(AWG)
18
16
14
12
ft
3132
4980
7971
10,000
m
955
1518
2429
3049 i
Notes:
Line capacitance shall not exceed 0.5 mF
Inductance shall not exceed 1 mH.
Resistance shall not exceed 40 ohms.
Power Wiring
RS-485 Wiring
4-Wire Smoke
Wiring
Shield for Analog
Loop Wiring
Use Table 15 NAC Circuit Wiring Table on the previous page to see the wiring information for the remote annunciator being used.
See the wiring information for the remote annunciator being used.
The maximum allowable current is 0.2 amperes. The maximum allowed voltage drop is 1 volt. Refer to Table 15 NAC Circuit Wiring
Table on the previous page.
Only twisted pair is recommended, but if shielded twisted pair is used, wire shield at the start and the end of the loop to the terminals marked
Shield at the loop adder board.
Field Wiring
System Checkout
9.0
System Checkout
9.1 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. Check all field (external) wiring for opens, shorts, and ground.
4. Check that all interconnection cables are secure, and that all connectors are plugged in properly.
5. Check all jumpers and switches for proper setting.
6. Check the AC power wiring for proper connection.
7. Check that the chassis is connected to EARTH GROUND (cold water pipe).
i
Note:
When using Class A and isolators on an addressable loop, configure system as
Class B, wire loop as Class A, except do not connect the last device back to the panel. Do a system checkout. Then connect the return of the Class A circuit and configure as Class A.
9.2 Power-Up Procedure
1. After completing the above procedures, power up the panel (AC only). The green AC On
LED and the Common Trouble LED should illuminate, and the buzzer should sound.
2. Press the System Reset button. Since the batteries are not connected, the Battery
Trouble LED should illuminate, the trouble buzzer should sound intermittently, and the
Common Trouble LED should flash.
3. Connect the batteries while observing correct polarity: the red wire is positive (+) and the black wire is negative (-). All indicators should extinguish except for the AC On LED and the LCD should show a normal status condition.
4. Auto-Configure or PC Configure the fire alarm control panel as described in the configurator software.
9.3 Troubleshooting
Table 17 Troubleshooting
Message
Circuit Trouble
Ground Fault
Battery Trouble
Description
Normally when a circuit trouble occurs, its designated trouble indicator will be illuminated, as well as the Common Trouble indicator and
Trouble buzzer. To correct the fault, check for open wiring on that particular circuit loop or see if the circuit disconnect switch is in the ON or CLOSED position. Note: disconnecting a circuit will cause a system
trouble (off-normal position).
The FX-2000 panel has a Ground Fault Detector. To correct the fault, check for any external wiring touching the chassis or other earth ground connection.
Check for the presence of batteries and their condition. Low voltage
(below 20.4V) will cause a battery trouble. If battery trouble condition persists, replace the batteries as soon as possible.
65
Indicators and Controls
10.0
Indicators and Controls
Refer to Figure 45 and Figure 46 below for LED indicators, control buttons, and switch locations associated with the main control displays.
LCD Display - four lines,
20 characters per line
Cursor buttons and buttons for
M (MENU), X (CANCEL), ? (INFO) and ENTER
Indicators for AC On,
CPU Fault, and Ground
Fault
Queue controls and indicators for Alarm,
Supervisory, Trouble, and Monitor
Controls & Indicators for Signal
Silence, Visual Indicator Test,
System Reset, Fire Drill, General
Alarm (Two Stage only),
Acknowledge (Two Stage only)
Figure 45 DSPL-420 Main Display Indicators and Controls
Two configurable switches & amber LEDs
66
Indicators and Controls
Refer to Figure 46 below for main display model DSPL-420-16TZDS. This display is similar to the DSPL-420 shown in Figure 45 except for the extra 16 configurable bi-coloured LED zone indicators and 16 trouble LED indicators.
16 configurable bi-coloured zone indicators and 16 trouble indicators
Queue controls and indicators for Alarm,
Supervisory,
Trouble and Monitor
AC On
Indicator
CPU Fault
Indicator
Ground Fault
Indicator
LCD Display
4 lines
20 characters
Menu
Cancel
Info
Control and Indicators for Signal
Silence, General Alarm, Acknowledge,
Fire Drill, System Reset, Lamp Test and Spare programmable Buttons
Cursor buttons and Enter button
Figure 46 DSPL-420-16TZDS Main Display Indicators and Controls
LED indicators are amber (trouble or supervisory), red (alarm), or green (AC On), and may illuminate continuously (steady) or at one of two flash rates:
Fast Flash
Trouble Flash
120 flashes per minute, 50% duty cycle
20 flashes per minute, 50% duty cycle i
Note:
The General Alarm LED and pushbutton, and the Acknowledge LED and pushbutton, are active only on a system configured for “Two Stage.”
10.1 Paper Labels for Buttons and Indicators
Buttons and indicators are supplied with paper labels. These labels slide into the plastic label templates on the face of the panel. Paper labels allow for easy English / French selection and custom-printed zone information.
67
68
Indicators and Controls
10.2 Common Indicators
Indicators
Buzzer
Table 18 Common Indicators
Description
The Buzzer is activated by any of the following
AC On LED
Alarm Queue LED
Supervisory Queue LED
Trouble Queue LED
Monitor Queue LED
CPU Fault LED
Fire Drill LED
Fire Alarm - Steady
Supervisory Alarm - Fast Rate
Trouble - Trouble Rate
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.
The AC On Indicator is activated steady green while the main AC power is within acceptable levels. It is turned off when the level falls below the power-fail threshold and the panel is switched to standby (battery) power.
The Common Alarm LED flashes red whenever the Panel is in Alarm.
An alarm results from any alarm on any point or input programmed as
Alarm or activation of the manual red General Alarm Button (if the Panel is set for Two Stage Operation). The Alarm Queue LED will go steady, once all alarms in the queue have been reviewed using the Alarm
Queue button. Since all Alarms are latched until the Panel is reset, the
Common Alarm LED will remain on until then.
The Common Supv. (Supervisory) LED flashes amber at the Fast Flash
Rate when there is a Supervisory Alarm in the Panel, as the result of any Latching or Non-Latching Supervisory Circuit. The LED turns off if all Non-Latching Supervisory Circuits are restored and there are no
Latching Supervisory Circuits active. The Supv. Queue LED will go steady, once all supervisory alarms in the supervisory queue have been reviewed using the Supv. Queue button. Latching Supervisory Alarms remain active until the Panel is reset.
The Common Trouble LED flashes amber at the Trouble Flash Rate when there is any Trouble condition being detected on the panel. It is turned off when all Non-Latching Troubles are cleared. The Trouble
Queue LED will go steady, once all troubles in the trouble queue have been reviewed using the Trouble Queue button.
The Monitor Trouble Indicator flashes amber at the Trouble Flash Rate when there is any Monitor condition being detected on the panel. It is turned off when all Monitors are cleared.
The CPU Fault Indicator is flashed yellow at the Trouble Flash Rate if the CPU is faulty.
The Fire Drill Indicator turns on steady amber while Fire Drill is active.
Indicators and Controls
Indicators
Table 18 Common Indicators
Acknowledge
General Alarm LED
Signal Silence LED
Ground Fault LED
Description
If the Panel is configured as Two Stage, the Acknowledge Indicator flashes amber at the Fast Flash Rate while the Auto General Alarm
Timer is timing out. It turns on steady amber when that Timer is cancelled by activating the Acknowledge or Signal Silence buttons. If the Auto General Alarm Timer times-out and puts the Panel into
General Alarm, the Indicator is turned off.
In Two Stage Operation only, the General Alarm Indicator is activated steady red when General Alarm is activated due to the red General
Alarm button being pushed, a General Alarm Initiating Circuit being activated, or the Auto General Alarm Timer timing out. Once the
General Alarm Indicator has been turned on it will stay active until the
Panel is reset.
The Signal Silence indicator is flashed amber, at the trouble rate when
Indication Circuits are Silenced either by the Signal Silence button, or by the Auto Signal Silence Timer. It is turned off when the Signals are re-sounded by a subsequent Alarm.
The Ground Fault Indicator flashes amber at the Trouble Rate when the
Ground Fault Detector detects a Ground Fault on any field wiring. It turns off immediately when the Ground Fault is cleared.
10.3 Common Controls
10.3.1 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.
10.3.2 Queue Buttons
Use the queue buttons to select a particular queue to review.
•
Use the Alarm Queue button to view all alarms. Pressing this button will show the latest alarm on the LCD display. Use and to view all previous alarms.
•
Use the Supervisory Queue button to view all supervisory conditions. Pressing this button will show the latest supervisory information on the LCD display. Use and to view all previous supervisory conditions on the LCD display.
•
Use the Trouble Queue button to view all trouble conditions. Pressing this button will show the latest trouble condition on the LCD display. Use previous troubles.
and to view any
•
Use the Monitor Queue Button to show all monitor conditions. Pressing this button will show the latest monitor information on the LCD display. Use queued monitor conditions.
and to view all
69
70
Indicators and Controls
Queues are displayed on the screen according to a priority sequence. Queue priority ranking from highest to lowest is as follows: alarm, supervisory, trouble, and monitor. If, for example, you are viewing a monitor queue and an alarm occurs, the display will immediately display the alarm condition. Also, if there is no activity on the system for 10 seconds after you have pressed a queue button, the display will switch to the highest priority condition.
QUEUE BUTTONS
ALM
QUEUE
SUP
QUEUE
TBL
QUEUE
BLDG
QUEUE
10.3.3 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.
ENTER
Enter Button
This button is used to select a displayed item on the LCD Display.
CURSOR BUTTONS
Cancel Button
This button is used to cancel an operation.
Menu Button
This button is used to initiate the FX-2000 Menu System.
Info Button
This button is used to get more details about a displayed item.
MENU
CANCEL
INFO
GENERAL
ALARM
SIGNAL
SILENCE
VISUAL
INDICATOR
TEST
SYSTEM
RESET
FIRE
DRILL
ACKNOW-
LEDGE
10.3.4 Signal Silence Button
Activation of the Signal Silence button when the Panel is in Alarm, turns on the Signal Silence
Indicator and deactivates any Silenceable NAC Circuits. Non-Silenceable Circuits are unaffected. Signals will re-sound upon any subsequent Alarm. This button does not function during any configured Signal Silence Inhibit Timer period. It also does not function if the NAC
Circuits are active as the result of a Fire Drill. In a Two Stage System, if the Auto General
Alarm Timer has timed out, this Signal Silence button also performs the same function as the
Acknowledge button.
Indicators and Controls
10.3.5 Visual Indicator Test Button
Activation of the Visual Indicator Test button turns all front panel Indicators on steady in whichever colour they would normally be activated and turns the buzzer on steady. If Visual
Indicator Test is active for more than 10 seconds, Common Trouble is activated.
10.3.6 System Reset Button
The System Reset button causes the Fire Alarm Control Panel, and all Circuits, to be reset
•
Resets all Latching, Trouble Conditions
•
Resets all Initiating Circuits
•
Resets 4-Wire Smoke Supply and Aux. Power Supply
•
Turns off all NAC Circuits
•
Turns off Signal Silence, Ack & GA Indicators
•
Turns off Fire Drill
•
Stops and resets all Timers
•
Processes inputs as new events
•
Aux Disconnect is not affected
•
Reset cannot be activated until the Signal Silence Inhibit timer has expired.
10.3.7 Signal Silence Button
Activation of the Signal Silence button when the Panel is in Alarm, turns on the Signal Silence
Indicator and deactivates any Silenceable NAC Circuits. Non-Silenceable Circuits are unaffected. Signals will re-sound upon any subsequent Alarm. This button does not function during any configured Signal Silence Inhibit Timer period. It also does not function if the NAC
Circuits are active as the result of a Fire Drill. In a Two Stage System, if the Auto General
Alarm Timer has timed out, this Signal Silence button also performs the same function as the
Acknowledge button.
10.3.8 Fire Drill Button
The Fire Drill button activates all programmed and non-Disconnected NAC Circuits, but does not transmit any Alarms via the City Tie, or Common Alarm Relay. Fire Drill may be programmed to operate specific NAC Circuits. Fire Drill is cancelled by pressing the button again (toggle switch), or if the Panel goes into a real Alarm.
10.3.9 Acknowledge Button (Two Stage Only)
If the Panel is not configured for Two Stage Operation, this button does nothing. If the Panel is configured for Two Stage Operation, activation of the Acknowledge (2 STAGE AUTO
CANCEL) button while the Auto General Alarm Timer is timing (there is an Alarm in the Panel, but it is still in the First Stage), that timer is cancelled, and the Acknowledge (2 STAGE AUTO
CANCEL) Indicator is on steady amber.
10.3.10 General Alarm Button (Two Stage Only)
If the Panel is not configured for Two Stage Operation, this button does nothing. If the Panel is configured for Two Stage Operation, activation of the General Alarm button immediately sends the Panel into Second Stage - General Alarm. It will also re-activate the Signals if they have been Silenced during General Alarm. The General Alarm condition remains active until the
Panel is reset.
71
Operation
11.0
Operation
NOTICE TO USERS, INSTALLERS, AUTHORITIES HAVING JURISDICTION, AND OTHER INVOLVED PARTIES
This product incorporates field-programmable software. In order for the product to comply with the requirements in the
Standard for Control Units and Accessories for Fire Alarm Systems, UL 864, certain programming features or options must be limited to specific values or not used at all as indicated below.
Settings permitted in UL 864 Program feature or option Permitted in UL 864? (Y/N) Possible settings
Delay Output Timer YES
4 seconds maximum (due to worst case loop delay of
6 seconds)
Monitor Buzzer NO
Sounding at the Fast Rate or OFF
10 seconds
OFF
The following chapter describes operation of the FX-2000 Series FACPs including:
•
Single Stage Operation
•
Two Stage Operation
•
Pre-Signal Operation
•
UUKL Feature
•
Output Circuit Delay Operation
•
Circuit Types
•
Initiating (Detection) Circuit Type
•
NAC (Signal) Circuits Types
•
Evacuation Codes
11.1 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:
•
The buzzer sounds steadily
•
If fire drill is active, it is cancelled
•
The Common Alarm LED turns on
•
The Common Alarm relay activates if Aux disconnect is not active
•
The Auto Signal Silence timer, if configured, starts
•
The Signal Silence Inhibit timer, if configured, starts
•
All non-disconnected NAC programmed to the input are activated provided that Aux disconnect is not active
•
Non-disconnected strobes associated with the input are activated
•
Non-disconnected signals associated with the input are activated at the evacuation rate
•
Subsequent alarms when the panel is already in alarm, cause the following:
•
The alert buzzer sounds steadily
72
Operation
•
If Signals have been silenced, they are resounded, the Signal Silence LED turns off, and the
Auto Signal Silence timer, if configured, is restarted
•
Any additional non-disconnected strobes associated with the input are activated continuously
•
Any additional non-disconnected signals associated with the new input are activated at the evacuation rate
11.2 Two Stage Operation
In a two stage system, alarm inputs are either first stage (alert) inputs or second stage (general alarm) inputs. First stage inputs include inputs from the following types of circuits: non-verified alarm, verified alarm, sprinkler alarm, and water-flow alarm. Second stage inputs include alarms on the general alarm circuits, activation of the General Alarm button, or expiration of the Auto General
Alarm timer. Any of these alarm inputs occurring when the panel is not already in alarm cause the following:
•
The buzzer sounds steadily
•
If fire drill is active, it is cancelled
•
The Common Alarm LED turns on
•
The Common Alarm relay activates if Aux disconnect is not active
•
The Auto Signal Silence timer, if configured, starts
•
The Signal Silence Inhibit timer, if configured, starts
•
All Non-disconnected NAC programmed to the input are activated provided that Aux disconnect is not active
If the alarm is a second stage alarm,
•
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
•
Non-disconnected signal circuits programmed to that circuit are activated with the alert code
•
The Auto General Alarm timer, if configured, starts
•
The Acknowledge LED starts flashing.
Subsequent First Stage alarms when the panel is already in alarm, cause the following:
•
The buzzer sounds steadily
•
If signals have been silenced as a result of the silence button or the Auto signal silence timer, signals are resounded as they were before signal silence, the Signal Silence LED turns off, and the Auto Signal Silence timer, if configured, is restarted
•
If the panel is not already in General Alarm, additional non-disconnected signals programmed to the new input are activated with the Alert Code (see NAC (Signal) Circuit Types on
page 77
).
•
If the panel is not already in General Alarm and if the Acknowledge LED is on steady NAC that the Auto General Alarm timer has been Acknowledged the timer is restarted and the
Acknowledge LED is extinguished.
73
74
Operation
A second stage alarm (general alarm) when the panel is already in alarm causes the following:
•
The buzzer sounds steadily
•
All non-disconnected signals are activated at the evacuation rate
•
If the Signal Silence LED is on, it turns off and the Auto Signal Silence timer, if configured, is restarted
•
The Acknowledge LED if on, turns off
Alarm inputs are latching: they remain active until system reset.
i
Note:
If the system is configured for correlations, any second stage / general alarm condition activates all NAC circuits whether they are correlated or not.
11.3 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. Using the FX-2000 Configurator, “Subsequent Alarm” in “Common System Status” must be correlated to turn on the Remaining NAC circuits in the system. To confirm the alarm
(i.e. subsequent alarm) the operator can press the “General Alarm” button on the panel or activate a Manual Station in the Control Room.
i
Note: Pre-Signal is not permitted to be used in Canada.
11.4 UUKL feature
The UUKL Feature on the FX-2000 Configurator is used only in conjunction with the FDG-008 and FDX-008 Fan Damper Controller modules.
In each UUKL relay/equipment set, the user could set up the “Any of” operation. If this option is selected, the panel will still go into alarm directly if any detector is tripped. The only difference is that if a relay which is part of the smoke control is configured for “any of” operation, that relay will only activate after a configurable number of detectors are active.
This operation is meant to be used in an atrium where multiple detector operation is required to start the smoke control operation but the signaling within the building is based upon the first detector to activate.
For complete details refer to manual LT-966.
11.5 Output Circuit Delay Operation
The relay function associated with an alarm initiating circuit may be delayed. There is a Output
Delay timer associated with this, refer to Table below. This is programmed using the FX-2000
Operation
Configuration software. The Output Delay timer is limited to elevator recall purpose only and has a maximum setting of 4 seconds
.
11.6 Circuit Types
The term circuits refers to an actual electrical interface, either initiating (detection) or NAC
(signal). The term zone is a logical concept for a fire alarm protected area, and will consist of at least one circuit. Often the terms zone and circuit are used interchangeably, but in this manual the term circuit is used.
11.6.1 Initiating (Detection) Circuit Type
Table 19 Initiating (Detection) Circuit Types
Initiating (Detection)
Circuit Type
Description
Non-Verified Alarm
Verified Alarm
Water-Flow Alarm
This is a "normal" type of alarm which may have pull stations, smoke detectors, or heat detectors attached. Any activation of these devices will immediately result in an alarm condition in the fire alarm control panel. An alarm condition causes the associated circuit Status LED and the Common Alarm LED to illuminate red.
These alarms are verified by a reset and timing procedure, and may have Manual Stations, smoke detectors attached. Any activation of
Manual Stations will result in an alarm condition in the fire alarm control panel within four seconds. Smoke detectors will be verified for a real alarm within 60 seconds depending upon the startup time of the smoke detectors being used. If four seconds is too long a response time for pull stations, then they should be wired separately on a non-verified alarm circuit. An alarm condition causes the associated circuit Status LED and the Common Alarm LED to illuminate red. Verified Alarm is not permitted for heat detectors, 4-wire smoke detectors and smoke detectors with built-in alarm verification. Refer to Appendix F: Alarm Verification
Timing on page 98
for details.
An alarm for water-flow sensors. These alarms are identical to normal non-verified alarms except that any NAC circuits programmed to these circuits (all are by default) are non-silenceable. Also, if water-flow retard operation is enabled, then these circuits are sampled every one second; if ten samples are active within any 15 second interval, the water-flow alarm is confirmed and processed. An alarm condition causes the associated circuit Status LED and the Common Alarm LED to illuminate red.
Note: Do not use the retard operation with any external retarding device; maximum retard may not exceed 120 seconds.
75
76
Operation
Table 19 Initiating (Detection) Circuit Types (Continued)
Initiating (Detection)
Circuit Type
Description
Sprinkler Alarm
General Alarm
Non-Latching Supervisory
Latching Supervisory
Monitor
Trouble-Only
An alarm for sprinkler flow sensors. These alarms are identical to normal non-verified alarms unless the water-flow retard operation is enabled. If water-flow retard operation is enabled, then these circuits are sampled every one second; if ten samples are active within any 15 second interval, the sprinkler alarm is confirmed and processed. An alarm condition causes the associated circuit Status LED and the Common
Alarm LED to illuminate red.
Note: Do not use the retard operation with any external retarding device; maximum retard may not exceed 120 seconds.
These alarms provide remote general alarm such as for remote key switches. In a two stage system, these inputs perform exactly the same function as the front panel or remote annunciator general alarm button.
In a single stage system, these inputs act the same as non-verified alarms, but if correlations are enabled, general alarm initiating circuits are correlated to all NAC circuits.
These alarms are for supervisory devices. An activation on these circuits will cause the Circuit Status LED and the Common Supervisory LED to illuminate amber. The buzzer will sound continuously. If the circuit activation is removed, the supervisory condition will clear (so long as there are no other supervisory conditions in the system) and the circuit
Status LED will extinguish.
These alarms are for supervisory devices. An activation on these circuits will cause the Circuit Status LED and the Common Supervisory LED to illuminate amber. The buzzer will sound continuously. If the circuit activation is removed, the Supervisory condition will not clear.
This is a supervised general purpose non-latching input used mainly for correlating to a relay circuit. No other system condition occurs as a result of its activation (short-circuit), although it is supervised for trouble
(open-circuit).
This circuit is used for monitoring a trouble condition from an external device such as a Mircom QX-5000 Audio System. Both open and short circuits generate a non-latching trouble condition.
Operation
11.6.2 NAC (Signal) Circuit Types
Table 20 NAC (Signalling) Circuit Type
NAC (Signalling)
Circuit Type
Description
Silenceable Signal
Non-Silenceable Signal
Coded Signal
Strobe
For audible devices such as bells and piezo mini-horns that may be silenced either manually or automatically. While sounding, these follow the pattern appropriate for the condition: the configured evacuation code
(default is temporal code) during single-stage alarm, or two stage general alarm, or the alert code during a two stage system's alert (first) stage.
For audible devices such as bells and piezo mini-horns that may not be silenced either manually or automatically. While sounding, these follow the pattern appropriate for the condition: the configured evacuation code
(default is temporal code) during single-stage alarm, or two-stage general alarm, or the alert code during a two stage system's alert (first) stage.
For audible devices such as bells and piezo mini-horns that may be activated in code. The code consists of 4 digits with each digit consisting of 1-15 pulses on the signals. Each coded circuit can sound the complete code 1 to 15 times after which signals go silent or revert to programmed General Alarm rate.
Note: The NFPA-72 and ULC-S527 specify temporal tone. However, for retrofits of systems that were previously approved, coded signalling is allowed.
For visual devices such as strobes that use no code patterns (they are continuous).
77
78
11.6.3 Evacuation Codes
Single stage codes
Continuous
Temporal Code
March Code
California Code
On 100% of the time
3 of 0.5 second on, 0.5 second off then, 1.5 second pause
0.5 second on, 0.5 second off
5 seconds on, 10 seconds off
Two-stage codes:
Alert Code
General Alarm
0.5 second on, 2.5 seconds off
Evacuation code as selected from above.
Operation
0.5s
0.5s
Continuous
1.5s
Temporal Code
0.5s
0.5s
5s
10s
March Code
California Code
0.5s
2.5s
Figure 47 Evacuation Codes
Alert Code
Appendix A: Specifications
12.0
Appendix A: Specifications
12.1 FX-2003-6DS and FX-2003-6DS-16LED Specifications
Table 21 FX-2003-6DS and FX-2003-6DS-16LED Specifications
FX-2003-6DS and FX-2003-6DS-16LED Chassis
Analog Loop
NAC Circuits
Aux Power Supply for remote annunciators
Resettable 4-Wire
Smoke Supply
RS-485 port
Auxiliary relays
(resistive loads)
One Analog Loop capable of monitoring 99 Sensors and 99 Modules
Line voltage
22 VDC, 400 mA max, max loop resistance 40
4 Style Y or Z (Class B or A) NAC circuits, configured as strobes or audibles. Terminals are labelled "IND".
Rating
Max power allowed
Power limited / 24 VDC unfiltered, 1.7 A @ 49°C per circuit
5A
Terminals are labelled "AUX PWR".
Rating Power Limited 24 VDC unfiltered, 1.7 A @ 49°C
Terminals are labelled "4-WIRE".
Rating 22 VDC, 400 mA max., 5mV ripple
For Remote Annunciators or interface to Audio Systems. Terminals are labelled "RS-485".
Rating Power limited to 300 mA.
Terminals are labelled "ALARM, TROUBLE, SUPV".
Electrical ratings
Battery
Other
Alarm/Supv/Trouble
AC Line Voltage
Power Supply ratings
Type
Charging capability
Charging current
Must be connected to a Listed Power Limited Source of
Supply. Form C, 1 Amp, 28 VDC
120V 60Hz / 240V, 50Hz
2 Amps / 1 Amp (primary)
12 Amps. Max. (secondary)
24VDC, Gel-Cell/Sealed Lead-Acid
10-24 AH batteries
3A maximum
Current Consumption
standby: 230 mA alarm: 380 mA
Displays (incl LCD) and Controls for all Common Functions, and 16 Zone Displays.
Micro-controller based design.
Fully Configurable with PC software.
Full walk test function.
79
Appendix A: Specifications
12.2 FX-2003-12DS, FX-2003-12XTDS, FX-2009-12DS, FX-2009S-
12DS Specifications
Table 22 FX-2003-12DS, FX-2003-12XTDS, FX-2009-12DS, and FX-2009S-12DS
Specifications
FX-2003-12DS, FX-2003-12XTDS, FX-2009-12DS, and FX-2009S-12DS Chassis
Analog Loop
NAC Circuits
Aux Power Supply for remote annunciators
Resettable 4-Wire
Smoke Supply
RS-485 port
Auxiliary relays
(resistive loads)
One Analog Loop capable of monitoring 99 Sensors and 99 Modules or 99 Advanced
Protocol (AP) devices and 99 AP Modules.
Line voltage
22 VDC, 400 mA max, max loop resistance 40
4 Style Y or Z (Class B or A) NAC circuits, configured as strobes or audibles. Terminals are labelled "IND".
Rating
Max power allowed
Power limited / 24 VDC unfiltered, 1.7 A @ 49°C per circuit
10A
Terminals are labelled "AUX PWR".
Rating Power Limited 24 VDC unfiltered, 1.7 A @ 49°C
Terminals are labelled "4-WIRE".
Rating 22 VDC, 400 mA max., 5mV ripple
For Remote Annunciators or interface to Audio Systems. Terminals are labelled "RS485".
Rating Power limited to 300 mA.
Terminals are labelled "ALARM, TROUBLE, SUPV".
Electrical ratings
Battery
Other
Alarm/Supv/Trouble
AC Line Voltage
Power Supply ratings
Type
Charging capability
Charging current
Must be connected to a Listed Power Limited Source of
Supply. Form C, 1 Amp, 28 VDC
120V 60Hz / 240V, 50Hz
4 Amps / 2 Amp (primary)
12 Amps. Max. (secondary)
24VDC, Gel-Cell/Sealed Lead-Acid
17-55 AH batteries
3A maximum
Current Consumption
standby: 230 mA alarm: 380 mA
Displays (incl LCD) and Controls for all Common Functions, and 16 Zone Displays.
Micro-controller based design.
Fully Configurable with PC software.
Full walk test function.
80
Appendix A: Specifications
12.3 FX-2017-12ADS and FX-2017S-12ADS Specifications
Table 23 FX-2017-12ADS and FX-2017S-12ADS Specifications
FX-2017-12ADS and FX-2017S-12ADS Chassis
Analog Loop
NAC Circuits
Aux Power Supply for remote annunciators
Resettable 4-Wire
Smoke Supply
RS-485 port
Auxiliary relays
(resistive loads)
One Analog Loop capable of monitoring 99 Sensors and 99 Modules or 99 Advanced
Protocol (AP) devices and 99 AP Modules.
Line voltage
22 VDC, 400 mA max, max loop resistance 40
4 Style Y or Z (Class B or A) NAC circuits, configured as strobes or audibles. Terminals are labelled "IND".
Rating
Max power allowed
Power limited / 24 VDC unfiltered, 1.7 A @ 49°C per circuit
10A
Terminals are labelled "AUX PWR".
Rating Power Limited 24 VDC unfiltered, 1.7 A @ 49°C
Terminals are labelled "4-WIRE".
Rating 22 VDC, 400 mA max., 5mV ripple
For Remote Annunciators or interface to Audio Systems. Terminals are labelled
"RS485".
Rating Power limited to 300 mA.
Terminals are labelled "ALARM, TROUBLE, SUPV".
Electrical ratings
Battery
Other
Alarm/Supv/Trouble
AC Line Voltage
Power Supply ratings
Must be connected to a Listed Power Limited Source of
Supply. Form C, 1 Amp, 28 VDC
120V 60Hz / 240V, 50Hz
4 Amps / 2 Amp (primary)
12 Amps. Max. (secondary)
24VDC, Gel-Cell/Sealed Lead-Acid
Type
Charging capability
17-55 AH batteries
3A maximum
Charging current
Current Consumption
standby: 230 mA alarm: 380 mA
Displays (incl LCD) and Controls for all Common Functions, with capacity for 48 zone displays, and 48 configurable displays and controls.
Micro-controller based design.
Fully Configurable with PC software.
Full walk test function.
81
Appendix A: Specifications
82
12.4 FX-2000 Specifications
Table 24 FX-2000 System Modules and Annunciator Specifications
FX-2000 System Modules and Annunciators
ALC-198S
ALC-396S
ALC-H16
SGM-1004A
RM-1008A
(resistive loads)
PR-300
Single Intelligent Analog Loop Module One Analog Loop capable of monitoring 99
Sensors and 99 Modules or 99 Advanced
Protocol (AP) devices and 99 AP Modules.
Power limited
22 VDC, 400 mA max max loop resistance 40
Current Consumption
Dual Intelligent Analog Loop Module
Power limited:
Current Consumption
Loop Controller Module
Standby: 50 mA / Alarm: 60 mA
Two Analog Loops capable of monitoring 198
Sensors and 198 Modules or 198 Advanced
Protocol (AP) devices and 198 AP Modules.
22 VDC, 400 mA max, max loop resistance 40 standby:50 mA / alarm: 60 mA
Current Consumption
NAC Signal Adder Module
Provides connection for adding up to 16 FA-
1000 style adders DM-1008A, SGM-1004A and RM-1008A.
standby: 35 mA / alarm: 50 mA
Four Class B or A
(Style Y or Z) NAC circuits; configurable as strobes or audibles. Terminals are labelled "IND".
Power Limited:
24 VDC unfiltered max. 1.7 amps @ 49C per circuit standby: 60 mA / alarm: 258 mA
Current Consumption
Relay Adder Module Must be connected to a listed power limited source of supply. Terminals are labelled "RLY".
Eight fully configurable Form C NAC.
Form C, 1 amp., 28 VDC (resistive loads) standby: 25 mA / alarm: 150 mA
Current Consumption
Polarity Reversal and City Tie Module Supervised city tie--not power limited
24VDC unfiltered, 210 mA max., Trip coil: 14 ohms.
Terminals are labelled "City Tie".
Polarity reversal power limited
Terminals are labelled "Polarity Reversal".
24VDC open
12VDC @ 3.5 mA, 8 mA max. (shorted)
Current Consumption
standby: 35 mA / alarm: 300 mA
Appendix A: Specifications
Table 24 FX-2000 System Modules and Annunciator Specifications (Continued)
FX-2000 System Modules and Annunciators
DM-1008A
FDX-008
FDX-008KI
RAX-1048TZDS
Detection Adder Module
Current Consumption
Fan Damper Display Module
Current Consumption
Fan Damper Display Module with
Keyswitch
Current Consumption
Adder Annunciator Chassis
Current Consumption
Eight supervised Class B (Style B) or four
Class A (Style D) NAC circuits; fully configurable. Terminals are labelled "INI". NAC circuits are Compatibility ID "A".
standby: 80 mA alarm: 1 zone active: 125 mA
2 zone active: 170 mA
4 zone active: 275 mA
6 zone active: 370 mA
8 zone active: 465 mA
24V DC nominal, range of 20 to 39V DC.
Interconnects via one ribbon cable to P2 of previous display module. Provides eight configurable output circuits or fan damper controls.
standby: 15mA Max.
alarm (all LEDs ON): 35mA Max.
24V DC nominal, range of 20 to 39V DC.
Interconnects via one ribbon cable to P2 of previous display module. Provides eight configurable output circuits or fan damper controls, 1 output controlled via keyswitch.
standby: 15mA Max.
alarm (all LEDs ON): 35mA Max.
48 Display Points and 48 trouble points.
Interconnect via one ribbon cable to RAM-
1032(TZ) or to previous RAX-1048(TZ).
Annunciation of up to 48 additional points (with trouble annunciation on the TZ version).
standby: 22 mA alarm: 1 zone LED active: 26 mA
2 zone LED active: 30 mA
3 zone LED active: 35 mA
4 zone LED active: 39 mA
48 zone LED active: 262 mA
IPS-2424DS
Programmable Input Switches
Module
Current Consumption
standby: 5 mA alarm: 22 mA maximum
83
84
Appendix A: Specifications
Table 24 FX-2000 System Modules and Annunciator Specifications (Continued)
FX-2000 System Modules and Annunciators
UDACT-300A
Digital Communicator Module
Current Consumption
Transmit alarm, supervisory, and trouble to a central monitoring station.
standby: 45 mA / alarm: 120 mA
12.5 Compliance
System Model
System Type
Type of Service
Type of Signalling
Applicable Standards
Installation
FX-2000 Series Fire Alarm Control Panel
Local, auxiliary (using PR-300), remote protected premise station (using PR-300 or UDACT-300A), central station protected premises (using UDACT-300A).
A, M, WF, SS (with PR-300 or UDACT-300A)
Coded and Non-coded
NFPA 70 and 72, UL-864 Rev.9, ULC S-524, ULC S-527-99
Intended for indoor use, dry locations
Appendix B: Compatible Devices
13.0
Appendix B: Compatible Devices
13.1 FX-2000 Series Compatible Addressable Loop Devices (UL)
MIX-1251
MIX-1251AP
MIX-2251(B)/T(B)
MIX-2251AP/TAP
MIX-2251TM(B)
MIX-2251TMAP
MIX-7251(B)
MIX-5251P/RP
MIX-5251(B)/R(B)
MIX-M500MB
MIX-M500MAP
MIX-5251H
MIX-M500CH
MIX-M501M
MIX-M501MAP
MIX-M502M
MIX-M502MAP
MIX-M500R
MIX-M500RAP
MIX-M500S
MIX-M500SAP
MIX-M500DM
MIX-DH200PL
MIX-DH200RPL
MIX-210LP
MIX-B501BH
MIX-B501BHT
Table 25 UL Compatible FX-2000 Series Addressable Loop Devices
Make Model / Base
Mircom
System Sensor
FTX-P1
M500X
IM-10
CR-6
SC-6
B254BI
B501B
B210LP
B501B-FTX
Description
Low-Profile Analog Ionization Smoke Sensor
Advanced Protocol Ionization Smoke Sensor
Low-Profile Analog Photoelectronic Smoke Sensor/plus Thermal
Advanced Protocol Photoelectronic Smoke Sensor/plus Thermal
Low-Profile Acclimate™ Intelligent Photoelectric Thermal Sensor
Advanced Protocol Photoelectric Thermal Sensor
Pinnacle™ Intelligent Laser Smoke Sensor
Low-Profile Analog Thermal Sensor/Rate of Rise
Low Profile Intelligent Thermal Sensor/Rate of Rise
Monitor Module (Universal)
Advanced Protocol Monitor Module
Low Profile Intelligent Thermal Sensor
Addressable Control Module
Addressable Mini-Monitor Module
Advanced Protocol Mini-Monitor Module
Universal Monitor Module
Advanced Protocol Universal Mini-Monitor Module
Addressable Relay Output Module
Advanced Protocol Relay Output Module
Addressable Supervised Output Module
Advanced Protocol Supervised Output Module
Addressable Dual Input Monitor Module
Intelligent Smoke Detector
Intelligent Smoke Detector (with relay)
200 Series Low Profile Intelligent Base
200 Series Low Profile Intelligent Base with Horn
200 Series Low Profile Intelligent Base with Horn (Temporal Code)
Filtrex™ Intelligent Photoelectric Smoke Sensor
Fault Isolator Module
Ten Input Monitor Addressable Module
Six Relay Control Module
Six Supervised Control Module
Analog Base with Isolator
Analog Base
200 Series Low Profile Intelligent Base
Filtrex Base
85
86
Appendix B: Compatible Devices
Table 25 UL Compatible FX-2000 Series Addressable Loop Devices
Make Model / Base Description
System Sensor continued
B501BH
B501BHT
CZ-6
BEAM200
BEAM200S
200 Series Low Profile Intelligent Base with Horn
200 Series Low Profile Intelligent Base with Horn (Temporal Code)
Six Addressable Universal Zone Module
Intelligent Addressable Beam Detector
Intelligent Addressable Beam Detector (with Sens Test) i
13.2 FX-2000 Series Compatible Two-Wire Smoke Detectors (UL)
Notes:
Whether mixing different models of compatible smoke detectors or using the same model on the same circuit, total standby current of all detectors must not exceed 3 mA.
The below listed smoke detectors are compatible with initiating circuits having
Compatibility Identifier "A".
Table 26 FX-2000 Series Compatible Two-Wire Smoke Detectors (UL Listed)
Smoke Detector Make
Model / Base
Compatibility
Identifier Head /
Base
Rated
Standby
Current
Apollo
55000-225 / 45681-251, -
255, -256, -258
55000-325 / 45681-251, -
255, -256, -258
225 / 251, 255, 256,
258
325 / 251, 255, 256,
258
0.045 mA
0.045 mA
Detection Systems Inc.
DS250
B - N/A 0.10 mA
Smoke Detector Make
Model / Base
Compatibility
Identifier Head /
Base
Rated Standby
Current
Sentrol - ESL
429C
429CT
S10A - N/A
S10A - N/A
0.10 mA
0.10 mA
0.10 mA
0.10 mA
DS250TH
DS282
DS282TH
Hochiki
DCD-135/NS6-220
DCD-135/NS4-220
DCD-135/HSC-220R
DCD-190/NS6-220
DCD-190/NS4-220
DCD-190/HSC-220R
B - N/A
B - N/A
B - N/A
HD-3/HB-72
HD-3/HB-3
HD-3/HB-3
HD-3/HB-3
HD-3/HB-3
HD-3/HB-3
0.10 mA
0.10 mA
0.10 mA
0.035mA
0.035mA
0.035mA
0.035mA
0.035mA
0.035mA
429CST
S11A - N/A
S11A - N/A
429CRT
711U/701E, 701U, 702E,
702U
S10A - S00
712U / 701E, 701U, 702E,
702U
S10A - S00
713-5U / 701E, 701U,
702E, 702U
S10A - S00
721U / 702E, 702U
S10A - S00
732U / 702E, 702U,
702RE, 702RU
721UT / 702E, 702U
722U / 702E, 702U
731U / 702E, 702U,
702RE, 702RU
721UT / 702E, 702U
721UT / 702E, 702U
S11A - S00
S10A - S00
S10A - S00
S11A - S00
S10A - S00
S10A - S00
0.10 mA
0.10 mA
0.10 mA
0.10 mA
0.10 mA
0.10 mA
0.10 mA
0.10 mA
0.10 mA
0.10 mA
Appendix B: Compatible Devices
FW-2
Table 26 FX-2000 Series Compatible Two-Wire Smoke Detectors (UL Listed)
Smoke Detector Make
Model / Base
Compatibility
Identifier Head /
Base
Hochiki continued
SIJ-24/NS6-220
SIJ-24/NS4-220
SIJ-24/HSC-220R
SLR-24/NS6-220
SLR-24/NS4-220
SLR-24/HSC-220R
SLR-24H/NS6-220
SLR-24H/NS4-220
SLR-24H/HSC-220R
SLR-835/NS6-220
SLR-835/NS4-220
SLR-835/HSC-220R
HD-3/HB-72
HD-3/HB-3
HD-3/HB-3
HD-3/HB-72
HD-3/HB-3
HD-3/HB-3
HD-3/HB-3
HD-3/HB-3
HD-3/HB-72
HD-3/HB-3
HD-3/HB-3
HD-3/HB-72
SLR-835B-2
HD-6
Rated
Standby
Current
0.040mA
0.040mA
0.040mA
0.045mA
0.045mA
0.045mA
0.045mA
0.045mA
0.045mA
0.045mA
0.045mA
0.045mA
55μa @
24VDC
NAPCO
Mircom
MIR-525U
MIR-525TU
MIR-752L / MIR-B6**
MIR-752L / MIR-B44**
MIR-752HL / MIR-B6**
MIR-752HL / MIR-B44**
HD-6
FDT-1
FDT-1
WHC60 / WB02
WHC60 / WB04
WHC60 / WB02/
WHC60 / WB04
55μA @
24VDC
0.10 mA
0.10 mA
0.2 mA
0.2 mA
0.2 mA
0.2 mA
Smoke Detector Make
Model / Base
Compatibility
Identifier Head /
Base
Rated Standby
Current
System Sensor
4451HT / B401***
5451 / B401B***
5451 / B401***
2451 / B401B***
2451 / B406B***
2451 / DH400***
2451TH / B406B***
2451 / B401***
2451TH / B401***
4451HT / B401B***
4451HT / B406B***
1100***
1151/ B110LP***
1151/ B116LP***
1400***
1451/B401***
1451/ B401B***
1451/ B406B***
1451DH/ DH400***
2100***
2100T***
2151/ B110LP***
5451 / B406B***
2151/ B116LP***
2400***
2400TH***
2WTA-B*
2WTR-B*
2W-B, 2WT-B
A - N/A
A - A
A - A
A - N/A
A - A
A - A
A - A
A - A
A - N/A
A - N/A
A - A
A - A
A - A
A - N/A
A - N/A
A - N/A
A - N/A
A - N/A
A - A
A - A
A - A
A - A
A - A
A - N/A
A - A
A - A
A - A
A - A
A - A
0.10 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.1 mA
0.1 mA
0.1 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA
0.12 mA i
Notes:
Maximum number of devices per circuit is 30 unless otherwise noted. If item is identified by a single asterisk (*) the maximum number of devices is 1. If item is identified by a double asterisk (**) the maximum number of devices is 21. If item is identified by a triple asterisk (***) the maximum number of devices is 25.
87
88
Appendix B: Compatible Devices
13.3 FX-2000 Series Compatible Four-Wire Smoke Detectors (UL
Listed)
Table 27 FX-2000 Series Compatible Four-Wire Smoke Detectors (UL Listed)
Make & Model # of Devices /Circuit Make & Model # of Devices/
Circuit
Mircom
MIR-545U
MIR-545TU
30
30
Sentrol-ESL
541C
541CXT
709-MV-21
709-24V-21
N/A
N/A
N/A
N/A
N/A
741U WITH 702U or 702E Base
449AT, 449C, 449CT, 449CRT, 449CST,
449CSTE, 449CSRT, 449CSRH, 449CSST,
449CSSTE, 449CTE, 449CSLT
N/A
System Sensor
1424
6424
6424A
A77-716B
DH400ACDCI
DH400ACDCP
DH400ACDCIHT
25
30
30
8
8
8
13.4 FX-2000 Series Compatible Signalling Devices (UL Listed)
Table 28 FX-2000 Series Compatible Signalling Devices (UL Listed)
Make & Model
System Sensor - SpectrAlert
P2415
P2415W
P241575
P241575W
P2475
P2475W
P24110
P24110W
S2415
S2415W
S241575
S241575W
S2475
S2475W
S24110
S24110W
H12/24
H12/24W
MDL
MDLW
Make & Model
Wheelock
AS-2415W-24-FR
AS-241575W-FR
AS-2430W-FR
AS-2475W-FR
AS-24110W-FR
AS-2415C-FW
AS-2430C-FW
AS-2475C-FW
AS-24100C-FW
AH-24-R
AH-24-WP-R
NS-2415W-FR
NS-241575W-FR
NS-2430W-FR
NS-2475W-FR
NS-24110W-FR
NS4-2415W-FR
NS4-241575W-FR
NS4-2430W-FR
NS4-2475W-FR
NS4-24110W-FR
RS-2415W-FR
RSS-241575W-FR
RSS-2415W-FR
RSS-241575W-FR
RSS-2430W-FR
RSS-2475W-FR
RSS-24110W-FR
RSS-2415C-FW
RSS-2430C-FW
RSS-2475C-FW
RSS-24100C-FW
MT-12/24-ULC
MT-24-LS-VFR-ULC
MT-24-WS-VFR-ULC
AMT-12/24-R-ULC
AMT-24-LS-VFR-ULC
MB-G6-24-R
MB-G10-24-R
SM-12/24-R
DSM-12/24-R
Appendix B: Compatible Devices
13.5 FX-2000 Series Compatible Addressable Loop Devices (ULC)
Make & Model
Mircom
MIX-1551A
MIX-1251A
MIX-1251APA
MIX-2551A
MIX-2251A/2551TA
MIX-2251TMA
MIX-2251TMAPA
MIX-7251A
MIX-M500MA
MIX-M500MAPA
MIX-M500CHA
MIX-M501MA
MIX-M501MAPA
MIX-DH200PLA
MIX-DH200RPLA
MIX-210LPA
MIX-B501BHA
MIX-B501BHTA
Table 29 FX-2000 Series Compatible Addressable Loop Devices (ULC)
MIX-2251APA/TAPA
Description Make & Model Description
System Sensor
Analog Ionization Smoke Sensor
5551A
Low-Profile Analog Ionization Smoke Sensor
5551RA
Advanced Protocol Ionization Smoke Sensor
5251PA
Analog Photoelectronic Smoke Sensor
Low-Profile Analog Photoelectronic Smoke
Sensor / Plus Thermal
Advanced Protocol Photoelectronic Smoke
Sensor / Plus Thermal
Low-Profile Acclimate™ Intelligent
Photoelectric Thermal Sensor
Advanced Protocol Photoelectric Thermal
Sensor
Pinnacle™ Intelligent Laser Smoke Sensor
Monitor Module (Universal)
Advanced Protocol Monitor Module
Addressable Control Module
Addressable Mini-Monitor Module
Advanced Protocol Mini-Monitor Module
Intelligent Smoke Detector
Intelligent Smoke Detector (with relay)
200 Series Low Profile Intelligent Base
200 Series Low Profile Intelligent Base with
Horn
200 Series Low Profile Intelligent Base with
Horn (Temporal Code)
5251RPA
5251APA/HAPA/
RAPA
FTX-P1A
M500X
B254BIA
B501B
IM-10A
CR-6A
SC-6A
Analog Thermal Sensor
Analog Rate of Rise Thermal Sensor
Low-Profile Analog Thermal Sensor
Low-Profile Analog Rate of Rise Thermal
Sensor
Advanced Protocol Thermal Detector/Rate of Rise
Filtrex™ Intelligent Photoelectric Smoke
Sensor
Fault Isolator Module
Analog Base with Isolator
Analog Base
Ten Input Monitor Addressable Module
Six Relay Control Module
Six Supervised Control Module
89
90
Appendix B: Compatible Devices
13.6 FX-2000 Series Compatible Hardwire Smoke Detectors (ULC)
i
Note:
Whether mixing different models of compatible smoke detectors or using the same model on the same circuit, the total standby current of all detectors must not exceed 3 mA.
Make & Model
Table 30 FX-2000 Series Compatible Hardwire Smoke Detectors (ULC Listed)
# of Devices
/Circuit
Make & Model # of Devices
/Circuit
Hochiki
DCD-135/NS6-220
DCD-135/NS4-220
DCD-135/HSC-220R
DCD-190/NS6-220
DCD-190/NS4-220
DCD-190/HSC-220R
SIJ-24/NS6-220
SIJ-24/NS4-220
SIJ-24/HSC-220R
SLR-24/NS6-220
SLR-24/NS4-220
SLR-24/HSC-220R
SLR-24H/NS6-220
SLR-24H/NS4-220
SLR-24H/HSC-220R
SLR-835/NS6-220
SLR-835/NS4-220
SLR-835/HSC-220R
SLR-835B-2
Cerberus Pyrotronics
D1-2
D1-3/DB-3S
Mircom
MIR-525
MIR-525T
MIR-1400A
MIR-2400A
MIR-752L
MIR-752HL
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
25
21
21
Simplex
2098-9110
Mirtone
73471
73494
73575
73495/73486
73495/73487
73595/73486
73595/73497
73594/73400
73405/73400
73594/73401
73405/73401
System Sensor
1400-A
2400-A
1451-A/B401B
1451-A/B406B
2451-A/B401B
2451-A/B406B
1451DH/DH400A
2451-A/DH400A
1151A
2151A
C2W-BA/C2WT-BA
C2WTR-B
C2WTA-BA
NAPCO
FW-2 base base base base base base
30
30
25
30
1
1
30
30
30
25
25
25
25
25
Appendix B: Compatible Devices
Make & Model
Table 30 FX-2000 Series Compatible Hardwire Smoke Detectors (ULC Listed)
# of Devices
/Circuit
Make & Model # of Devices
/Circuit
Edwards
6249C
6250C
6264C
6266C
6269C
6270C
6269C-003
6270C-003
Apollo
55000-325
55000-325 / 45681-251, -255, -256, -258
30
30
Fenwal
PSD-7131/70-201000-001
PSD-7131/70-201000-002
PSD-7131/70-201000-003
PSD-7131/70-201000-005
PSD-7130/70-201000-001
PSD-7130/70-201000-002
PSD-7130/70-201000-003
PSD-7130/70-201000-005
PSD-7128/70-201000-001
PSD-7126/70-201000-002
PSD-7126/70-201000-003
PSD-7126/70-201000-005
PSD-7129/70-201000-000
PSD-7125/70-201000-001
PSD-7126/70-201000-002
PSD-7125/70-201000-003
PSD-7125/70-201000-005
CPD-7021/70-201000-001
CPD-7021/70-201000-002
CPD-7021/70-201000-003
CPD-7021/70-201000-005 base base base base base base base base base base
13.7 FX-2000 Series Compatible Synchronized Modules and
Strobes
Synchronization for strobes can be accomplished by using Sync Modules.
Manufacturer
i
Gentex Corp.
SpectrAlert
Wheelock
Faraday
Brand
Amseco / Potter Mircom
Secutron
System Sensor
Wheelock
Faraday
Sync. Module
SDM 240
Strobe Models
FHS-340R/W,
FHS-240-110
AVS44 R
MDL
MRA-HS3-24ww
P1224 MC
DSM 12/24 NS-24 MCW -FW
5406 6234B-14-24
Max. Strobe / NAC
15
20
25
25
26*
Notes:
* Strobes and horns must be connected to separate circuits since the horn is a non-synchronized audible appliance.
Do not mix and match sync module with strobes from different manufacturers because each manufacturer uses different synchronization protocols.
91
Appendix C: Power Supply and Battery Calculations
14.0
Appendix C: Power Supply and Battery
Calculations
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. Use #12 AWG wire with 600-volt insulation and proper overcurrent circuit protection that complies with the local codes. Refer to Appendix A: Specifications on page 79 for specifications.
Model Number Description
Power Requirements (All currents are in amperes)
Qty Standby
Total
Standby
Alarm
FX-2003-6DS/-12DS/
-12XTDS/-16LED
FX-2017(S)-12ADS
FX-2009(S)-12DS
ALC-198S
ALC-396S
ALC-H16
Main Chassis (6A/12A)
Main Chass1is (12 Amps)
Large Main Chassis (12A)
Single Analog Loop
Double Analog Loop
Adder Controller
X
X
X
X
X
X
0.230
0.230
0.230
0.050
0.050
0.035
=
=
=
=
=
=
0.380
DM-1008A
SGM-1004A
RM-1008A
FDX-008/KI
UDACT-300A
PR-300
IPS-2424DS
8 initiating circuit Module
4 NAC circuit Module
8 Relay circuit Module
Fan Damper Control Module
Dialer Module
City Tie Module
Programmable Input
Switches Module
X
X
X
X
X
X
X
0.080
0.060
0.025
0.015
0.045
0.035
0.005
=
=
=
=
=
=
=
0.150
0.035
0.120
0.300
0.380
0.380
0.060
0.060
0.050
1 zone active: 0.125
2 zone active: 0.170
4 zone active: 0.275
6 zone active: 0.370
8 zone active: 0.465
0.258
0.022 maximum
RAX-1048TZDS
RAM-1032TZDS
MGD-32
Adder Annunciator Chassis
Main Remote Annunciator
Master Graphic Drive
Module
X
X
X
0.022
0.050
0.035
=
=
=
1 zone active: 0.026
2 zone active: 0.030
3 zone active: 0.035
4 zone active: 0.039
48 zone active: 0.262
32 zone active: 0.300
__(# of LEDs) x 4mA
(Refer to LT-847 if using lamps)
=
=
=
=
=
=
=
=
=
=
Total
Alarm
=
=
=
=
=
92
Appendix C: Power Supply and Battery Calculations
AGD-048
Adder Graphic Driver
Module
Two-Wire Smoke Detectors
MIX-1251/A Analog Ion Smoke Detector
MIX-2251B/A Analog Photo Smoke Detector
5551A/RA Analog Thermal Sensor
MIX-M500MA/MB, MIX-M501MA/MB Monitor
MIX-M500S/R Monitor Module
M500X Fault Isolator Module
B254BI/A Analog Base with Isolator
Four-Wire Smoke Detectors
Signal Load (bells, horns, strobes, and etc.)
Auxiliary Power Supply for Remote Annunciators
Total currents (Add above currents)
X
X
X
X
X
X
X
X
X
X
X
0.035
♦
0.0001
200μA
230μA
200μA
400μA
300μA
450μA
450μA
STANDBY
=
=
=
=
=
=
=
=
=
=
=
(A)
__(# of LEDs) x 4mA
(Refer to LT-847 if using lamps)
*
0.090
0.0065
0.0065
0.007
0.0051/0.0055
0.0051
450μA
0.005
Alarm
=
Total Current Requirement:
ALARM (B)______ Amps.
Battery Capacity Requirement:
([STANDBY (A) ______ ] X [(24 or 60 Hours) ___ ]) + ([ALARM (B) ______ ] X [
♣
Alarm in Hr.] _____) = (C) ______AH
= 0.090
=
=
=
=
=
=
=
=
=
=
(B)
Main Chassis Selection: Select FX-2003-6DS or FX-2003-6DS-16LED or FX-2009(S)-12DS or
FX-2017(S)-12DS if (B) value is less than 12 Amps.
Battery Selection: Multiply (C) by 1.20 to derate battery.
Batteries:
BA-110(10AH), BA-117(17AH) will fit in the UB-1024DS
BA-124 (24AH) will fit in the BBX-1072ADS/ARDS, BB-5008, or the BB-5014
BA-140(40AH) will fit in the BC-160 battery cabinet
* Assuming three initiating circuits in alarm.
♣
Use 0.084 for five minutes of alarm or 0.5 for thirty minutes of alarm as a multiplier figure.
♦
Using the System Sensor 2W-B (or C2W-BA) 2-wire smoke detector. See Appendix B: Compatible Devices on
page 85
for other available smoke detectors.
93
Appendix D: Remote Annunciator Panels
15.0
Appendix D: Remote Annunciator Panels
15.1 RA-1000 & RAM-200 Series
The RA-1000 Series of remote annunciators are units with electrical modules and enclosures matching the configurations of the FX-2000 Series Fire Alarm Control Panels. For detailed information see Mircom Documents RA-1000 Manual LT-617, RAM-208 Manual LT-648, RAM-
216 Manual LT-658 and MGD-32 Manual LT-847.
15.1.1
RA-1000 & RAM-200
Models
RAM-1032TZDS
Main Annunciator Chassis with common indicators and controls, and 32circuit capacity.
RAX-1048TZDS
Adder Annunciator Chassis with 48 circuit capacity.
RAM-1016
RAM-208/R
RAM-216/R
Non-Expandable Annunciator Chassis with common indicators and controls, and 16-circuit capacity.
Non-Expandable Annunciator Chassis with limited common indicators and controls, and eight-circuit capacity. Standard beige colour RAM-208,
RAM-208R is red.
Non-Expandable Annunciator Chassis with limited common indicators and controls, and 16-circuit capacity. Standard beige colour RAM-216,
RAM-216R is red.
15.1.2 Graphic Annunciators
MGD-32
AGD-048
Main Graphic Annunciator Chassis with common indicators and controls, and 32-circuit capacity.
Adder Graphic Annunciator Chassis with 48-circuit capacity.
15.1.3 Enclosures
BB-1001/R
BB-1002/R
BB-1003/R
BB-1008/R
BB-1012/R
Capacity for one annunciator chassis.
Capacity for two annunciator chassis.
Capacity for three annunciator chassis.
Capacity for eight annunciator chassis.
Capacity for twelve annunciator chassis.
15.2 RAX-LCD
The RAX-LCD Remote Shared Display is a remote annunciator that provides the same functions as the main display on the fire alarm control panel, less 16 zone LEDs. It is equipped with a large 4 line x 20 character backlit alphanumeric LCD 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 document LT-856.
94
Appendix D: Remote Annunciator Panels
15.2.1 Models
RAX-LCD
RAX-1048TZDS
IPS-2424
Main Annunciator Chassis with Common Indicators and Controls.
Adder Annunciator Chassis with 48 Circuit Capacity.
Programmable Input Switches module with 48 display points and 24 buttons.
15.2.2 Enclosures
Enclosures are:
•
Finish painted, textured, off-white (standard), suffix R for red (for other paint available colours and finishes, please contact factory).
•
Material 8 G.A. cold roll steel (CRS).
BB-1001/R
BB-1002/R
BB-1003/R
Capacity for one annunciator chassis.
Capacity for two annunciator chassis.
Capacity for three annunciator chassis.
95
Appendix E: DIP Switch Settings Summary
16.0
Appendix E: DIP Switch Settings Summary
ADDR
33
34
35
48
49
50
51
44
45
46
47
40
41
42
43
36
37
38
39
56
57
58
59
52
53
54
55
60
61
62
63
SW1-1 SW1-2 SW1-3 SW1-4 SW1-5 SW1-6 SW1-7 SW1-8
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ADDR
33
34
35
36
37
38
39
SW1-1 SW1-2 SW1-3 SW1-4
ON
OFF
ON
OFF
ON
OFF
OFF
ON
ON
OFF
OFF
ON
OFF
OFF
OFF
ON
ON
ON
ON
when used with FX-2000 version
2.X.X or higher(16 bit checksum). OFF when used with FX-2000 version 0.X.X(8 bit checksum). MGD must be 1.05 or higher to accept 16 bit checksum.
ON ON ON
96
Appendix E: DIP Switch Settings Summary
ADDR
33
57
58
59
60
61
62
63
53
54
55
56
49
50
51
52
45
46
47
48
41
42
43
44
34
35
36
37
38
39
40
SW1-1
OFF
OFF
ON
OFF
ON
OFF
ON
OFF
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
ON
OFF
ON
OFF
ON
OFF
ON
SW1-2 SW1-3 SW1-4 SW1-5 SW1-6 SW1-7 SW1-8
ON ON ON ON OFF ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
OFF
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
OFF
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ADDR
33
34
35
36
37
38
39
40
SW1-1
ON
OFF
ON
OFF
ON
OFF
ON
OFF
SW1-2 SW1-3 SW1-4
OFF OFF OFF
ON
ON
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
ON
ON
ON
OFF
OFF
ON
OFF
ON
OFF
OFF
ON
JP-1
JUMPER ON Pins 2&3 when used with FX-2000 version
2.X.X or higher(16 bit checksum). JUMPER ON
Pins 1&2 when used with FX-
2000 version 0.X.X(8 bit checksum). Firmware of 208/
216 must be 1.0.6 or higher to accommodate 16 bit
97
Appendix F: Alarm Verification Timing
ADDR
1
25
26
27
28
29
30
21
22
23
24
17
18
19
20
13
14
15
16
9
10
11
12
6
7
8
4
5
2
3
SW1-1 SW1-2 SW1-3 SW1-4 SW1-5 SW1-6 SW1-7 SW1-8
OFF ON ON ON ON ON ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
ON
OFF
ON
OFF
ON
OFF
ON
ON
OFF
OFF
ON
ON
OFF
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
OFF
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
OFF
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
17.0
Appendix F: Alarm Verification Timing
ULI Retard / Reset / Restart
60s Maximum
ON
OFF
3s 1s 10s
These intervals are determined by the maximum Detector Reset time, which is 1s for our uses.
(40s)
ULI Confirmation Period
60s Minimum
This interval is determined by the maximum
(65s)
Detector Start-up time, which is 35s for our uses.
A Manual Station, or other contact-closure device, would remain shorted and be detected during the very short Zone Power burst within the first three seconds. A Smoke Detector will have been reset, and will require some minimum time to power-up, thus the Verification cycle will be entered.
98
18.0
Appendix G: Wiring For Supervised Output Module
BPS -1100
Booster
Power Supply
CSIS - 202A
Supervised Signal
Isolator #1
ROOM1
RETURN
ROOM1
OUT
SIGNAL
IN
ROOM 2
RETURN
ROOM 2
OUT
SIGNAL
OUT
CSIS - 202A
Supervised Signal
Isolator #2
ROOM1
RETURN
ROOM1
OUT
SIGNAL
IN
ROOM 2
RETURN
ROOM 2
OUT
SIGNAL
OUT
ALC- 198S
Single Loop Adder
LOOP 8
A
B
+
-
+
-
MIX-500X
Isolator
SC+
SC-
SC+
SC-
Detectors (Addr)
ION: 1-7, 11-25
Photo: 8-10
MIX-500X
SC+
Isolator
SC-
SC+
SC-
Detectors (Addr)
ION: 29-50
Photo: 26-28
SC+
MIX-500X
Isolator
SC-
SC+
SC
SC+
SC-
SC+
SC-
MIX-500X
Isolator
Detectors (Addr)
ION: 76-79, 83-99
Photo: 80-82
MIX-500S (Addr . 121)
SC+
SC-
SC+
SC-
24V IN +
24V IN -
24V OUT+
24V OUT-
OUT +
OUT -
Supv . output module (SO )
EOL
ZONE 1
Next Devices:
MIX-500M (Addr. 101-120, 122-125)
MIX-500S (Addr . 150)
SC+
SC-
SC+
SC-
24V IN +
24V IN -
24V OUT+
24V OUT-
OUT +
OUT -
Supv . output module (SO)
EOL
ZONE 2
Next Devices:
MIX-500M (Addr. 126-149)
Next Detectors
ION: Addr. 51-53
Photo: Addr. 54-75
MIX-500S (Addr . 171)
SC+
SC-
SC+
SC-
24V IN +
24V IN -
24V OUT+
24V OUT-
OUT +
OUT -
Supv . output module (SO)
EOL
ZONE 3
ZONE 4
Next Devices:
MIX-500M (Addr. 151-169)
MIX-500R (Addr. 170, 172-199)
Figure 48 UL 864 Wiring for Addressable Supervised Output Module
Warranty & Warning Information
19.0
Warranty & Warning Information
19.1 Warning Please Read Carefully
Note to End Users: This equipment is subject to terms and conditions of sale as follows:
19.1.1 Note to Installers
This warning contains vital information. As the only individual in contact with system users, it is your responsibility to bring each item in this warning to the attention of the users of this system. Failure to properly inform system end-users of the circumstances in which the system might fail may result in overreliance upon the system. As a result, it is imperative that you properly inform each customer for whom you install the system of the possible forms of failure.
19.1.2 System Failures
This system has been carefully designed to be as effective as possible. There are circumstances, such as fire or other types of emergencies where it may not provide protection. Alarm systems of any type may be compromised deliberately or may fail to operate as expected for a variety of reasons. Some reasons for system failure include:
•
Inadequate Installation
A Fire Alarm system must be installed in accordance with all the applicable codes and standards in order to provide adequate protection. An inspection and approval of the initial installation, or, after any changes to the system, must be conducted by the Local Authority Having Jurisdiction. Such inspections ensure installation has been carried out properly.
•
Power Failure
Control units, smoke detectors and many other connected devices require an adequate power supply for proper operation. If the 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. If a device operates only by AC power, any interruption, however brief, will render that device inoperative while it does not have power. Power interruptions of any length are often accompanied by voltage fluctuations which may damage electronic equipment such as a fire alarm system. After a power interruption has occurred, immediately conduct a complete system test to ensure that the system operates as intended.
•
Failure of Replaceable Batteries
Systems with wireless transmitters have been designed to provide several years of battery life under normal conditions. The expected battery life is a function of the device environment, usage and type.
Ambient conditions such as high humidity, high or low temperatures, or large temperature fluctuations may reduce the expected battery life. While each transmitting device has a low battery monitor which identifies when the batteries need to be replaced, this monitor may fail to operate as expected. Regular testing and maintenance will keep the system in good operating condition.
•
Compromise of Radio Frequency (Wireless) Devices
Signals may not reach the receiver under all circumstances which could include metal objects placed on or near the radio path or deliberate jamming or other inadvertent radio signal interference.
•
System Users
A user may not be able to operate a panic or emergency switch possibly due to permanent or temporary physical disability, inability to reach the device in time, or unfamiliarity with the correct operation. It is important that all system users be trained in the correct operation of the alarm system and that they know how to respond when the system indicates an alarm.
•
Automatic Alarm Initiating Devices
Smoke detectors, heat detectors and other alarm initiating devices that are a part of this system may not properly detect a fire condition or signal the control panel to alert occupants of a fire condition for a number of reasons, such as: the smoke detectors or heat detector may have been improperly installed or
100
Warranty & Warning Information positioned; smoke or heat may not be able to reach the alarm initiating device, such as when the fire is in a chimney, walls or roofs, or on the other side of closed doors; and, smoke and heat detectors may not detect smoke or heat from fires on another level of the residence or building.
•
Software
Most Mircom products contain software. With respect to those products, Mircom does not warranty that the operation of the software will be uninterrupted or error-free or that the software will meet any other standard of performance, or that the functions or performance of the software will meet the user’s requirements. Mircom shall not be liable for any delays, breakdowns, interruptions, loss, destruction, alteration or other problems in the use of a product arising our of, or caused by, the software.
Every fire is different in the amount and rate at which smoke and heat are generated. Smoke detectors cannot sense all types of fires equally well. Smoke detectors may not provide timely warning of fires caused by carelessness or safety hazards such as smoking in bed, violent explosions, escaping gas, improper storage of flammable materials, overloaded electrical circuits, children playing with matches or arson.
Even if the smoke detector or heat detector operates as intended, there may be circumstances when there is insufficient warning to allow all occupants to escape in time to avoid injury or death.
•
Alarm Notification Appliances
Alarm Notification Appliances such as sirens, bells, horns, or strobes may not warn people or waken someone sleeping if there is an intervening wall or door. If notification appliances are located on a different level of the residence or premise, then it is less likely that the occupants will be alerted or awakened. Audible notification appliances may be interfered with by other noise sources such as stereos, radios, televisions, air conditioners or other appliances, or passing traffic. Audible notification appliances, however loud, may not be heard by a hearing-impaired person.
•
Telephone Lines
If telephone lines are used to transmit alarms, they may be out of service or busy for certain periods of time. Also the telephone lines may be compromised by such things as criminal tampering, local construction, storms or earthquakes.
•
Insufficient Time
There may be circumstances when the system will operate as intended, yet the occupants will not be protected from the emergency due to their inability to respond to the warnings in a timely manner. If the system is monitored, the response may not occur in time enough to protect the occupants or their belongings.
•
Component Failure
Although every effort has been made to make this system as reliable as possible, the system may fail to function as intended due to the failure of a component.
•
Inadequate Testing
Most problems that would prevent an alarm system from operating as intended can be discovered by regular testing and maintenance. The complete system should be tested as required by national standards and the Local Authority Having Jurisdiction and immediately after a fire, storm, earthquake, accident, or any kind of construction activity inside or outside the premises. The testing should include all sensing devices, keypads, consoles, alarm indicating devices and any other operational devices that are part of the system.
•
Security and Insurance
Regardless of its capabilities, an alarm system is not a substitute for property or life insurance. An alarm system also is not a substitute for property owners, renters, or other occupants to act prudently to prevent or minimize the harmful effects of an emergency situation.
101
102
Warranty & Warning Information
IMPORTANT NOTE: End-users of the system must take care to ensure that the system, batteries, telephone lines, etc. are tested and examined on a regular basis to ensure the minimization of system failure.
19.2 Limited Warranty
Mircom Technologies Ltd. together with its subsidiaries and affiliates (collectively, the “Mircom Group of
Companies”) warrants the original purchaser that for a period of three years from the date of shipment, the product shall be free of defects in materials and workmanship under normal use. During the warranty period, Mircom shall, at its option, repair or replace any defective product upon return of the product to its factory, at no charge for labor and materials. Any replacement and/or repaired parts are warranted for the remainder of the original warranty or ninety (90) days, whichever is longer. The original owner must promptly notify Mircom in writing that there is defect in material or workmanship, such written notice to be received in all events prior to expiration of the warranty period.
19.2.1 International Warranty
The warranty for international customers is the same as for any customer within Canada and the United
States, with the exception that Mircom shall not be responsible for any customs fees, taxes, or VAT that may be due.
19.2.2 Conditions to Void Warranty
This warranty applies only to defects in parts and workmanship relating to normal use. It does not cover:
•
damage incurred in shipping or handling;
•
damage caused by disaster such as fire, flood, wind, earthquake or lightning;
•
damage due to causes beyond the control of Mircom such as excessive voltage, mechanical shock or
•
water damage;
•
damage caused by unauthorized attachment, alterations, modifications or foreign objects;
•
damage caused by peripherals (unless such peripherals were supplied by Mircom);
•
defects caused by failure to provide a suitable installation environment for the products;
•
damage caused by use of the products for purposes other than those for which it was designed;
•
damage from improper maintenance;
•
damage arising out of any other abuse, mishandling or improper application of the products.
19.3 Warranty Procedure
To obtain service under this warranty, please return the item(s) in question to the point of purchase. All authorized distributors and dealers have a warranty program. Anyone returning goods to Mircom must first obtain an authorization number. Mircom will not accept any shipment whatsoever for which prior authorization has not been obtained. NOTE: Unless specific pre-authorization in writing is obtained from Mircom management, no credits will be issued for custom fabricated products or parts or for complete fire alarm system. Mircom will at its sole option, repair or replace parts under warranty.
Advance replacements for such items must be purchased.
Note: Mircom’s liability for failure to repair the product under this warranty after a reasonable number of attempts will be limited to a replacement of the product, as the exclusive remedy for breach of warranty.
Warranty & Warning Information
19.4 Disclaimer of Warranties
This warranty contains the entire warranty and shall be in lieu of any and all other warranties, whether expressed or implied (including all implied warranties of merchantability or fitness for a particular purpose) And of all other obligations or liabilities on the part of Mircom neither assumes nor authorizes any other person purporting to act on its behalf to modify or to change this warranty, nor to assume for it any other warranty or liability concerning this product.
This disclaimer of warranties and limited warranty are governed by the laws of the province of
Ontario, Canada.
19.5 Out of Warranty Repairs
Mircom will at its option repair or replace out-of-warranty products which are returned to its factory according to the following conditions. Anyone returning goods to Mircom must first obtain an authorization number. Mircom will not accept any shipment whatsoever for which prior authorization has not been obtained.
Products which Mircom determines to be repairable will be repaired and returned. A set fee which Mircom has predetermined and which may be revised from time to time, will be charged for each unit repaired.
Products which Mircom determines not to be repairable will be replaced by the nearest equivalent product available at that time. The current market price of the replacement product will be charged for each replacement unit.
The foregoing information is accurate as of the date of publishing and is subject to change or revision without prior notice at the sole discretion of the Company
WARNING: Mircom recommends that the entire system be completely tested on a regular basis.
However, despite frequent testing, and due to, but not limited to, criminal tampering or electrical disruption, it is possible for this product to fail to perform as expected.
NOTE: Under no circumstances shall Mircom be liable for any special, incidental, or consequential damages based upon breach of warranty, breach of contract, negligence, strict liability, or any other legal theory. Such damages include, but are not limited to, loss of profits, loss of the product or any associated equipment, cost of capital, cost of substitute or replacement equipment, facilities or services, down time, purchaser’s time, the claims of third parties, including customers, and injury to property.
MIRCOM MAKES NO WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR
PURPOSE WITH RESPECT TO ITS GOODS DELIVERED, NOR IS THERE ANY OTHER WARRANTY,
EXPRESSED OR IMPLIED, EXCEPT FOR THE WARRANTY CONTAINED HEREIN.
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CANADA - Main Office
25 Interchange Way
Vaughan, ON L4K 5W3
Tel: (888) 660-4655
(905) 660-4655
Fax: (905) 660-4113
U.S.A
4575 Witmer Industrial Estates
Niagara Falls, NY 14305
Tel: (888) 660-4655
(905) 660-4655
Fax: (905) 660-4113
TECHNICAL SUPPORT
North America
Tel: (888) Mircom5
(888) 647-2665
International
Tel: (905) 647-2665
© Mircom 2015
Printed in Canada
Subject to change without prior notice www.mircom.com
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