Page 1 July 2003 P/N 76-100016-001 PEGAsys ™ Intelligent Suppression Control and Fire Alarm System Installation, Operation and Maintenance Manual LISTED APPROVED UL Listing File No. S2422 Factory Mutual Approval J.I. No. OB2A6.AY...
Page 3 July 2003 P/N 76-100016-001 PEGAsys ™ Intelligent Suppression Control and Fire Alarm System Installation, Operation and Maintenance Manual...
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Page 5: Terms And Abbreviations
FOREWORD Note: This Manual Is To Be Used By Trained Distributors Only This manual is intended to clearly and accurately reflect the PEGAsys Fire Alarm/Suppression Control System. This publication describes the operation, installation and maintenance of the PEGAsys Fire Alarm/Suppression Control System, P/Ns 76-100000-501 for Single-Loop System and 76-100000-600 for Multi-Loop System.
Page 6 ACCEPTANCES, APPROVALS AND CERTIFICATIONS PEGAsys Single-Loop System (P/N 76-100000-501) • UL: Underwriters Laboratories Listing File Number S2422. • FM: Factory Mutual Engineering Corp. (Factory Mutual System) Approval J.I. Number 3005511 • CSFM: California State Fire Marshal Listing Number 7165-1076:146. •...
Page 7: Table Of Contents
TABLE OF CONTENTS Foreword ........................... i Terms and Abbreviations ......................i Appendices ..........................vii List of Illustrations ........................viii List of Tables ..........................x Safety Summary ........................xi PARAGRAPH TITLE PAGE General Information ........................ 1-1 Introduction ..........................1-1 1-1.1 System Description ........................1-1 1-1.2 System Components .........................
Page 8 TABLE OF CONTENTS (cont.) PARAGRAPH TITLE PAGE 2-5.2 Accessing the System Menus ....................2-4 2-5.3 Exiting the System Menus ......................2-4 2-5.4 Menu Functions ......................... 2-4 2-5.4.1 Isolate Menu Function ....................... 2-4 2-5.4.2 List Menu Function ........................2-7 2-5.4.3 Set Menu Function ........................2-7 2-5.4.4 Test Menu Function ........................
Page 9 Addressable Relay Output Device ..................... 3-10 3-3.18 Model DH-2000 Air Duct Housing ....................3-10 3-3.19 Loop Isolator Devices ........................ 3-10 3-3.20 PEGAsys Addressable Loop Module (PALM) ................3-11 3-3.21 Addressable AlarmLine Module ....................3-11 3-3.22 Addressable Signal/Sounder Module ..................3-12 Maintenance Procedure ......................4-1 Introduction ..........................
Page 10 TABLE OF CONTENTS (cont.) PARAGRAPH TITLE PAGE Installation Procedure For Central Control Panel ..............7-1 Installation Procedure For Expansion Enclosures ..............7-1 Installation Procedure For Output Motherboard ................ 7-2 Installation Procedure For Rx/Tx Module (Multi-Loop Only) ............7-2 Installation of Output Modules ....................7-3 7-7.1 Signal Audible Output Module ....................
Page 11 Factory Mutual Sprinkler Requirements for Pre-Action and Deluge Type Sprinkler Systems ..E-1 Glossary ............................ F-1 Display Abbreviations ........................ G-1 Wiring Requirements for PEGAsys Signaling Line Circuit RX/TX ..........H-1 System Drawings ........................I-1 PEGAsys Network Interface Card ..................... J-1 Addressable Signal/Sounder Module ..................
Page 12: List Of Illustrations
LIST OF ILLUSTRATIONS FIGURE TITLE PAGE PEGAsys System, Overall Diagram ..................1-0 Central Control Module (CCM) ....................1-2 Display Module Assembly ......................1-2 Receiver/Transmitter Module (RX/TX) ..................1-2 Power Supply/Charger Assembly ....................1-3 Basic Motherboard ........................1-3 Multi-Loop Motherboard ......................1-3 Signal Output Module ........................
Page 13 LIST OF ILLUSTRATIONS (cont.) FIGURE TITLE PAGE 3-17 DH-2000 Air Duct Housing ......................3-10 3-18 Loop Isolator, RX/TX Mount ...................... 3-11 3-19 Loop Isolator, Stand-Alone ......................3-11 3-20 Loop Isolator, 6-inch Detector Base Mount ................3-11 3-21 PALM Interface Module for ORION XT HSSD ................3-11 3-22 Addressable AlarmLine Module ....................
Page 14 Multi-Loop Motherboard Connectors ..................3-5 Approved Release Output Devices .................... 3-7 Troubleshooting Index ....................... 5-1 RX/TX Configuration Selection ....................5-3 PEGAsys System Parts List ...................... 6-1 RX/TX Configuration Selection ....................7-3 Aux. Power Supply Module Connections to Main Power Supply/Charger Assembly ....7-5...
Page 15: Safety Summary
SAFETY SUMMARY Note: Installation Precautions– Adherence to the following will aid in problem-free installation with long-term reliability. WARNING Several different sources of power can be connected to this fire alarm control panel. Disconnect all sources of power before servicing. Control unit and associated equipment may be damaged by removing and/or inserting cards, modules, or interconnecting cables while the unit is energized.
Page 16 Any fire alarm system may fail for a variety of reasons: Smoke detectors may not sense fire where smoke cannot reach the detectors such as in chimneys, in walls, or roofs, or on the other side of closed doors. Smoke detectors also may not sense a fire on another level or floor of a building. A second floor detector, for example, may not sense a first floor or basement fire.
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Page 18 PEGAsys™ January 2002 76-100016-001...
Page 19: General Information
(Style 6) or isolated (Style 7) multiplex trunk. The system power supply capacity to 8.0 Amps at 24 Vdc. PEGAsys can support up to 255 device addresses per loop, In multi-loop form, the PEGAsys ML panel (P/N 76-100000- with a maximum of eight (8) loops, for a total of 2,040 in- 600) consists of a CCM, one (1) power-supply assembly, telligent device points per system.
Page 20: Component Description
CCM controls the operation and supervision of all the sys- 1-2.3 Receiver/Transmitter Module (RX/TX) tem modules and software within the PEGAsys system. It The RX/TX functions as the hardware and software inter- receives loop device data from the RX/TX module, pro- face between the field devices and the CCM.
Page 21: 1-2.5 Basic Motherboard
001) is an assembly which can accept up to eight (8) Module. RX/TX modules and provide connections for up to seven The PEGAsys multi-loop panel has the ability to support a (7) output module circuit board assemblies. The ML maximum of twenty-three (23) output modules, in any com- motherboard is mounted to standoffs on the back of the bination in the system.
Page 22: 1-2.7.1 Signal Output Module
SIGNAL OUTPUT MODULE 1-2.7.3 AGENT RELEASE OUTPUT MODULE The PEGAsys panel has the capacity for a maximum of The PEGAsys panel has the capacity for a maximum of eight (8) Alarm Sounder/Signal Output cards, thus provid- eight (8) agent release output modules, providing up to ing thirty-two (32) possible Class B, Style "Y"...
Page 23: Remote Display/Control Modules
The ATM Series Driver Modules permit third-party graphi- cal annunciators and large numbers of auxiliary relays to NETWORK INTERFACE CARD CAT. NO. 74-200036-001 be used with the PEGAsys Control Unit. Two types of driver modules can be used, Models ATM-L and ATM-R. B2NA2 B1NA1...
Page 24: 1-2.11 Standby Batteries
SMARTONE PHOTOELECTRIC alarm devices (i.e., water flow and tamper switches) to the DETECTOR PEGAsys system. The contact monitor is also used to in- terface to manual alarm, manual release and abort sta- The SmartOne Photoelectric smoke detector provides true tions.
Page 25: 1-2.15 Addressable Relay Output Device
The PEGAsys Addressable Loop Module (PALM) permits direct connection of an ORION XT High-Sensitivity Smoke Detector (HSSD) to a signaling line circuit of the PEGAsys Control Unit. The ORION XT reports pre-alarm, alarm and trouble status by individual location (i.e., address) to the PEGAsys Control Unit via the PALM.
Page 26: Addressable Alarmline Module
The Addressable Signal/Sounder Module (ASM) permits . n i a t l notification appliances to be controlled via commands is- sued from the PEGAsys Control Unit’s signaling line cir- cuit. The ASM is designed to mount in a standard electrical box. AUXILIARY KIDDE-FENWAL, INC.
Page 27: Operation
The non-latching operation will al- low the loop input devices to generate an "alarm off" The control and indicators of the PEGAsys system are lo- signal to the panel. When this signal is received, the cated on the display panel, shown in Figure 2-1. The dis- panel would interrupt the discharge time delay se- play panel is mounted on top of the CCM.
Page 28 PEGAsys™ Table 2-1. Controls and Indicators u l l , f f u l i c t i u l l u l l s t i . t n u l l u l l . t u u l l...
Page 29: 2-2.2 Audible Device
SYSTEM POWER-UP SYSTEM SECURITY The following step-by-step procedure is for initial power- The PEGAsys system provides three distinct levels of pro- up of the CCP. gram protection, as required by UL Standard 864. The user 1. Perform the installation checkout procedure in Chap- can only access the system by entering a valid password.
Page 30: System Menus
SYSTEM MENUS Tables 2-2 through 2-5 list and provide a brief description PEGAsys has a built-in menu structure. This menu struc- of typical functions that can be performed using the ture has been implemented to aid users with system oper- PEGAsys system’s menus.
Page 31 PEGAsys™ PLACE FOLDOUT SHEET HERE Figure 2-2. Menu Structure 76-100016-001 July 2003...
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Page 33: 2-5.4.2 List Menu Function
The red “ALARM” LED will be illuminated and there will be a continuous audible signal by the system buzzer The PEGAsys system has four modes of operation. Each at the panel, and mode has different indications and actions required. The •...
Page 34 PEGAsys™ Table 2-2. Isolate Menu Function t i u y t i t i c i g i l a t i g i l a t Note: 1 = Level One, 2 = Level Two, M = Manufacturer Level Table 2-3.
Page 35 PEGAsys™ Table 2-4. Set Menu Function o l l o l l e t t o l l e t t a t l . t n t n i t n i o i t t n i t n i...
Page 36: Active Supervisory Mode
<RESET> button once. If powering a 4-wire detector from the PEGAsys, the <RESET> button will 2. Once all current alarms have been acknowledged, the need to be pushed once to reset the detector and once alarm indicating circuits (audible devices) can be si- to reset the panel to a normal condition.
Page 37: 2-6.3.2 Supervisory Mode User Action
PEGAsys™ • The yellow TROUBLE LED will be flashing at a one (1) second rate, and there will be a pulsing panel buzzer at the CCP. This audible signal is distinctively different from the alarm audible signal. • The 80-character display will cycle between all cur- rently active troubles and pre-alarms.
Page 38: Printing Operation
PRINTING OPERATION b. Type in the Level 1 or Level 2 password. In addition to the LCD display, the PEGAsys system infor- mation can be viewed using the printer port of the CCM. c. Press the return (↵ ↵ ↵ ↵ ↵ ) key. Verify that the display...
Page 39: 2-8.2.2 Enable/Disable Rtc Program Line Numbers
EOC programming if the RX/TX zone is used as a programmed input (ZA1=1000, ZA2=2000, ZA8 = 8000, etc.). 1. Access the PEGAsys system menus as follows: 2-8.3.4 SYSTEM OUTPUTS a. Press the zero (0) key. Verify that the display reads:...
Page 40: 2-8.5 Registering Output Module Assignments
SmartOne smoke detectors, SmartOne heat detectors, addressable contact input monitors, address- 2. The PEGAsys system can support a total of sixteen able output modules (AOs or ASMs) and PALM Orion XT (16) output modules for single-loop and twenty-three monitor modules.
Page 41: 2-8.7 Registering Rcus
PEGAsys™ 2-8.7 Registering RCUs The AutoLearn function works much the same as the reg- istration function, as it automatically enters the devices Registration is where the device address is joined with the which it can identify into the system's configuration memory.
Page 42: 2-8.7.3 Remote Control Module Registration
To perform the device de-registering operation: The 40-character owner location message cannot be en- 1. Access the PEGAsys system menus as follows: tered using the system keypad. The owner's location mes- sage can only be entered by use of the PCS program and a.
Page 43: Functional Description
FUNCTIONAL DESCRIPTION INTRODUCTION BLOCK DIAGRAM This chapter provides a functional description of the de- The PEGAsys system is divided into ten functional blocks vices/modules used in the PEGAsys system configuration. as follows: Each functional description covers one of the blocks shown •...
Page 44: Functional Descriptions
RS-232 serial communication input/output ports. The CCM controls the operation and supervision of • Remote Display/Control Modules (Optional) all the system modules and software within the PEGAsys • ATM Driver Modules (Optional) system. It receives loop device data from the RX/TX mod- ules, processes the data based on pre-programmed in- •...
Page 45: Receiver/Transmitter Module (Rx/Tx)
PEGAsys™ Two individually programmable signal output circuits (MP1 An event history buffer is provided in the CCM which will and MP2) can be used for signaling devices (horns, store 1024 entries for single-loop and 6100 entries for multi- strobes, bells) and allow up to 2.0 Amps of 24 Vdc power.
Page 46: 3-3.3 Power Supply/Charger Assembly
PEGAsys™ reports these changes to the CCM. The RX/TX (see Fig- • Trouble relay that transfers upon any power sup- ure 3-4) is capable of communicating with up to 255 intel- ply trouble or power off condition (relay shown in...
Page 47: 3-3.4 Multi-Loop Motherboard
(see Figure 3-6). The ML motherboard is mounted to standoffs on the back of the The PEGAsys panel has the capacity for a maximum of main system enclosure. It distributes the system 24 Vdc eight (8) Signal Output modules, shown in Figure 3-7, thus power, CCM-RX/TX communications and output bus com- providing thirty-two (32) possible signal circuits.
Page 48: Relay Output Module
See Appendix I for installation details. 3-3.6 Relay Output Module Power for normal standby and alarm operation derives from The PEGAsys panel has the capacity for a maximum of either of two sources: eight (8) Auxiliary Relay Output cards for up to thirty-two •...
Page 49: 3-3.7 Agent Release Output Module
Figure 3-8. Relay Output Module, Details 3-3.7 Agent Release Output Module The PEGAsys panel has the capacity for a maximum of eight (8) agent release output modules, which provide up to eight (8) possible release circuits and twenty-four (24) signal out- puts on these modules.
Page 50: Remote Display Control Modules
Refer to Appendix J for a complete discussion of the The City Tie Module will operate during the PEGAsys PEGAsys Network Interface Card and system networking "FailSoft” mode. Any system alarm will cause the output to capabilities.
Page 51: 3-3.12 Field Devices
PEGAsys system. Model CPD-7052 to the PEGAsys system. The contact monitor is also used is a dual chamber, analog, ionization type detector, which to interface to the Manual Alarm, Manual Release and Abort senses both visible and invisible smoke.
Page 52: 3-3.17 Addressable Relay Output Device
Addressable Relay Output Device Refer to DH-2000 Installation Manual (P/N 06-235398-001) The addressable relay output device (P/N 70-408004-001) for further details. provides the PEGAsys system with a Form C, dry contact ENCLOSURE interface for remote control applications. The device con- END PLUG nects directly to the RX/TX multiplex loop and contains an SPDT relay for control of auxiliary equipment.
Page 53: 3-3.20 Pegasys Addressable Loop Module (Palm)
Addressable AlarmLine Module The Addressable AlarmLine Module (AAM) permits an AlarmLine sensor cable to be directly interfaced to the PEGAsys Control Unit. Refer to Appendix M for a full de- scription of this Module. (See Figure 3-22.) Figure 3-19. Loop Isolator, Stand-Alone...
Page 54: 3-3.22 Addressable Signal/Sounder Module
Addressable Signal/Sounder Module The Addressable Signal/Sounder Module (ASM) permits notification appliances to be controlled via commands is- sued from the PEGAsys Control Unit’s signaling line cir- cuit. The ASM is designed to mount in a standard electrical box. Refer to Appendix K for additional details on the Address- able Signal/Sounder Module.
Page 55: Maintenance Procedure
The scheduled maintenance of the system should be per- The PEGAsys system provides a unique detector test func- formed at an established interval. The interval that the main- tion, which allows a user to initiate a test of the detection...
Page 56: Battery Test
Walk Test 1. Access the PEGAsys system menus as follows: The PEGAsys system provides a one person walk test a. Press the zero (0) key. Verify that the display reads: function. This allows the service person to enable a group...
Page 57: 4-3.5 Alarm Simulation Test (Ast)
Verify that the system responds as programmed. 4-3.5 Alarm Simulation Test (AST) 8. Press the <ACKLDGE> button to acknowledge the The PEGAsys system provides a feature that allows the alarm. system installer/inspector to verify the actual output op- 9. Deactivate the AST programming as follows: eration in relation to the input(s) that are programmed to activate the output of interest.
Page 58: 4-4.1 Disarming Release Circuits
PEGAsys™ 4-4.1 Disarming Release Circuits POWERING UP THE SYSTEM Perform the following step-by-step procedure prior to sys- 4-6.1 Power-Up Procedure tem testing. 1. Ensure that all control heads or solenoids are discon- 1. Isolate all agent release circuits using the system menu nected from the storage containers to prevent un- (refer to Paragraph 2-5.4.1).
Page 59 PEGAsys™ dd. Type in 3111 on the keypad. Verify that the display reads: SYSTEM TIME (AM/PM) ENTER THE TIME _ _ : _ _ (HH:MM) ee. Type in the time (HH=hours 0-12 and then MM=minutes 0-59). Press the return key.
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Page 61: Troubleshooting And Corrective Maintenance
STANDARD FAULT-ISOLATION i t l TECHNIQUES Failure of the PEGAsys system to function properly will usually be caused by one or more of the following faults: • Failure of the power supply •...
Page 62: Removal And Replacement
The following paragraphs provide required tools and step- by-step replacement procedures for the PEGAsys. The pro- 3. Remove the plug from the RS-232 port. cedures should also be used to assist in module and device 4.
Page 63: 5-4.4 Field Devices
5-4.4 Field Devices The following paragraph provides the step-by-step proce- dure to replace field devices in the PEGAsys system. Note: Smoke and heat detectors can be replaced with- out powering down the system. When adding new loop devices to the system, the panel will need to be powered down.
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Page 65: Parts List
Table 6-1. PEGAsys System Parts List NOMENCLATURE PART NUMBER SYSTEMS PEGAsys Control Unit (includes CCM with one RX/TX Module, one Power Supply/ 76-100000-501 Charger Assembly and Enclosure) PEGAsys Multi-Loop Control Unit (includes CCM with one Multi-Loop 76-100000-600...
Page 66 PEGAsys™ Table 6-1. PEGAsys System Parts List (Continued) NOMENCLATURE PART NUMBER ADDITIONAL COMPONENTS PEGAsys Expansion Enclosure (order backplane separately) 76-100000-505 Expansion Backplane, for Mounting Motherboard and four (4) Power Supplies 76-100000-006 Expansion Backplane, for Mounting eight (8) Power Supplies 76-100000-007...
Page 67 PEGAsys™ Table 6-1. PEGAsys System Parts List (Continued) NOMENCLATURE PART NUMBER MISCELLANEOUS Handheld Device Programmer 74-200013-001 6-Conductor Telephone Cable with DB25 Adapter (DTE) for Computers and Terminals 74-100016-001 6-Conductor Telephone Cable with DB25 Adapter (DCE) for Modems 74-100016-002 6-Conductor Telephone Cable with DB9 Adapter (DTE) for Laptop Computers...
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Page 69: Introduction
CENTRAL CONTROL PANEL taken when installing the door to ensure that the hinge pins The PEGAsys Central Control Panel enclosure is 28 inches are lined up correctly. high x 18 inches wide x 5½ inches deep. It is designed to be surface or semi-flush mounted using No.
Page 70: Installation Procedure For Output Motherboard
PEGAsys™ Figure 7-2, shows the expansion backplate which provides mounting for four (4) power supplies and one (1) output motherboard. Figure 7-3 shows the expansion backplate which provides mounting for up to eight (8) auxiliary power supplies. Figure 7-4 shows the expansion backplate which provides mounting for two (2) output motherboards.
Page 71: Installation Of Output Modules
RX/TX to the appropriate RJ-12 sockets The following paragraph provides the step-by-step procedure JP1-JP8. The socket selected is dependant upon which to install a signal audible output module into the PEGAsys slot the RX/TX will be installed into. system.
Page 72: 7-7.2 Relay Output Module
4. See Appendix I for jumper settings. The following paragraph provides the step-by-step proce- 5. Install module in the desired position on the backplate dure to install a relay output module into the PEGAsys sys- of the main or expansion enclosure. tem.
Page 73: 7-7.7 Power Supply Communication Connections
The main power supply communicates with the CCM over internal power supply using three conductors. The AC the internal RS-485 bus of the PEGAsys system, and can power cable is to be run through a conduit from a dedi- be connected in different ways. The power supply unit in cated, 15 Amp circuit breaker.
Page 74: Install And Connect Dc Power
The batteries must have terminals that accept stan- resistance cannot be greater than 26 Ohms, and capaci- dard ring-type solderless connectors. (See Figure 7-9.) tance can not exceed 0.25 microFarad. Kidde recommends the use of No. 18 AWG minimum twisted, unshielded, low- VENT BOTH...
Page 75: Shielded Wire To Ccp
RX/TX Module Enclosure Figure 7-11. Shielded Wire to CCP Note: All new RCUs are shipped from Kidde with their Detector Bases address set to 000. This address is reserved for unregistered devices and cannot be used as a reg- istered address. The unaddressed devices must be connected to the RX/TX Module one at a time in order to address them.
Page 76: Output Signal Connection
Isolator 7-12 EXTERNAL POWER FAILURE INDICATOR CONNECTION The PEGAsys System provides a 2 A @ 30 Vdc SPDT TB1 of relay on the power supply monitor module that de-ener- RX/TX Module gizes (normally powered) in the event of a power supply Note: Each zone can consist of 30 loop devices trouble.
Page 77: 7-14.1 Setting And Adjusting Smoke And Heat Detector Sensitivity Procedure
Thermal 135°–155° F 135°–145° F 1. Access the PEGAsys system menus as follows: 6. This prompt asks the user for the alarm level for the a. Press the zero (0) key. Verify that the display reads: detector(s) to be set. Key in the desired alarm level PLEASE ENTER PASSWORD and press the return key.
Page 78: Installation Checkout
1 Stop Bit 7-17 INSTALLATION CHECKOUT • No Parity Before powering up the PEGAsys for the first time, ensure that the following has been completed: Note: These parameters are fixed and not adjustable. • Central Control Module (CCM), RX/TX Module and...
Page 79: Power Supply Requirements
When multiple power supplies are installed in the system enclosure(s) they must all be The PEGAsys™ fire alarm/suppression control system re- fed from the same circuit. Over-current protection for this quires connection to a separate dedicated AC branch cir- circuit must comply with Article 760 of the National Elec- cuit (120 or 240 Vac), which must be labeled FIRE ALARM.
Page 80 PEGAsys™ Note: Use Table A-3 (standby or non-alarm) to determine SYSTEM STANDBY POWER main system power supply and any installed aux- REQUIREMENTS iliary power module standby current requirements. The control panel provides regulated power for operating external devices, system operation, and standby battery charging.
Page 81 PEGAsys™ using additional main power supplies in expansion SYSTEM ALARM POWER cabinets, each supply must be evaluated for its REQUIREMENTS own loading in the same way as the primary power supply in the main cabinet. Note: Use Table A-4 (Alarm ) to determine alarm current requirements for main system power supply and auxiliary power supply combination (if used).
Page 82 PEGAsys™ CALCULATING BATTERY SIZE REQUIRED Table A-5 sums the standby and alarm loads to arrive at the battery size, in amp hours (AH), needed to support the control panel. There is a maximum battery size which the system power supply (P/N 76-100009-010) is capable of charging.
Page 83 PEGAsys™ POWER SUPPLY/BATTERY CAPACITY The system is capable of charging batteries of various ca- pacities up to 99 AH; refer to Table A-6 for details concern- ing battery capacities and charging capabilities. Table A-6. Battery Capacities a l i a l i...
Page 84 PEGAsys™ A-5.3 Main Power Supply Loading Examples This example is based on the same system as above. Re- fer to Paragraph A-2 for additional information. Table A-8. Standby or Non-Alarm Power Requirement Calculation Standby Current Maximum Standby Module/Device Module/System (Amps)
Page 85 PEGAsys™ Table A-9. Alarm Power Requirement Calculation t i n a i l a i l i t l l a t y t i s t i t i u o i t v i t 76-100016-001 July 2003...
Page 86 PEGAsys™ A-5.4 Battery Size Requirement Calculation Example This example is based on the same system as above. Re- fer to Paragraph A-4 for additional information. Table A-10. Battery Size Requirement Calculation Total from Standby Power Requirement Required Standby Time Calculation (4, 24, 60 or 90) hours 9.12...
Page 87: System Expansion
AUX 1 AUX 2 AUX 2 Figure B-2. Single Loop with Motherboard Figure B-3 shows the PEGAsys system with an auxiliary power module (P/N 76-100009-002) installed. The auxil- iary power supply module provides an additional 4 Amps of 24 Vdc power for a total of 8 Amps for system use. The unit would be installed if the system required more than the base system's 4 Amps of 24 Vdc power.
Page 88 Figure B-4. Expanded Single Loop System tem which contains two (2) motherboard assemblies, three Figure B-5 shows an expanded PEGAsys system which is (3) complete power supply assemblies (24 Amps of 24 Vdc capable of having eight (8) output modules of various types power) and up to sixteen (16) total possible output mod- and a maximum of 24 Vdc power at 40 Amps.
Page 89 SYSTEM POWER DC IN 2 DC IN 2 Figure B-7 shows an expanded PEGAsys ML system which could have up to eight (8) RX/TX loop controllers and nine (9) output modules installed in the two motherboards. The system also has a maximum 24 Vdc power of 24 Amps, as shown in the diagram.
Page 90 PEGAsys™ AC OUT AC OUT AC IN AC IN DC IN 1 DC IN 1 MOTHER BD MOTHER BD RS485 KIDDE-FENWAL, INC. KIDDE-FENWAL, INC. ASHLAND, MA 01721 ASHLAND, MA 01721 TBL RELAY TBL RELAY TBL RELAY TBL RELAY W2 W3...
Page 91: Releasing Applications
The PCS program is used to program the system for all functions, including releasing. For complete details, The PEGAsys system can be used for agent release, pre- refer to the PCS manual. The following features are sup- action sprinkler and deluge sprinkler control applications.
Page 92 The addressable contact monitor is con- monitor (P/N 70-407008-001) which is programmed as an nected to a Listed manual release station such as the Kidde abort input with a selected abort style, as explained in Table Suppression Agent Release switch (P/N 84-100007-00X).
Page 93 PRE-ACTION SPRINKLER APPLICATIONS C-7.1 CCM Release Output Wiring The PEGAsys system can be used to activate and super- vise pre-action sprinkler and deluge sprinkler systems for The PEGAsys system provides one output on the CCM protection of facilities. The CCM output (MP1) and agent (MP01, Terminal TB4, sounder 1 "A"...
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Page 95: Reserved For Future Use
PEGAsys™ APPENDIX D Space Reserved for Future Use. 76-100016-001 July 2003...
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Page 97: Factory Mutual Sprinkler Requirements For Pre-Action And Deluge Type Sprinkler Systems
PEGAsys™ APPENDIX E FACTORY MUTUAL SPRINKLER REQUIREMENTS FOR PRE-ACTION AND DELUGE TYPE SPRINKLER SYSTEMS GENERAL INFORMATION PEGAsys™ system installation applications that require Factory Mutual (FM) Approval of pre-action and deluge sprinkler systems must conform to the following guidelines: ® •...
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Page 99: Glossary
PEGAsys™ APPENDIX F GLOSSARY s t i l i b y t i c i t y l l s t i t l u . l e t i n t n i t - t i t i...
Page 100 PEGAsys™ i r c i t i . s t . e l e l l t i u t n i a i l . t n i a t l a t l a t - y t .
Page 101: Display Abbreviations
PEGAsys™ APPENDIX G DISPLAY ABBREVIATIONS Abbreviation Meaning Abbreviation Meaning RS-232-C A.V. Alarm Verification All Right Acknowledge Open ADDR. Address Optional Relay Alarm Output Alarm Off Power Communications Line BAT. Battery P.S. Power Supply C.L. Combinational Logic P.W. Password Contact Detector Error...
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Page 103: Wiring Requirements For Pegasys Signaling Line Circuit Rx/Tx
PEGAsys™ APPENDIX H WIRING REQUIREMENTS FOR PEGASYS SIGNALING LINE CIRCUIT (RX/TX) RECOMMENDED WIRE TYPES For best results, use twisted, unshielded, low-capacitance, addressable-fire-alarm wire with a nominal wire-to-wire capaci- tance of approximately 20 pf (i.e., picofarads, where 1 pf = 10 µf) per foot for the RX/TX’s signaling-line circuit.
Page 104 PEGAsys™ f / f ) . t a l t & & & EXAMPLE NO. 1 Determine the recommended wire size for a daisy-chained, Class-B, Style-4 SLC with 160 RCUs and a total wire length of 7,500 feet. The total wire length is the sum of wiring for the positive and negative SLC legs, and is not the linear distance from the control unit to the most-remote RCU.
Page 105 PEGAsys™ The total SLC wiring resistance (24.1 Ω) when using #16 AWG wire is less than the maximum SLC wiring resistance of 26 Ω. The SLC wiring resistance using #16 AWG wire is acceptable. If we select Coleman Cable wire, P/N 98161 (from Recommended Wire Listing), the total SLC wiring capacitance is: 3,000 ft.
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Page 107: System Drawings
PEGAsys™ APPENDIX I SYSTEM DRAWINGS This appendix provides installation diagrams and instructions for various PEGAsys™ system modules. Component Page No. Central Control Module Receiver/Transmitter Module Power Supply Module (Revision XC) Power Supply Module (Revision AC) Agent Release Module I-11 Signal Audible Module...
Page 108 PEGAsys™ TITLE Installation Wiring Diagram CCM/ Display and Control Assembly (PEGAsys) July 2003 76-100016-001...
Page 109 PEGAsys™ TITLE Installation Wiring Diagram CCM/ Display and Control Assembly (PEGAsys) 76-100016-001 July 2003...
Page 110 PEGAsys™ TITLE Installation Wiring Diagram CCM/ Display and Control Assembly (PEGAsys) July 2003 76-100016-001...
Page 111 PEGAsys™ TITLE Installation Wiring Diagram CCM/ Display and Control Assembly (PEGAsys) 76-100016-001 July 2003...
Page 112 PEGAsys™ TITLE Installation Wiring Diagram Receiver/Transmitter Module (PEGAsys) July 2003 76-100016-001...
Page 113 PEGAsys™ TITLE Installation Wiring Diagram Receiver/Transmitter Module (PEGAsys) 76-100016-001 July 2003...
Page 114 PEGAsys™ TITLE Installation Wiring Diagram Power Supply (PEGAsys) July 2003 76-100016-001...
Page 115 PEGAsys™ TITLE Installation Wiring Diagram Power Supply (PEGAsys) 76-100016-001 July 2003...
Page 116 PEGAsys™ TITLE Installation Wiring Diagram Release Module (PEGAsys) July 2003 I-10 76-100016-001...
Page 117 PEGAsys™ TITLE Installation Wiring Diagram Release Module (PEGAsys) 76-100016-001 I-11 July 2003...
Page 118 PEGAsys™ TITLE Installation Wiring Diagram Release Module (PEGAsys) July 2003 I-12 76-100016-001...
Page 119 PEGAsys™ TITLE Installation Wiring Diagram Signal Audible Module (PEGAsys) 76-100016-001 I-13 July 2003...
Page 120 PEGAsys™ TITLE Installation Wiring Diagram Signal Audible Module (PEGAsys) July 2003 I-14 76-100016-001...
Page 121 PEGAsys™ TITLE Installation Wiring Diagram Signal Audible Module (PEGAsys) 76-100016-001 I-15 July 2003...
Page 122 PEGAsys™ RELAY 76-10004-001 TITLE Installation Wiring Diagram Relay Output Module (PEGAsys) July 2003 I-16 76-100016-001...
Page 123 PEGAsys™ CITY TIE 76-100002-001 TITLE Installation Wiring Diagram City Tie Module (PEGAsys) 76-100016-001 I-17 July 2003...
Page 124 PEGAsys™ TITLE Installation Wiring Diagram City Tie Module (PEGAsys) July 2003 I-18 76-100016-001...
Page 125 PEGAsys™ TITLE Installation Wiring Diagram Basic I/0 Motherboard (PEGAsys) 76-100016-001 I-19 July 2003...
Page 126 PEGAsys™ TITLE Installation Wiring Diagram Basic Output Motherboard (PEGAsys) July 2003 I-20 76-100016-001...
Page 127 PEGAsys™ TITLE Installation Wiring Diagram Multi-Loop Motherboard (PEGAsys) 76-100016-001 I-21 July 2003...
Page 128 PEGAsys™ TITLE Installation Wiring Diagram Multi-Loop Motherboard (PEGAsys) July 2003 I-22 76-100016-001...
Page 129 PEGAsys™ TITLE Installation Wiring Diagram Addressable Contact Input Device NO/NC (Obsolete) 76-100016-001 I-23 July 2003...
Page 130 PEGAsys™ TITLE Installation Wiring Diagram Addressable Relay Output Device (Obsolete) July 2003 I-24 76-100016-001...
Page 131 PEGAsys™ TITLE Installation Wiring Diagram Addressable Contact Input Device NO/NC 76-100016-001 I-25 July 2003...
Page 132 PEGAsys™ TITLE Installation Wiring Diagram Addressable Relay Output Device DRAWING No. New Design REVISION SHEET 1 of 1 July 2003 I-26 76-100016-001...
Page 133 NICs on a network simultaneously. PEGAsys fire/suppression control panels (nodes). The NIC Each NIC (node) must be configured indepen- mounts as a daughter card on the PEGAsys Central Con- dently. trol Module (CCM). Up to thirty-two (32) nodes may be The operator can set network configuration options on the networked to form groups.
Page 134 PEGAsys™ J-2.1.3 NETWORK GROUP NUMBER work group 0, it can be silenced from any node on the net- ASSIGNMENT work. Nodes may be assigned to groups 0 through 32. A node J-2.1.6 EVENT LOGGING ENABLE/DISABLE assigned to network group 0 receives and processes mes- Enabling “Log All Events”...
Page 135 “Dumb Terminal” zero for functions other than receiving messages un- Network configuration can be performed through use of less it is configured to log all events in PEGAsys the system menus using a “dumb terminal” attached to Configuration Software (PCS).
Page 136 NIC. Its bidirectional repeater func- daughter board. This modification has no effect on normal tion is implemented completely in hardware; no software operation of the PEGAsys panel or system. is needed to control this process. The transceiver’s trans- J-4.2...
Page 137 Single-channel operation (using only one twisted pair cable between NICs) is possible and provides Style 4 operation. The PEGAsys panel will be delivered with a separate net- With single-channel operation, an open circuit on any net- work interface card; some existing panels can be retrofit- work wire will effectively break the network into two sepa- ted with a network interface card.
Page 138 TESTING connector. Testing is a function of the PEGAsys system in which the 5. Remove the six threaded spacers that secure the dis- NIC is installed. No local test functions exist. For more play electronics board and lift board out.
Page 139 ADDRESSABLE SIGNAL/SOUNDER MODULE Addressing and registration into the PEGAsys system is INTRODUCTION described in Paragraph 2-8 (and sub-paragraphs) of this manual. Registration of the module at the PEGAsys panel The SmartOne ® Addressable Signal/Sounder Module (ASM) is mandatory to ensure proper operation.
Page 140 PEGAsys™ If the auxiliary notification appliance power source is not PARTS LIST power limited, the output circuit, auxiliary input circuit and the trouble circuit are non-power limited. Otherwise, all The following parts are required for installation and opera- three circuits are power limited.
Page 141 PEGAsys™ PC LINE PC LINE SEE NOTE 3 FOR 24VDC MODE SET P1 JUMPER KIDDE-FENWAL, INC. FROM 2-3 ASHLAND, MA 01721 U.S.A. CAT. NO. 70-200200-001 AND SWITCH S1 INSTRUCTIONS P/N 06-235717-001 PC LINE TERMINALS - POWER LMTD. ALL OTHERS - POWER LIMITED...
Page 142 PEGAsys™ THIS PAGE INTENTIONALLY LEFT BLANK. January 2002 76-100016-001...
Page 143 The switches and a tactile response numeric keypad. These con- RDCM, in addition to emulation of the PEGAsys LEDs and trols match the PEGAsys layout. The RDM does not permit LCD display, provides remote access to the system and, if operation of the control features (operation is “read only”).
Page 144 PEGAsys menu is provided via the The RDCM and RDM operate on a shared RS-485 bus which alphanumeric keypad: supports wire runs of up to 4000 ft. from the PEGAsys con- • 0–9: Used to enter digits to access PEGAsys trol panel.
Page 145 The RDCM will pass the acknowledge input to the seconds. For these examples, assume RDCM PEGAsys causing its LED to go from a pulsing to a steady address 02. If another (non-master) module at- mode, and the buzzer to silence.
Page 146 30 The RDCM will request another password entry request, seconds and displays the following message: and, if correct, the PEGAsys will send the 30 second glo- SYSTEM RESET bal lockout command to all other RDCMs.
Page 147 PEGAsys™ REMOTE PSU FAULT “ON” RDCM XX If no communication is detected with the PEGAsys during the polling routine and the PSU is active, a local trouble message will be displayed on the RDCM/RDM. NO COMMUNICATION WITH MAIN PANEL SPECIFICATIONS Table L-1.
Page 148 PEGAsys™ .409 MOUNTING FOR #10 (.190 DIA.) SCREWS 12.000 5.875 9.500 SW1 ADDRESS 1 TO 16 (F) W1 LED BACKLIGHT ENABLE 1.250 1/2" & 3/4" VR1 LED BACKLIGHT ADJUST COMBINATION KNOCKOUTS VR2 LCD CONTRAST ADJUST (2) LOCATED ON TOP SURFACE (1) LOCATED ON EACH SIDE.
Page 149 Central Control Module (CCM) of the PEGAsys panel. porating two known factors: Up to 255 AAM modules can be connected to a single RX/TX •...
Page 150 PEGAsys™ TESTING Refer to Chapter 7 of the AlarmLine Addressable Linear Heat Detector Installation, Operation and Maintenance Manual. July 2003 76-100016-001...
Page 151 The Networkable Central Control Module (NCCM), shown in Figure N-1, is the heart of the PEGAsys system and is The real-time clock provides the NCCM with the ability to composed of two printed circuit board assemblies: the dis-...
Page 152 PEGAsys™ THIS PAGE INTENTIONALLY LEFT BLANK. July 2003 76-100016-001...
Page 153: Central Station Operation
PCS menu (Network Settings). A Silent Knight DACT—Model 5104—must be wired to the PEGAsys control panel, as shown in Figure O-1. See the Model 5104 installation manual for information regarding connection of the DACT to the telephone line for alarm and trouble transmission(s).
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Page 155 TECHNICAL MANUAL USER FEEDBACK FORM (Use this report to indicate deficiencies, user remarks and recommendations relating to the publication. Fold on dotted line, tape and mail to KIDDE-FENWAL, Inc., 400 Main Street, Ashland, MA 01721, Attn. Documentation Manager or FAX to 508-881-8920) DATE: 1.
Page 156 FOLD Place Stamp Here KIDDE-FENWAL, Inc. 400 Main Street Ashland, MA 01721 Attn. Documentation Manager FOLD 220423...
Page 158 (12) months from the date of purchase but not to exceed eighteen (18) months after shipment by Kidde-Fenwal Inc. For a full description of Kidde-Fenwal’s LIMITED WARRANTY, which, among other things, EXCLUDES warranties of MERCHANTABILITY and...

Kidde PEGAsys Installation, Operation And Maintenance Manual

1 General Information

2 Operation

3 Functional Description

4 Maintenance Procedure

5 Troubleshooting and Corrective Maintenance

6 Parts List

7 Installation

Appendix Title

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Summary of Contents for Kidde PEGAsys

Table of Contents