Hochiki HCP 1000 Series User manual
LNOTICE
All information, documentation, and specifications contained in this manual are subject to
change without prior notice by the manufacturer.
HCP 1000 SERIES
Microprocessor Based - Fire Alarm Control Panel
INSTALLATION and OPERATION MANUAL
©2000 by Hochiki America Corporation
Printed September 6, 2000
LT-600HOC Rev.4 (Operating Instruction is NP-739HOC Rev.3)
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TABLE of CONTENTS
1.0 INTRODUCTION .................................................................................Page 3 of 52
1.1 OVERALL FEATURES: ........................................................................Page 3 of 52
1.2 CONTROLS AND INDICATORS .................................................................Page 3 of 52
2.0 GENERAL NOTES ................................................................................Page 4 of 52
3.0 SYSTEM COMPONENTS ..........................................................................Page 5 of 52
3.1 CHASSIS TYPES ...........................................................................Page 6 of 52
3.2 SERIES 1000 FIRE ALARM CONTROL PANEL - KITS ...............................................Page 6 of 52
4.0 MECHANICAL INSTALLATION and DIMENSIONS .....................................................Page 7 of 52
4.1 MAIN CHASSIS INSTALLATION ...............................................................Page 9 of 52
4.2 MAIN & EXPANDER CHASSIS INSTALLATION ....................................................Page 10 of 52
5.0 MODULES MOUNTING LOCATIONS ................................................................Page 11 of 52
6.0 MODULE SETTINGS ..............................................................................Page 14 of 52
6.1 MAIN FIRE ALARM MODULE (Part of Main Chassis) ................................................Page 14 of 52
6.2 MAIN DISPLAY MODULE (Part of Main Chassis) ...................................................Page 15 of 52
6.3 ADDER DISPLAY MODULE (Part of Expander Chassis) .............................................Page 17 of 52
6.4 DETECTION ADDER MODULE (Model HDM-1008A) ................................................Page 18 of 52
6.5 SIGNAL ADDER MODULE (Model HSGM-1004A) ...................................................Page 18 of 52
6.6 RELAY ADDER MODULE (Model HRM-1008A) .....................................................Page 19 of 52
6.7 DACT/DIALLER MODULE (Model HUDACT-100) ....................................................Page 19 of 52
6.8 POLARITY REVERSAL and CITY TIE MODULE (MODEL: HPR-100) ....................................Page 20 of 52
7.0 FIELD WIRING ..................................................................................Page 21 of 52
7.1 MAIN FIRE ALARM MODULE TERMINAL CONNECTIONS ...........................................Page 21 of 52
7.2 DETECTION MODULE (HDM-1008A) TERMINAL CONNECTIONS .....................................Page 23 of 52
7.3 SIGNAL MODULE (HSGM-1004A) TERMINAL CONNECTIONS ........................................Page 24 of 52
7.4 RELAY MODULE (HRM-1008A) TERMINAL CONNECTIONS ..........................................Page 25 of 52
7.5 HUDACT-100 MAIN BOARD TERMINAL CONNECTIONS .............................................Page 26 of 52
7.6 POLARITY REVERSAL and CITY TIE MODULE (MODEL: HPR-100) TERMINAL CONNECTIONS ............Page 27 of 52
7.7 POWER SUPPLY CONNECTIONS ..............................................................Page 28 of 52
7.8 WIRING TABLES & INFORMATION .............................................................Page 29 of 52
WIRING TABLE FOR INITIATING CIRCUITS ......................................................Page 29 of 52
WIRING TABLE FOR INDICATING CIRCUITS .....................................................Page 29 of 52
8.0 SYSTEM CHECKOUT ............................................................................Page 30 of 52
8.1 BEFORE TURNING THE POWER "ON" ..........................................................Page 30 of 52
8.2 POWER-UP PROCEDURE ....................................................................Page 30 of 52
8.3 TROUBLESHOOTING ........................................................................Page 30 of 52
9.0 INDICATORS, CONTROLS, & OPERATION ............................................................Page 31 of 52
9.1 COMMON INDICATORS ......................................................................Page 32 of 52
9.2 COMMON CONTROLS .......................................................................Page 33 of 52
9.3 CIRCUIT STATUS INDICATORS ................................................................Page 33 of 52
9.4 CIRCUIT (ZONE) DISCONNECT SWITCHES ......................................................Page 34 of 52
9.5 SINGLE STAGE OPERATION ..................................................................Page 34 of 52
9.6 TWO STAGE OPERATION ....................................................................Page 35 of 52
9.7 CIRCUIT TYPES ............................................................................Page 36 of 52
10.0 SYSTEM CONFIGURATION ........................................................................Page 37 of 52
10.1 INTRODUCTION TO CONFIGURATION .........................................................Page 37 of 52
10.2 ENTERING CONFIGURATION MODE ...........................................................Page 39 of 52
10.3 EXITING CONFIGURATION MODE .............................................................Page 39 of 52
10.4 FACTORY DEFAULT CONFIGURATION .........................................................Page 39 of 52
10.5 RESTORE TO DEFAULT / RESIZE (CLASS A or B) ................................................Page 40 of 52
10.6 RESIZE SYSTEM (SET CIRCUIT ADDER MODULE NUMBER & TYPE) .................................Page 40 of 52
10.7 CONFIGURING FEATURES ...................................................................Page 41 of 52
10.8 CONFIGURING INITIATING AND INDICATING CIRCUITS ...........................................Page 42 of 52
10.9 CONFIGURING CIRCUIT CORRELATIONS .......................................................Page 42 of 52
10.10 DISPLAY CONFIGURATION ..................................................................Page 43 of 52
11.0 WALK TEST OPERATION .........................................................................Page 45 of 52
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APPENDIX "A" - COMPATIBLE DEVICES ...............................................................Page 46 of 52
APPENDIX "B" - HRA-1000 REMOTE ANNUNCIATOR PANELS ...............................................Page 49 of 52
APPENDIX "C" - MODULE SPECIFICATIONS and FEATURES ...............................................Page 50 of 52
APPENDIX "D" - POWER SUPPLY & BATTERY CALCULATIONS (SELECTION GUIDE) ...........................Page 51 of 52
WARRANTY ........................................................................................Page 52 of 52
TABLE of FIGURES
Fig.1: HBB-1024 Flush or Surface Enclosure Installation and Dimensions ............... Page 7 of 52
Fig.1A: HBB-1072 Flush or Surface Enclosure Installation and Dimensions ............... Page 8 of 52
Fig.2: Main Chassis Installation .................................................. Page 9 of 52
Fig.3: Expander Chassis Installation .............................................. Page 10 of 52
Fig.4: Module Mounting Locations ............................................... Page 12 of 52
Fig.4A: Circuit Adder Module M ounting Details ...................................... Page 13 of 52
Fig.5: Main Fire Alarm Module ................................................... Page 14 of 52
Fig.6: Main Display Module (HMCC1024-6, HMCC1024-12) ............................ Page 15 of 52
Fig.6A: Main Display Module (HMCC1024-6S, HMCC1024-12S) ......................... Page 16 of 52
Fig.7: Adder Display Module ..................................................... Page 17 of 52
Fig.8: Detection Adder M odule ................................................... Page 18 of 52
Fig.9: Signal Adder Module ...................................................... Page 18 of 52
Fig.10: Relay Adder Module ...................................................... Page 19 of 52
Fig.11: HUDACT-100 Digital Com municator Module .................................. Page 19 of 52
Fig.12: City Tie Module .......................................................... Page 20 of 52
Fig.13: Main Fire Alarm Module Terminal Connections ................................ Page 21 of 52
Fig.14: Main Fire Alarm Module Terminal Connections (continued) ..................... Page 22 of 52
Fig.15: Detection Module Terminal Connections ..................................... Page 23 of 52
Fig.16: Signal Module Terminal Connections ........................................ Page 24 of 52
Fig.17: Relay Module Terminal Connections ........................................ Page 25 of 52
Fig.17A:HUDACT-100 Terminal Connection .......................................... Page 26 of 52
Fig.18: Polarity Reversal and City Tie Module Terminal Connections .................... Page 27 of 52
Fig.19: Power Supply Connections ................................................ Page 28 of 52
Fig.20: WIRING TABLE FOR INITIATING CIRCUITS ................................... Page 29 of 52
Fig.21: WIRING TABLE FOR INDICATING CIRCUITS .................................. Page 29 of 52
Fig.22: Indicators and Control Location ............................................ Page 31 of 52
Fig.23: Configuration Indicators and Controls ....................................... Page 37 of 52
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1.0 INTRODUCTION
Introduction :
Hochiki’s SERIES HCP 1000 Fire Alarm Control Units provide a large capacity of supervised Class A or B (UL Style
Dor B) Initiating Circuits, and supervised Class A or B (UL Style Z or Y) Indicating Circuits. All Circuits are supervised
for opens and ground faults, and Indicating Circuits for shorts. Optional Modules include additional Initiating and
Indicating Circuits, Relay, and Polarity Reversal & City Tie. Flush or surface mountable enclosures can be used for
retrofits and on new installations.
1.1 Overall Features:
TBasic unit has 8 Class B (Style B) Initiating Circuits which may be configured as 4 Class A (Style D) Circuits.
These are configurable as Alarm, Verified Alarm, Waterflow Alarm, Sprinkler Alarm, Latching or Non-Latching
Supervisory, or Trouble-Only Circuits. There are two LED’s per Circuit; one for Trouble (Amber), and one for
Status (Red/Amber).
TBasic unit has 4 Power Limited Class A/B (Style Z/Y) Indicating Circuits with individual trouble indicators. Each
Circuit can be configured as Audible (silenceable) orVisual (non-silenceable). Audibles m ay be steady,
Temporal Code, California Code, or March Time.
TInitiating and Indicating Circuits may be individually Disconnected by a DIP Switch (Slide-Switch on “S”
Versions for the USA Market only).
TConfigurable Signal Silence Inhibit, Auto Signal Silence, Two-Stage Operation, One-Man W alk Test.
TSubsequent Alarm, Supervisory, and Trouble operation
TTwo outputs for 4 wire resettable smoke power supply (200 mA each Max., 300 m A total Max.)
TAuxiliary Relay Contacts for Common Alarm and Common Supervisory (disconnectable), and a Common
Trouble relay.
TRS-485 Interface for HRA-1000 Series Remote Multiplex Annunciators.
TOptionalModules for additional Initiating, Indicating, & Relay Circuits,& City Tie & Polarity Reversal Signalling.
TEasy Configuration via Push-Buttons and Switches.
TExtensive transient protection
TSurface Mountable Enclosures, F lush Trims Available
1.2 Controls and Indicators: 8 Push-Buttons, 16 Common Indicators, provision for up to 24 Circuits
(Expansion Chassis adds provision for up to another 48 Circuits)
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2.0 GENERAL NOTES
Number of Adders that may be Installed:
The maxim um num ber of Circuit Adder M odules that may be physically installed in a System is ...
Main Chassis Type
HMCC1024-6(S) or HMCC1024-12(S) Two Circuit Adder Modules of any type.
HMCC1024-6(S) or HMCC1024-12(S) and HECH1048 Eight Circuit Adder Modules of any type.
The “S” Version Chassis’ have Slide-Switches instead of DIP Switches for Disconnects. The maximum number of each
Circuit Adder Module type is ...
A maximum of 7 HDM-1008A 8 Initiating Circuit Modules (total of 64 Initiating Circuits in a system).
A maximum of 5 HSGM-1004A 4 Indicating Circuit Modules (total of 24 Indicating Circuits in a system).
A maximum of 4 HRM-1008A 8 Relay Circuit Modules (total of 32 Relay Circuits in a system).
MAXIMUM OF 8 ADDER MODULES OF ANY COMBINATION PER SYSTEM.
Any HCP-1000 System may have a HPR-100 or HUDACT-100 added, and up to eight (8) Remote Multiplex
Annunciators externally. As good practice, it is recomm ended that Circuit Adder Modules be installed in the order
of Signals followed by Detection, followed by Relay Modules.
Circuits and Zones:
“Circuits” refers to an actual electrical interface, Initiating (Detection), Indicating (Signal), or Relay.
“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.
Display Points:
On the HCP-1000 an important concept is Display Points. Unlike some products the available LED Displays and
matching Circuit Disconnect Switches are not hard-wired to the Circuit Adder Modules. The Main Fire Alarm Module
and each Circuit Adder Module type have a required number of Display Points specified. In the case of Initiating
Circuits this will be reduced by half if Class “A” operation is selected. Different Main and Expander Chassis provide
afixed number of Display Points on their attached Display Boards. These are assigned during the Configuration Adder
Module Number and Type operation (see Configuration Section) as required in the cabling order in which Adder
Modules are installed. In any system setup, there must be at least as many Display Points available, as those required
by the Circuits.
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 Configuration Section. 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.
Indicating Circuits may be individually wired as Class A (Style Z) or Class B (Style Y) without affecting the number
of circuits available (see Module wiring instructions).
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3.0 SYSTEM COMPONENTS
Model: HBB-1024 Surface Enclosure 24 Circuits
HBB-1072 Surface Enclosure 72 Circuits
(add suffix R for Red Enclosure)
Model: HFA-1024TR Flush Trim Ring
HFA-1072TR Flush Trim Ring
(add another suffix R for Red Enclosure)
Model: Batteries (6.5 to 40 AH)
Model: HM CC1024-6 6 A Main Chassis
HMCC1024-12 12 A Main Chassis
(add Suffix S for Slide Switches)
Model: HECH1048 48 Display Expander Chassis
Model: Circuit Adder Modules
HDM-1008A, HSGM-1004A. HRM-1008A,
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Model: HPR-100 Polarity Reversal and
City Tie Module
HRA-1000 Series Remote Multiplex
Annunciator Panels
3.1 CHASSIS TYPES
Model: HM CC1024-6 Main Chassis with 8 Style B / 4 Style D Initiating Circuits, 4 Style Y or Z Indicating
Circuits, and a 6 am pere Power Supply. See Module Specifications for more detail.
Model: HMCC1024-12 Same as HMCC1024-6, but with a 12 ampere Power Supply. See Module Specifications
for more detail.
Model: HMCC1024-6S Same as HM CC1024-6, but with Disconnect Slide Switches instead of DIP Switches.
Model: HMCC1024-12S Same as HMCC1024-12, but with Disconnect Slide Switches instead of DIP Switches.
Model: HECH1048 Expander Chassis for up to 48 additional Zones / Circuits. DIP Switches for Disconnect
only. See Module Specifications for more detail.
3.2 HCP SERIES 1000 FIRE ALARM CONTROL PANEL - KITS
Model: HCP-1008E Expandable Kit for the Canadian Market, 8 Class B (or 4 Class A) Initiating & 4 (Class
Aor B) Indicating Circuits, Expandable to 24 Circuits, 6 Amp Power Supply (HMCC1024-
6 Main Chassis in a HBB-1024 Enclosure).
Model: HCP-1008ES Expandable Kit for the USA Market, 8 Class B (or 4 Class A) Initiating & 4 (Class A
or B) Indicating Circuits, Expandable to 24 Circuits, 6 Amp Power Supply
(HMCC1024-6 Main Chassis in a HBB-1024R Enclosure).
For any other sizes, etc., components are ordered separately.
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Fig.1: HBB-1024 Flush or Surface Enclosure Installation and Dimensions
4.0 MECHANICAL INSTALLATION and DIMENSIONS
Install the enclosure as shown for the HBB-1024 (Fig.1) or HBB-1072 (Fig.1A) ...
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Fig.1A: HBB-1072 Flush or Surface Enclosure Installation and Dimensions
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Fig.2: Main Chassis Installation
4.1 MAIN CHASSIS INSTALLATION
The Main Chassis is installed in the HBB-1024 Backbox as shown using the supplied hex-nuts. 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. Use a wire tie to group wires for easy identification and neatness.
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.
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Fig.3: Expander Chassis Installation
4.2 MAIN & EXPANDER CHASSIS INSTALLATION
The Main and Expander Chassis’ are installed into the HBB-1072 Enclosure as shown using the supplied hex-nuts.
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. Use a wire tie to group wires for easy identification and
neatness.
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 BOTH the Main Chassis and the Expander
Chassis to the ground screw on the Backbox.
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5.0 MODULES MOUNTING LOCATIONS
The Main Chassis’ in a HBB-1024 or HBB-1072 Enclosure come pre-assembled with all power supply, main panel, and display
components and boards. The Expander Chassis has the display board pre-assembled. The HPR-100 City Tie Module or
HUDACT-100 Digital Communicator may be added on the left side, as shown in the figure on the following page. These
Modules connect directly to the dedicated P2 connection in the upper-left corner of the Main Fire Alarm Module. Circuit Adder
Modules are installed from right to left using the supplied stand-offs, as shown in the figure on the next page, with the first Module
plugging its 26 pin ribbon cable into P5 on the Main Fire Alarm Module, and using the included HMD-579 four wire power cable
as described in the Module Settings section. A second Circuit Adder Module would connect by plugging its 26 pin cable into the
matching socket on the previous module to the right, and by installing the supplied HMD-579 four wire power cable as described
in the appropriate Module Settings section.
In a HBB-1072 Enclosure with an Expander Chassis, there are two each of long extension cables for the 26 pin ribbon cable
(HMD-575)and for the four wire power cable (HMD-580) included. Circuit Adder Modules are installed as on the Main Chassis,
from right to left in two tiers (back then front). These are cabled as in the Main Chassis, except that the first module on the back
tier to the right connects via HMD-575 and HMD-580 extension cables to the second module in the Main Chassis, and the fourth
module on the front tier to the right connects via HMD-575 and HMD-580 extension cables to the third module on the first tier to
the left. In other words a continuous right to left, bottom to top, and back to front installation order (see the figure on the next
page).
To enable communication from the Main Fire Alarm Module to all of the Circuit Adder Modules, it is necessary to remove the
ContinuityJumper on JW6 (near P5, the Circuit Adder Module Connector) onthe Main Fire Alarm Module. This jumper plug must
be installed on the Continuity Jumper on the last installed Circuit Adder Module (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 !!
There needs to be enough Display Points for each circuit on an Adder Module, and these are assigned during Configuration (see
Configuration Section) in the order in which the Adders are electrically installed (the order in which they have their cables
connected to each other). Both the number of points available for each Display Type, and the number required for each Circuit
Adder Module Type are described in the Module Settings Section.
As good practice, it is recommended that Circuit Adder Modules be installed in the order of Detection followed by Signals, followed
by Relay Modules.
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Fig.4: Module Mounting Locations
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Fig.4A: Circuit Adder Module Mounting Details
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Fig.5: Main Fire Alarm Module
6.0 MODULE SETTINGS
6.1 MAIN FIRE ALARM MODULE (Part of Main Chassis)
JW5Jumper installed for Class A (Style D) operation of Initiating Circuits 1 and 2.
JW1Jumper installed for Class A (Style D) operation of Initiating Circuits 3 and 4.
JW2Jumper installed for Class A (Style D) operation of Initiating Circuits 5 and 6.
JW3Jumper installed for Class A (Style D) operation of Initiating Circuits 7 and 8.
JW6Continuity Jumper removed if there are any Circuit Adder Modules installed, and installed on the last Circuit Adder Module.
JW4Jumper removed if a HPR-100 Module or HUDACT-100 is installed.
P1 RS-485 Connection for future expansion. P2 Connector for HPR-100 Module or HUDACT-100.
P3 Connector for Display Module (part of HMCH-1024). P4 Connector for future expansion.
P5 Connector for Circuit Adder Modules.P6 Power Connector for Adder Modules.
P7,8 Factory connection to Bridge Rectifier. P9,10 Connection to 24 VDC Battery.
The Main Fire Alarm Module contains the following Circuits, each requiring a certain number of Display Points ...
Chassis Type Initiating Circuits Indicating Circuits Display Points Required
HMCC1024-6(S) 8 Style B / 4 Style D 4 Style Y or Z 8 /4 (Style B / D)
HMCC1024-12(S) 8 Style B / 4 Style D 4 Style Y or Z 8 /4 (Style B / D)
Note that the Main Display Module (part of the Main Chassis) has 4 dedicated Display Points for the 4 Indicating Circuits on the Main Fire
Alarm Module.
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Fig.6: Main Display Module (HMCC1024-6, HMCC1024-12)
6.2 MAIN DISPLAY MODULE (Part of Main Chassis)
P1 Cable connects to P3 of Main Fire Alarm Module.
P2 Connection to P1 of HECH1048 Display Module if used.
SW1 to SW5 See Configuration & Operation sections of Manual.
The Main Display Module provides 4 dedicated Display Points for the 4 Indicating Circuits on the Main Fire Alarm Module. It also provides
the following general purpose Display Points ...
Chassis Type Display Points
\There are also 4 Display Points dedicated to the 4 Main Board Indicating Circuits.
HMCC1024-6 24 > The first 8 or 4 of these (depending upon Style B or D operation) are dedicated
HMCC1024-12 24 /to the 8 / 4 Main Board Initiating Circuits.
Note: The Main Display Module comes with a Label Sheet (NP-680) including both English and French slide-in labels. This sheet may be
run through a Laser Printer for labelling purposes before being installed. The first slide-in section comes in two versions; one for Single-Stage
Systems, and one for Two-Stage Systems.
O
n
t h
e
H
M
C
C
1
0
2
4 -
6
S
a
n
d
H
M
C
C
1
0
2
4 -
1
2
S
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Fig.6A: Main Display Module (HMCC1024-6S, HMCC1024-12S)
Chassis for the USA M arket only, the Main Display Module appears as shown below. The Disconnect DIP-Switches
are replaced by Slide-Switches.
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Fig.7: Adder Display Module
6.3 ADDER DISPLAY MODULE (Part of Expander Chassis)
P1 Cable connects to P2 of Main Display Module.
P2 Not Used.
SW1 to SW6 See Configuration & Operation sections of Manual.
The Adder Display Module provides the following general purpose Display Points ...
Chassis Type Display Points
HECH1048 48
Note that the Adder Display Module comes with a Label Sheet (NP-681) with blank slide-in labels. This sheet may be run through a Laser
Printer for labelling purposes before being installed.
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Fig.8: Detection Adder M odule
Fig.9: Signal Adder Module
6.4 DETECTION ADDER MODULE (M odel HDM-1008A)
P2 Data Cable to P5 of Main Fire
Alarm Module or to previous
Adder Module.
P1 Data Connector for next Adder
Module.
P4 Power Connector to P6 of Main
Fire Alarm Module or to previous
Adder Module.
P3 Power Connector for next Adder
Module.
JW1Jumper installed for Class A
(Style D) operation of Initiating
Circuits 1 and 2.
JW2Jumper installed for Class A
(Style D) operation of Initiating
Circuits 3 and 4.
JW3Jumper installed for Class A
(StyleD) operation of Initiating
Circuits 5 and 6.
JW4Jumper installed for Class A
(Style D) operation of Initiating
Circuits 7 and 8.
JW5Continuity Jumper removed if
there are any more Adder Modules installed.
Jumper JW6 on the Main Fire Alarm Module must be removed if there are any Adder Modules installed.
The HDM-1008A requires 8 Display Points for Style B operation, and 4 for Style D.
6.5 SIGNAL ADDER MODULE (M odel HSGM -1004A)
P2 DataCable to P5 of Main Fire
Alarm Module or to previous
Adder Module.
P1 Data Connector for next Adder
Module.
P4 Power Connector to P6 of Main
Fire Alarm Module or to previous
Adder Module.
P3 Power Connector for next Adder
Module.
JW1Continuity Jumper removed if
there are any more Adder
Modules installed.
Jumper JW6 on the Main Fire Alarm
Module must be removed if there are
any Adder Modules installed.
The HSGM-1004A requires 4 Display Points.
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