PEGAsys Intelligent Suppression Control and Fire Alarm System

July 003 P/N 76000600 PEGAsys Intelligent Suppression Control and Fire Alarm System Installation, Operation and Maintenance Manual R LISTED UL Listing File No. S4 FM APPROVED Factory Mutual Approval J.I. No. OBA6.AY

July 003 P/N 76000600 PEGAsys Intelligent Suppression Control and Fire Alarm System Installation, Operation and Maintenance Manual

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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 760000050 for SingleLoop System and 7600000600 for MultiLoop System. TERMS AND ABBREVIATIONS AC Alternating Current NCCM Networkable Central Control Module ADA Americans with Disabilities Act NIC Network Interface Card AH Ampre Hour NFPA National Fire Protection Agency AI Addressable Contact Input Device NO Normally Open AO Addressable Relay Output Device NR Not Registered AST Alarm Simulation Test NYC New York City ATM Annunciator Terminal Module P/N Part Number BIP Broadcast Indexed Protocol PALM PEGAsys Addressable Loop Module BPM Beats Per Minute PAS Positive Alarm Sequence CCM Central Control Module PC Personal Computer CCP Central Control Panel PCB Printed Circuit Board DC Direct Current PCS PEGAsys Configuration Software EDP Electronic Data Processing PC Line Power/Communication Line (RX/TX Loop) EOC Event Output Control PS Power Supply ESD Electrostatic Discharge RCU Remote Control Unit FCP Fire Control Panel RDCM Remote Display Control Module GUI Graphical User Interface RDM Remote Display Module HSSD HighSensitivity Smoke Detector RTC RealTime Clock HVAC Heating, Ventilating and Air Conditioning RX/TX Receive Transmit I/O Input/Output SL SingleLoop ID Identification SLC Signaling Line Circuit IRI Industrial Risk Insurers SPDT Single Pole, Double Throw LCD Liquid Crystal Display UL Underwriter Laboratories LED Light Emitting Diode V Volts ML MultiLoop Vac Voltage Alternating Current NC Normally Closed Vdc Voltage Direct Current i

ACCEPTANCES, APPROVALS AND CERTIFICATIONS PEGAsys SingleLoop System (P/N 760000050) UL: Underwriters Laboratories Listing File Number S4. FM: Factory Mutual Engineering Corp. (Factory Mutual System) Approval J.I. Number 30055 CSFM: California State Fire Marshal Listing Number 765076:46. NYC: City of New York Listing Number MEA 4549E Vol.III. PEGAsys MultiLoop System (P/N 7600000600) UL: Underwriter s Laboratories Listing File Number S4. FM: Factory Mutual Engineering Corp. (Factory Mutual System) Approval J.I. Number 30055 CSFM: California State Fire Marshal Listing Number 765076:46. NYC: City of New York Listing Number MEA 4549E Vol.III. ii

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... Introduction.... System Description.... System Components... Component Description.... Central Control Module (CCM).... Display Module....3 Receiver/Transmitter Module (RX/TX)....4 Power Supply/Charger Assembly....5 Basic Motherboard... 3.6 MultiLoop Motherboard... 3.7 Output Modules... 3.7. Signal Output Module... 4.7. Relay Output Module... 4.7.3 Agent Release Output Module... 4.7.4 CityTie Module... 4.8 Remote Display/Control Modules... 5.9 ATM Series Driver Modules... 5.0 Network Interface Card... 5. Standby Batteries... 6. Intelligent Loop Devices... 6.. SmartOne Ionization Detector... 6.. SmartOne Photoelectric Detector... 6..3 SmartOne Heat Detector... 6.3 SmartOne Detector Bases... 6.4 Addressable Contact Input Device... 6.5 Addressable Relay Output Device... 7.6 Model DH000 Air Duct Housing... 7.7 Loop Isolator Devices... 7.8 ORION XT Interface Module... 7.9 Addressable AlarmLine Module... 8.0 Addressable Signal/Sounder Module... 8 3 System Specification... 8 Operation... Introduction.... Modes of Operation... Controls and Indicators.... LCD Display.... Audible Device... 3 3 System Security... 3 3. Levels of Security... 3 3. Default Passwords... 3 3.3 Entering Passwords... 3 4 System PowerUp... 3 5 System Menus... 4 5. Menu Structure... 4 iii

TABLE OF CONTENTS (cont.) PARAGRAPH TITLE PAGE 5. Accessing the System Menus... 4 5.3 Exiting the System Menus... 4 5.4 Menu Functions... 4 5.4. Isolate Menu Function... 4 5.4. List Menu Function... 7 5.4.3 Set Menu Function... 7 5.4.4 Test Menu Function... 7 6 Modes of Operation... 7 6. Normal Standby Mode... 7 6. Active Alarm Mode... 7 6.. Alarm Mode Indications... 7 6.. Alarm Mode User Action... 7 6.3 Active Supervisory Mode... 0 6.3. Supervisory Mode Indication... 0 6.3. Supervisory Mode User Action... 6.4 Active Trouble Mode... 6.4. Trouble Mode Indications... 6.4. Trouble Mode User Action... 7 Printing Operation... 8 System Programming... 8. EOC Programming... 8.. Listing EOC Programming... 8. RTC Programming... 8.. Listing RTC Programming... 8.. Enable/Disable RTC Program Line Numbers... 3 8.3 Types of Inputs and Outputs... 3 8.3. System Inputs... 3 8.3. Remote Control Unit (RCU)... 3 8.3.3 RX/TX Loops... 3 8.3.4 System Outputs... 3 8.3.5 System Output Modules... 3 8.4 Addressing Output Modules... 3 8.5 Registering Output Module Assignments... 4 8.5. Listing Output Module Assignment... 4 8.6 Addressing RCUs... 4 8.7 Registering RCUs... 5 8.7. Detector Registration... 5 8.7. Addressable Monitor Module Registration... 5 8.7.3 Remote Control Module Registration... 6 8.7.4 Listing all Registered RCUs... 6 8.7.5 DeRegistering RCUs... 6 3 Functional Description... 3 3 Introduction... 3 3 Block Diagram... 3 33 Functional Descriptions... 3 33. Central Control Module... 3 33. Receiver/Transmitter Module (RX/TX)... 33 33.3 Power Supply/Charger Assembly... 34 33.4 MultiLoop Motherboard... 35 33.5 Signal Output Module... 35 33.6 Relay Output Module... 36 33.7 Agent Release Output Module... 37 33.8 CityTie Module... 37 iv

TABLE OF CONTENTS (cont.) PARAGRAPH TITLE PAGE 33.9 Remote Display Control Modules... 38 33.0 ATM Series Driver Modules... 38 33. Network Interface Card... 38 33. Field Devices... 39 33.3 SmartOne Ionization Detector... 39 33.4 SmartOne Photoelectric Detector... 39 33.5 SmartOne Heat Detector... 39 33.6 Addressable Contact Input Device... 39 33.7 Addressable Relay Output Device... 30 33.8 Model DH000 Air Duct Housing... 30 33.9 Loop Isolator Devices... 30 33.0 PEGAsys Addressable Loop Module (PALM)... 3 33. Addressable AlarmLine Module... 3 33. Addressable Signal/Sounder Module... 3 4 Maintenance Procedure... 4 4 Introduction... 4 4 Scheduled Maintenance... 4 43 Maintenance Procedures... 4 43. Lamp Test... 4 43. Loop Device Test... 4 43.3 Battery Test... 4 43.4 Walk Test... 4 43.4. Walk Testing Detectors... 4 43.4. Walk Test Procedure... 4 43.5 Alarm Simulation Test (AST)... 43 43.5. AST Procedure... 43 44 Disarming and Rearming Release Circuits... 43 44. Disarming Release Circuits... 44 44. Arming Release Circuits... 44 45 Powering Down the System... 44 45. PowerDown Procedure... 44 46 Powering Up the System... 44 46. PowerUp Procedure... 44 5 Troubleshooting and Corrective Maintenance... 5 5 Introduction... 5 5 Standard FaultIsolation Techniques... 5 5. Visual Inspection... 5 5. Power Checks... 5 53 Troubleshooting... 5 54 Removal and Replacement... 5 54. Required Tools... 5 54. Central Control Module... 5 54.3 RX/TX Module... 5 54.4 Field Devices... 53 6 Parts List... 6 6 Introduction... 6 7 Installation... 7 7 Introduction... 7 7 Materials Required For Installation... 7 v

TABLE OF CONTENTS (cont.) PARAGRAPH TITLE PAGE 73 Installation Procedure For Central Control Panel... 7 74 Installation Procedure For Expansion Enclosures... 7 75 Installation Procedure For Output Motherboard... 7 76 Installation Procedure For Rx/Tx Module (MultiLoop Only)... 7 77 Installation of Output Modules... 73 77. Signal Audible Output Module... 73 77. Relay Output Module... 74 77.3 Agent Release Module... 74 77.4 CityTie Output Module... 74 77.5 Power Supply/Charger Assembly... 74 77.6 Power Supply/Charger Assembly, Expansion Enclosure... 74 77.7 Power Supply Communication Connections... 75 78 Connecting AC Power... 75 79 Install And Connect DC Power... 76 79. Battery Enclosure... 76 79. Batteries... 76 70 Field Device Connection To RX/TX Module... 76 70. Wiring the RX/TX PC Line... 76 7 Output Signal Connection... 78 7 External Power Failure Indicator Connection... 78 73 Detector Installation... 78 74 Setting and Adjusting Smoke and Heat Detector Sensitivities... 78 74. Setting and Adjusting Smoke and Heat Detector Sensitivity Procedure... 79 75 Addressable Contact Input Device Installation... 79 76 Addressable Relay Output Device Installation... 79 77 Installation Checkout... 70 78 Connection of Peripherals... 70 78. Connecting a Terminal or Personal Computer... 70 78. Connecting a Printer... 70 vi

LIST OF APPENDICES APPENDIX TITLE PAGE A Power Supply Requirements... A B System Expansion... B C Releasing Applications... C D Reserved for Future Use... D E Factory Mutual Sprinkler Requirements for PreAction and Deluge Type Sprinkler Systems... E F Glossary... F G Display Abbreviations... G H Wiring Requirements for PEGAsys Signaling Line Circuit RX/TX... H I System Drawings... I J PEGAsys Network Interface Card... J K Addressable Signal/Sounder Module... K L Remote Display Control Module and Remote Display Module... L M Addressable AlarmLine Module... M N Networkable Central Control Module (NCCM)... N O Central Station Operation... O vii

LIST OF ILLUSTRATIONS FIGURE TITLE PAGE PEGAsys System, Overall Diagram... 0 Central Control Module (CCM)... 3 Display Module Assembly... 4 Receiver/Transmitter Module (RX/TX)... 5 Power Supply/Charger Assembly... 3 6 Basic Motherboard... 3 7 MultiLoop Motherboard... 3 8 Signal Output Module... 4 9 Relay Output Module... 4 0 Agent Release Output Module... 4 City Tie Module... 4 RDCM Keypad... 5 3 Module Mounting Dimensions... 5 4 Network Interface Card... 5 5 Battery Enclosure... 6 6 SmartOne Detection Device... 6 7 4inch Detector Base... 6 8 6inch Detector Base... 6 9 Addressable Contact Input Device... 6 0 Addressable Relay Output Device... 7 Air Duct Housing... 7 Loop Isolator, StandAlone... 7 3 Loop Isolator, RX/TX Mount... 7 4 Loop Isolator, 6inch Detector Base Mount... 7 5 PALM Interface Module for ORION XT HSSD... 7 6 Addressable AlarmLine Module... 8 7 Addressable Signal/Sounder Module... 8 System Front Panel... Menu Structure... 5 3 Active Alarms Example... 7 4 Supervisory Example for Supervisory Mode Indication... 5 Active Troubles and PreAlarms Example... 6 Output Module Address Scheme... 3 7 RCU Registration Screen... 5 3 Overall Block Diagram, SingleLoop System... 3 3 Overall Block Diagram, MultiLoop System... 3 33 Central Control Module, Details... 3 34 Receiver/Transmitter Module, Details... 33 35 Power Supply/Charger Assembly Details... 34 36 MultiLoop Motherboard, Details... 35 37 Signal Output Module, Details... 36 38 Relay Output Module, Details... 37 39 Agent Release Output Module, Details... 37 30 City Tie Module, Details... 38 3 RDCM Keypad... 38 3 ATM Module... 38 33 Network Interface Card... 38 34 Typical Detector... 39 35 Addressable Contact Input Device... 30 36 Addressable Relay Output Device... 30 viii

LIST OF ILLUSTRATIONS (cont.) FIGURE TITLE PAGE 37 DH000 Air Duct Housing... 30 38 Loop Isolator, RX/TX Mount... 3 39 Loop Isolator, StandAlone... 3 30 Loop Isolator, 6inch Detector Base Mount... 3 3 PALM Interface Module for ORION XT HSSD... 3 3 Addressable AlarmLine Module... 3 33 Addressable Signal/Sounder Module... 3 5 Single Loop Installation... 5 5 MultiLoop Installation... 5 7 CCP Installation Drawing... 7 7 Back Plate, Output Motherboard and Four Power Supplies... 7 73 Back Plate, Eight Power Supplies... 7 74 Back Plate, Two Output Motherboards... 7 75 Installation for MultiLoop... 73 76 Power Supply/Charger Wiring Diagram... 74 77 Power Supply/Charger Wiring Diagram for Expansion Enclosure... 75 78 RS485 Connection... 75 79 Battery Enclosure... 76 70 Conduit to CCP... 76 7 Shielded Wire to CCP... 77 7 Style 4, RX/TX PC Line Connections... 77 73 Style 6, RX/TX PC Line Connections... 77 74 Style 6, RX/TX PC Line Connections with Loop Isolators... 78 75 Style 7, RX/TX PC Line Connection... 78 76 CCM Printer Port... 70 ix

LIST OF TABLES TABLE TITLE PAGE System Specifications... 8 Controls and Indicators... Isolate Menu Function... 8 3 List Menu Function... 8 4 Set Menu Function... 9 5 Test Menu Functions... 0 3 MultiLoop Motherboard Connectors... 35 3 Approved Release Output Devices... 37 5 Troubleshooting Index... 5 5 RX/TX Configuration Selection... 53 6 PEGAsys System Parts List... 6 7 RX/TX Configuration Selection... 73 7 Aux. Power Supply Module Connections to Main Power Supply/Charger Assembly... 75 x

SAFETY SUMMARY Note: Installation Precautions Adherence to the following will aid in problemfree installation with longterm 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. Do not attempt to install, service, or operate this unit until this manual is read and understood.! CAUTION System Reacceptance Test after Software Changes: To ensure proper system operation, this product must be tested in accordance with NFPA7 (00) Chapter 0 after any programming operation or change in sitespecific software. Reacceptance testing is required after any change, addition or deletion of system components, or after any modification, repair or adjustment to system hardware or wiring. All components, circuits, system operations, or software functions known to be affected by a change must be 00% tested. In addition, to ensure that other operations are not inadvertently affected, at least 0% of initiating devices that are not directly affected by the change, up to a maximum of 50 devices, must also be tested and proper system operation verified. This system meets NFPA requirements for operation at 0 to 49 C and at a relative humidity of 85% (noncondensing) @ 30 C. However, the useful life of the system s standby batteries and the electronic components may be adversely affected by extreme temperature and humidity variations. Therefore, it is recommended that this system and its peripherals be installed in an environment with a nominal room temperature of 60 to 80 F. Like all solid state electronic devices, this system may operate erratically or can be damaged when subjected to lightning induced transients. Although no system is completely immune from lightning transients and interference, proper grounding will reduce susceptibility. The use of overhead or outside aerial wiring is not recommended due to the increased susceptibility to nearby lightning strikes. Consult with the Applications Engineering Department if any problems are anticipated or encountered. Disconnect AC power and batteries prior to removing or inserting circuit boards. Failure to do so can damage circuits. Remove all electronic assemblies prior to any drilling, filing, reaming, or punching of the enclosure. When possible, make all cable entries from the sides. Before making modifications, verify that they will not interfere with battery and printed circuit board location. Do not over tighten screw terminals. Over tightening may damage threads, resulting in reduced terminal contact pressure and difficulty with screw terminal removal. This system contains staticsensitive components. Always ground yourself with a proper wrist strap before handling any circuits so that static charges are removed from the body. Use static suppressive packaging to protect electronic assemblies removed from the control unit. Follow the instructions in the installation, operating, and programming manuals. These instructions must be followed to avoid damage to the control panel and associated equipment. System operation and reliability depend upon proper installation. FIRE ALARM SYSTEM LIMITATIONS Note: While installing a fire alarm system may make lower insurance rates possible, it is not a substitute for fire insurance! An automatic fire alarm system typically made up of smoke detectors, heat detectors, manual pull stations, audible warning devices, and a fire alarm control unit with remote notification capability can provide early warning of a developing fire. Such a system, however, does not assure protection against property damage or loss of life resulting from a fire. xi

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. Furthermore, all types of smoke detectors both ionization and photoelectric types have sensing limitations. No type of smoke detector can sense every kind of fire caused by carelessness and safety hazards like smoking in bed, violent explosions, escaping gas, improper storage of flammable materials, overloaded electrical circuits, children playing with matches or arson. Audible warning devices such as bells may not alert people if these devices are located on the other side of closed or partly open doors or are located on another floor of a building. A fire alarm system will not operate without electrical power. If AC power fails, the system will operate from standby batteries only for a specified time. Rateofrise heat detectors may be subject to reduced sensitivity over time. For this reason, the rateofrise feature of each detector should be tested at least once per year by a qualified fire protection specialist. Auxiliary equipment used in the system may not be technically compatible with the control panel. It is essential to use only equipment listed for service with your control panel. Telephone lines needed to transmit alarm signals from a premise to a central monitoring station may be out of service or temporarily disabled. The most common cause of fire alarm malfunctions, however, is inadequate maintenance. All devices and system wiring should be tested and maintained by professional fire alarm installers following written procedures supplied with each device. System inspection and testing should be scheduled monthly or as required by national and/or local fire codes. Adequate written records of all inspections should be kept. GENERAL SAFETY NOTICES Note: The following must be observed to maintain personnel safety. The following general safety notices supplement specific warnings and cautions appearing in the manual. The safety precautions in this section must be understood and applied during operation and maintenance. This manual is to be used by trained distributors/technicians. The entire manual should be read and fully understood prior to installation. TEST EQUIPMENT Make certain test equipment is in good operating condition. Do not touch live equipment or personnel working on live equipment while holding a test meter. Some types of measuring devices should not be grounded; these devices should not be held when taking measurements. FIRST AID Any injury, no matter how slight, should never go unattended. Always obtain first aid or medical attention immediately. GENERAL PRECAUTIONS The following general safety precautions are to be observed at all times:. All electrical components associated with equipment shall be installed and grounded in accordance with NEC, NFPA and local regulatory requirements.. Special precautionary measures are essential to prevent applying power to equipment at any time maintenance work is in progress. 3. Before working on electrical equipment, use a voltmeter to ensure that the system is not energized. 4. When working near electricity, do not use metal rulers, flashlights, metallic pencils or any other objects having exposed conductive material. 5. When connecting a meter to terminals for measurement, use voltage range higher than the expected voltage. xii

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FIRE ALARM FIRE ALARM PUSH PULL PUSH / HOLD SUPPRESSION SYSTEM ABORT Addressable Suppression System Abort Device Figure. PEGAsys System, Overall Diagram RS485 Alarm Notification Appliances R January 00 0 76000600

CHAPTER GENERAL INFORMATION INTRODUCTION This manual contains the operation, maintenance, troubleshooting, parts listing and installation information necessary to support the PEGAsys Intelligent Suppression Control and Fire Alarm System. Note: This manual is to be used by trained distributors only. The entire manual should be read and fully understood prior to installation. Refer to Figure for the PEGAsys System overall diagram.. System Description PEGAsys is a fire alarm/suppression control system which can be used for local, auxiliary, remote protective signaling and releasing device service. The system is a microprocessor based design for use with intelligent detectors and loop devices. The system utilizes distributed intelligent field devices. These devices are typically smoke detectors, contact input devices, relay outputs and signal output modules which represent a single fire alarm initiation/indicating zone. Each device contains its own data transceiver, micro controller, 4K of memory and applicable algorithms which allows each device to operate independently of the control system. These unique devices have the ability to analyze information, make decisions and store information within themselves. They communicate with the PEGAsys system using the BIP protocol which utilizes a twowire (Style 4), four wire (Style 6) or isolated (Style 7) multiplex trunk. The PEGAsys can support up to 55 device addresses per loop, with a maximum of eight (8) loops, for a total of,040 intelligent device points per system. The PEGAsys is capable of controlling a wide variety of auxiliary devices, such as relays, audible/visual indicating signal devices and agent/sprinkler release systems. The system also supports the use of serial printers which provide hard copy of system status information. There are three versions of the PEGAsys currently in service. These three versions are identified as: PreNetwork, Networkable, and Networkable and directlyintegrable with ORION XT HighSensitivity Smoke Detectors (HSSDs). Prenetworked systems have operating firmware in the Central Control Module (CCM) that ranged from Version 48.0 to Version 6X.X. All prenetworked systems must now have Version 60.0, or higher, operating firmware. Prenetworked systems are not covered in this manual. Networkable systems have a modified CCM that can accept a Network Interface Card (NIC) for peertopeer control unit operations, and can accommodate Remote Display Modules (RDMs), Remote Display Control Modules (RDCMs) and ATM Series Driver Modules (ATML/R). Networkable systems have CCM Version 7X.X firmware. Networkable systems that are directlyintegrable with ORION XT HSSDs have Version 8X.X CCM firmware.. System Components The system is comprised of three major components, as shown in Figure : the Central Control Panel (CCP) which communicates with the field devices and drives output devices such as alarm signals that communicate with central stations and various types of control equipment; a display panel located on the CCP that provides system status LEDs and Control Switches; and an 80character LCD that provides alphanumeric display of system status information. The singleloop PEGAsys Central Control Panel (P/N 760000050) consists of the Central Control Module (CCM) assembly, one receiver/transmitter (RX/TX) module and one power supply assembly. Optionally the system can add a motherboard assembly which allows for the installation of optional output modules. An auxiliary power supply module can be added which increases the base system power supply capacity to 8.0 Amps at 4 Vdc. In multiloop form, the PEGAsys ML panel (P/N 7600000 600) consists of a CCM, one () powersupply assembly, one () RX/TX module and one () multiloop motherboard mounted in the enclosure. The unique multiloop motherboard provides the ability to connect up to eight (8) RX/TX modules to the system which allows for a full,040 addressable points to be connected to the PEGAsys ML system. Auxiliary enclosures are available to allow the system to be expanded. The auxiliary enclosure has the same dimensions as that of the main enclosure, with the absence of the window in the door. There are optional backplanes that install in the expansion enclosure. This allows the number of output modules and system power supplies to be expanded. To allow for maximum system flexibility and expansion, enclosure(s) and backplane(s) can be added to the system. See Appendix B for further system expansion details. 76000600 July 003

COMPONENT DESCRIPTION The following paragraphs give a brief description of each component used in the PEGAsys system. For functional descriptions of each component, see Chapter 3 of this manual.. Central Control Module (CCM) The CCM assembly is the heart of the system and is comprised of two () printed circuit board (PCB) assemblies, the display module and the main processor module. The CCM controls the operation and supervision of all the system modules and software within the PEGAsys system. It receives loop device data from the RX/TX module, processes the data based on preprogrammed instructions and transmits output commands to the output modules, field devices and display module(s).. Display Module The display module assembly, attached to the main processor PCB, provides the system with the operator interface for control switches, system status LEDs, system trouble/alarm buzzer, an 80character ( x 40) LCD display and an integral numeric keypad. The keypad is used for entering the security password and navigating through the user menus. The system buzzer provides two () distinctly different signaling patterns for audible warning of system alarms and troubles. AC POWER ALARM PREALARM SYSTEM STATUS DISPLAY SYSTEM TROUBLE SUPERVISORY SILENCE R SYSTEM ACKNOWLEDGE SYSTEM RESET SILENCE SCROLL AC POWER ALARM PREALARM SYSTEM STATUS DISPLAY SYSTEM TROUBLE SUPERVISORY SILENCE R SYSTEM ACKNOWLEDGE SYSTEM RESET SILENCE SCROLL Figure 3. Display Module Assembly.3 Receiver/Transmitter Module (RX/TX) The RX/TX functions as the hardware and software interface between the field devices and the CCM. The RX/TX receives control requests from the CCM, and establishes communications with the field devices. The RX/TX receives status changes from the field devices and reports these changes to the CCM. The RX/TX, shown in Figure 4, is capable of communicating with up to 55 intelligent devices and complies with the wiring requirements of NFPA Style 4, 6 and 7 (with the use of the loop isolator devices). Style 4 initiation circuit wiring will permit T tapping or branch circuitry..4 Power Supply/Charger Assembly The power supply/charger assembly (P/N 760000900) is comprised of a PCB assembly and an AC/DC switching power supply unit. The switching power supply unit provides 4 Amps of 4 Vdc from the 0/40 Vac input power. The PCB assembly is a microprocessor based unit which provides the system with: Battery charging and supervision AC power supervision 4 Vdc supervision Battery load test 4 Vdc ground fault detection (/) Auxiliary 4 Vdc outputs Processor Port Display Reset Switch Display Trouble LED BUZZER PLG SW PLG3 JK JK Display Port PRINT PORT JK3 PLG PC Port DS PLG EARTH FAULT SUPPLY FAULT 0V 4 VDC TB6 4 Vdc from Power Supply Loop Isolator for Style 7 Figure. Central Control Module (CCM) Figure 4. Receiver/Transmitter Module (RX/TX) July 003 76000600

combinations of RX/TX and output modules that can be used with a MultiLoop Motherboard are as follows: No. of RX/TX(s) No. of Output Modules or 7 3 6 4 5 5 4 6 3 7 8 JP0 RS3 TB TB8 TB7 TB6 TB5 TB4 TB3 TB TB JP9 RS485 Figure 5. Power Supply/Charger Assembly.5 Basic Motherboard The basic motherboard assembly (P/N 760000700) is an assembly which can accept up to eight (8) output module circuit board assemblies. The motherboard is mounted to the back of the system enclosure and/or the auxiliary enclosures. It distributes 4 Vdc power and bus communications to the output modules. The bus communications are provided by an RJ (flat phone cable) style connection. The 4 Vdc is provided by the system power supply via a twoconductor wiring harness. The motherboard mounts to standoffs on the back of the main and expansion enclosures with screws which are provided. R W J J J3 J4 J5 J6 J7 J8 TB RS485 TB COM TBL COM ALM SIG GND 485A 485B Figure 6. Basic Motherboard.6 MultiLoop Motherboard The multiloop motherboard assembly (P/N 760007 00) is an assembly which can accept up to eight (8) RX/TX modules and provide connections for up to seven (7) output module circuit board assemblies. The ML motherboard is mounted to standoffs on the back of the main system enclosure. It distributes 4 Vdc power, CCM RX/TX communications for up to eight (8) RX/TX modules and bus communications to the output modules. The bus communications are provided by an RJ (flat phone cable) style connection. A single RJ connection connects the ML motherboard to the CCM for RX/TX communications. The 4 Vdc is provided by the system power supply via a twoconductor wiring harness. The allowable J9 W JP8 JP7 JP6 JP5 JP4 J J J3 J4 J5 J6 J7 JP3 JP JP COM TBL COM ALM SIG GND Figure 7. MultiLoop Motherboard.7 Output Modules The optional output modules allow the PEGAsys system to interface with external auxiliary devices. These auxiliary devices can be audible/visual signal devices, HVAC systems, elevator recall, power shut down, remote annunciators, agent/sprinkler release system and any other control type output which may need to be interfaced to the system. The output modules plug into the motherboard assembly located on the backplate of the system enclosure. Each module occupies one slot in a motherboard assembly. The modules and the CCM communicate over the RS485 based bus, which uses a sixconductor, phonetype cable to connect the CCM to the motherboard. The PEGAsys singleloop panel has the ability to support a maximum of sixteen (6) output modules, in any combination. However, no more than eight (8) of any one type of module can be used. The system is limited to one CityTie Module. The PEGAsys multiloop panel has the ability to support a maximum of twentythree (3) output modules, in any combination in the system. However, no more than eight (8) of any one type of module can be used, and the system is limited to one CityTie Module. The following paragraphs describe each available output module in greater detail. 485A 485B TB9 TB0 76000600 3 July 003

760000300 PEGAsys.7. SIGNAL OUTPUT MODULE The PEGAsys panel has the capacity for a maximum of eight (8) Alarm Sounder/Signal Output cards, thus providing thirtytwo (3) possible Class B, Style "Y" signal circuits. Each Alarm Sounder/Signal Output card is equipped with supervised 4 Vdc outputs which can operate as Class B, Style Y or Class A, Style Z indicating circuits (see Figure 8)..7.3 AGENT RELEASE OUTPUT MODULE The PEGAsys panel has the capacity for a maximum of eight (8) agent release output modules, providing up to eight (8) release circuits and twentyfour (4) signal outputs on those modules. Figure 8. Signal Output Module.7. RELAY OUTPUT MODULE The PEGAsys panel has the capacity for a maximum of eight (8) Auxiliary Relay Output cards, allowing up to thirtytwo (3) relays. Each Auxiliary Relay Output card is equipped with four (4) Form C, drycontact relay outputs. The ability to isolate an individual relay output is provided through the system operator menu. Figure 0. Agent Release Output Module.7.4 CITYTIE MODULE The CityTie (Notification) Module will provide connection and operation for local energy or shunt type master boxes and reverse polarity styles of offpremises reporting. 76000000 Figure. City Tie Module Figure 9. Relay Output Module July 003 4 76000600

PEGAsys.8 Remote Display/Control Modules The remote display control modules permit system events to be displayed, and operator intervention to be accomplished, from more than one location in a facility. Two styles of remote display modules are available; Model RDCM is a duplicate of the PEGAsys Display/Control Module and allows full operator intervention and system control, while Model RDM is a displayonly module that only permits the viewing of the current system events. 5.000 4.65 0.88 Out B Out A In B In A 4 V Com PS Flt Earth Gnd A B W S Trouble Sup. Sil. Out Pre Alm Alarm Pwr On S ATML/R Lamp Test Com Ack Reset Silence Drill LK6 LK4 LK LK0 LK8 LK6 LK4 LK LK7 LK5 6 5 LK3 4 3 LK 0 LK9 9 8 7 LK7 6 5 LK5 4 3 LK3 LK LK3 LK9 LK7 LK5 LK3 LK LK9 LK3 3 LK30 3 30 LK8 9 8 7 LK6 6 5 LK4 4 3 LK 0 LK0 9 8 7 LK8.375 5.75 8.000 System Status Display AC POWER SYSTEM TROUBLE SYSTEM ACKNOWLEDGE SILENCE Note: ALARM PREALARM SUPERVISORY SILENCE SYSTEM RESET SCROLL Maintain a minumum onehalf (/) inch clearance around ATML and ATMR Modules when installed in mounting enclosure. R Figure. RDCM Keypad.9 ATM Series Driver Modules The ATM Series Driver Modules permit thirdparty graphical annunciators and large numbers of auxiliary relays to be used with the PEGAsys Control Unit. Two types of driver modules can be used, Models ATML and ATMR. The Model ATML Annunciator Driver Module provides the PEGAsys Control Unit with up to 3 programmable, supervised LED outputs for graphical or tabular annunciators, along with 6 systemlevel LED outputs and 5 systemlevel input circuits for functional switches. The systemlevel LEDs correspond to the following general conditions: Module Power, Alarm, PreAlarm, Alarm Silence, Supervisory, and Trouble. The input circuits for functional switches provide for the following operator intervention: System Reset, Event Acknowledgment, Alarm Silence, Fire Drill, and Lamp Test. The Model ATMR Relay Driver Module can activate up to 3 programmable, supervised relays. The PEGAsys supports up to 6 ATML or ATMR Driver Modules, or any combination of these two modules, along with RDCMs and RDMs, that does not exceed 3 total addresses. 6 7 3 8 4 9 5 0 Figure 3. Module Mounting Dimensions.0 Network Interface Card The Network Interface Card allows multiple PEGAsys Control Units to be combined into an integrated, peertopeer network for annunciation, event output control, and operator intervention. D BNA BNA BIA BIA TB4 TB TB3 R U8 R36 R0 U5 R4 R40 U0 U C6 U9 R44 U4 R7 U6 R3 R C9 C U7 U0 Q4 C8 U5 R7 Q3 Q R6 Q C7 R8 U6 R8 R7 C7 KIDDEFENWAL, INC. ASHLAND, MA 07 R43 R4 RV E8 C0 RV R4 R3 K4 RV0 R5 CR E7 RV6 RV4 RV5 E4 R6 K R5 E3 E6 RV8 RV9 RV7 CR K3 R4 R3 E5 TB K E R RV RV3 RV U U3 E C3 R C8 U7 NETWORK INTERFACE CARD CAT. NO. 740003600 C6 C0 R3 C U C3 R C5 C5 C C4 R3 Figure 4. Network Interface Card J DS4 C7 R46 R45 N DS N CR3 DS3 I C DS I R4 U9 C C5 R0 U3 C4 R9 R9 R38 C4 C3 R34 Y U U4 GND R33 U8 5 TP TP I TP3 N TP4 N TP5 I TP6 R5 76000600 5 July 003

. Standby Batteries Space is provided within the central control panel enclosure for up to two () V, 33 AH, sealed leadacid batteries used for 4, 60 or 90hour standby operation. If additional batteries are required, an optional battery enclosure is available. The enclosure (Figure 5) is a heavy duty steel cabinet that can house up to two () 40 AH batteries. For installation information, see Paragraph 79...3 SmartOne Detector Bases The SmartOne series of detection devices use universal mounting bases which are available in three styles:. The 4SB is a subfloor style 4inch base with an outside diameter that matches that of the low profile SmartOne detectors. The 4SB, shown in Figure 7, mounts to standard 3 inch/3.5inch, or 00mm electrical boxes. FIRE ALARM SYSTEM STANDBY BATTERIES KIDDE Figure 5. Battery Enclosure. Intelligent Loop Devices The SmartOne Series of Intelligent Fire Alarm Devices provides the PEGAsys control system with smoke and heat detection, and necessary monitoring and control functions required by advanced fire alarm systems. The following paragraphs describe each available intelligent detection device. Figure 7. 4inch Detector Base. The 6SB model, shown in Figure 8, is a traditionally styled detector base with an integral trim ring which provides coverage for any inconsistencies between the electrical box and ceiling material. The 6SB mounts to standard 3 inch/3.5 inch/4inch electrical boxes. Figure 6. SmartOne Detection Device.. SMARTONE IONIZATION DETECTOR The SmartOne Ionization smoke detector provides true distributedintelligence, addressable microprocessorbased smoke detection to the PEGAsys system... SMARTONE PHOTOELECTRIC DETECTOR The SmartOne Photoelectric smoke detector provides true distributedintelligence, addressable microprocessorbased smoke detection to the PEGAsys system...3 SMARTONE HEAT DETECTOR The SmartOne Thermistor heat detector provides true distributedintelligence, addressable, microprocessorbased heat detection to the PEGAsys system. Figure 8. 6inch Detector Base.4 Addressable Contact Input Device The SmartOne Contact Monitor (P/N 7040700800X) allows an installer the ability to interface typical NO/NC fire alarm devices (i.e., water flow and tamper switches) to the PEGAsys system. The contact monitor is also used to interface to manual alarm, manual release and abort stations. 8 () LED SmartOne TM MODEL AI, N/O 7 () LED 6 B SW CAT. NO. 7040700800 SEE INSTALLATION INSTRUCTIONS 5 A SW 063557800 4 3 MAX. INSTALL. TEMP. 0 F FOR SERVICE SEND TO: KIDDEFENWAL, INC. 400 MAIN ST. ASHLAND, MA 07 DATE OF MANUFACTURE: PC PC PC PC () () () () ALL TERMINALS ARE POWER LIMITED Figure 9. Addressable Contact Input Device July 003 6 76000600

R PEGAsys.5 Addressable Relay Output Device The addressable relay output device (P/N 7040800400) provides the PEGAsys system with a Form C drycontact interface for remote control applications. 7 SmartOne TM MODEL AO 6 5 N/C COM N/O CAT. NO. 7040800400 SEE INSTALLATION INSTRUCTIONS 063557700 4 3 MAX. INSTALL. TEMP. 0 F FOR SERVICE SEND TO: KIDDEFENWAL, INC. 400 MAIN ST. ASHLAND, MA 07 DATE OF MANUFACTURE: PC PC PC PC () () () () TERMINALS 4 ARE POWER LIMITED TERMINALS 57 ARE POWER LIMITED LED J R Underwriters Laboratories Inc. LISTED REFER TO INSTALLATION MANUAL P/N 76000600 FOR MODULE INSTALL. PROCEDURES SHORT SHORT R DS DS KIDDEFENWAL, INC. ASHLAND, MA 07 Figure 3. Loop Isolator, RX/TX Mount LOOP ISOLATOR RX/TX Figure 0. Addressable Relay Output Device.6 Model DH000 Air Duct Housing The DH000 air duct housing is designed for detecting particles of combustion products in airhandling systems. R Underwriters Laboratories LISTED DUCT DETECTOR MODEL DH000 Figure. Air Duct Housing.7 Loop Isolator Devices The SmartOne series of loop isolation devices, shown in Figures through 4, offer optional loop isolation which protects the loop from wiretowire short conditions (NFPA Style 7.0). Figure 4. Loop Isolator, 6inch Detector Base Mount.8 ORION XT Interface Module The PEGAsys Addressable Loop Module (PALM) permits direct connection of an ORION XT HighSensitivity Smoke Detector (HSSD) to a signaling line circuit of the PEGAsys Control Unit. The ORION XT reports prealarm, alarm and trouble status by individual location (i.e., address) to the PEGAsys Control Unit via the PALM. The PALM is housed within the ORION XT HSSD enclosure and plugs into a receptacle on the Detector's printed circuit board. Figure 5. PALM Interface Module for ORION XT HSSD Figure. Loop Isolator, StandAlone 76000600 7 July 003

.9 Addressable AlarmLine Module The Addressable AlarmLine Module (AAM) permits an AlarmLine sensor cable to be directly interfaced to the PEGAsys Control Unit. The AAM transmits prealarm, alarm, and trouble signals to the Central Control Module via the RX/TX s signaling line circuit. Alternatively, the AAM can be configured to transmit an overheat signal to the Control Unit for those applications that require excessivelyhigh temperature indications. Table. System Specifications ITEM Power Supply CHARACTERISTIC S * Power Requirement: 0/0 V, 50/60 Hz P.S. Input (Per Module) P.S. Output (Per Module) Bat. Charger Output: 0 Vac,.9 Amps 0 Vac,.95 Amps 4 Vdc, 4 Amps 6.4 Vdc, 3 Amps Figure 6. Addressable AlarmLine Module.0 Addressable Signal/Sounder Module The Addressable Signal/Sounder Module (ASM) permits notification appliances to be controlled via commands issued from the PEGAsys Control Unit s signaling line circuit. The ASM is designed to mount in a standard electrical box. AUXILIARY MODE P=&3 S=& ON A B A B PC LINE AUX./AUDIO MODE SETTINGS TM KIDDEFENWAL, INC. ASHLAND, MA 07 U.S.A. CAT. NO. 70000000 INSTRUCTIONS P/N 06357700 PC LINE TERMINALS POWER LIMITED ALL OTHERS POWER LIMITED DEVICE ADDRESS # ADDRESSABLE SIGNAL/SOUNDER MODULE (ASM) AUDIO MODE P=& S=3 ON AUX. IN TM TROUBLE OUTPUT CKT. CKT. UR L FM APPROVED Figure 7. Addressable Signal/Sounder Module 3 SYSTEM SPECIFICATION System power specifications are outlined in Table. Aux. Outputs: () CCM Signal Output: Release Output: Relay Contact Rating: Trouble Relay Rating: RX/TX Module Max. Voltage: Min. Voltage: Max. Line Max. Line Capacitance: Resistance: Max. Addressable Devices: Release Module Release Output Signal Output Release Output Type: Signal Audible Signal Outputs: Relay Module Contact Rating: City Tie Module Shunt Contact: Module Local Energy Output: Local Energy Supervisory: Local Energy Load: 4 Vdc,.5 Amps each 4 Vdc, Amps 4 Vdc, Amps Amp @ 30 Vdc Amp @ 30 Vdc 6.4 Vdc 9.0 Vdc 0.5 uf 6 Ohms 55 per RX/TX Amps @ 4 Vdc Amps @ 4 Vdc each Capable of releasing solenoids (suppression and sprinkler) (4) Class B, Style "Y" or () Class A Style "Z" Amps @ 4 Vdc each (4) Form C Contacts, Amps @ 30 Vdc or Amp @ 0 Vac 5 Amps @ 4 Vdc, Resistive 500 ma max. @ 4 Vdc, Current Limited ma Master Box Trip Current 0.5 Amps typical *Note: Refer to Appendix A for branch circuit requirements. total system power and AC July 003 8 76000600

CHAPTER OPERATION INTRODUCTION This chapter describes the PEGAsys system controls and indicators located on the display panel. It also describes the operating procedures and menu system.. Modes of Operation There are two modes of PEGAsys system operation:. In the default operation, the panel will be set to latch all alarm inputs in the system. The latching operation will not allow the loop input devices to generate an "alarm off" signal that would possibly interrupt a discharge time delay sequence. To return the panel to normal, the "RESET" button will need to be pushed.. The second mode of operation is nonlatching. This option can be enabled using the PEGAsys Configuration Software (PCS) to define if a loop device input is to be nonlatching. The nonlatching operation will allow the loop input devices to generate an "alarm off" signal to the panel. When this signal is received, the panel would interrupt the discharge time delay sequence of operation. However, all outputs that had been activated previous to the "alarm off" signal will remain on and latched until the panel is reset. The advantage of offering latching or nonlatching operation per loop input device is that it allows the installer/designer to customize the system. This allows the intermixing of latching and nonlatching devices to protect critical areas where both types may be specified. When an alarm returns to a normal state (alarm off), the buzzer will sound in a pulsed fashion. The "alarm off" condition must be acknowledged to silence the buzzer. During the "alarm off" condition, the audible device provides no sound. The following summarizes the buzzer operation: Alarm condition is indicated by a continuous ON signal, Alarm OFF is indicated by a ½second ON ½second OFF signal, and Trouble condition is indicated by a second ON, and second OFF continuous beeping. Every individual change of status must be individually acknowledged by pressing the <ACKLDGE> (acknowledge) button to silence the Audible device. CONTROLS AND INDICATORS The control and indicators of the PEGAsys system are located on the display panel, shown in Figure. The display panel is mounted on top of the CCM. To gain access to the CCM, the panel door must be open. Table lists controls and indicators for the display unit, listing name and functional description.. LCD Display The display panel contains an 80character ( x 40) alphanumeric display. This LCD display is used to present system status. In the procedure section of this chapter there are several simulated LCD display readouts. The LCD display readouts will be used to aid users in the operation of the system. SYSTEM STATUS DISPLAY AC POWER ALARM PREALARM SYSTEM TROUBLE SUPERVISORY SILENCE SYSTEM ACKNOWLEDGE SYSTEM RESET SILENCE SCROLL R Figure. System Front Panel 76000600 July 003

Table. Controls and Indicators LED FUNCTION AC POWER When illuminated, indicates that the system is receiving AC input power. When off, indicates an AC input power failure has occurred (trouble condition) and the system has switched to a battery standby condition. A LARM When illuminated, indicates an alarm condition has been reported by an input device. PREALARM When illuminated, indicates a smoke or heat detector smoke or heat which exceeds its prealarm setpoint. or an HSSD has sensed a level of S YSTEM TROUBLE When illuminated, indicates a trouble condition exists in the system. SUPERVISORY When illuminated, indicates a supervisory condition has been reported by a systeminput device programmed for supervisory input. S ILENCE When illuminated, indicates the signal/audible outputs have been silenced. SWITCH SYSTEM ACKNOWLEDGE SYSTEM RESET SILENCE SCROLL FUNCTION When pressed after an alarm ON (alarm OFF if input device is set for nonlatching) trouble, supervisory, or prealarm ON condition has occured, it silences the control unit's audible buzzer. The "ALARM", "TROUBLE", "SUPERVISORY", or "PREALARM" LED indicator glows steady to indicate that the condition has been acknowledged. Subsequent conditions will cause the control unit to resound the above sequence. When pressed after all active alarms have been acknowledged and cleared, the system: Resets auxiliary 4 Vdc outputs used to power 4 wire detectors Resets all latched alarm conditions. Returns all relays to their normal state. Displays "System Reset" on the visual display. Turns the "ALARM" indicator off. The reset button must be pressed once to reset 4wire smoke and HSSD detectors and once to reset the Control Unit When pressed after acknowledging current alarm, it silences the system signal outputs which have been programmed as silenceable. The "SILENCE" indicator illuminates to indicate that the signal outputs have been silenced. Pressing the "SILENCE" switch does not affect the relay output status. When pressed during an active alarm, trouble, or supervisory condition, will cause the LCD to scroll through the active event buffer(s). An alarm condition will not allow supervisory or troubles to be viewed. Supervisory condition will not allow the troubles buffer to be viewed. N UMERIC KEYPAD (0) Use to enter password and system information into the menu system. B ACKSPACE Use to exit the menu system and to correct wrong entries. R ETURN Used as the Enter key when using the menu system. July 003 76000600

. Audible Device The Display Panel also contains an audible device which generates two separate audible tones: one for alarms and one for all other events. This device sounds continuously when a new alarm condition is received until the condition is acknowledged. It also sounds intermittently when a trouble, supervisory or prealarm condition is received until the condition is acknowledged. 3 SYSTEM SECURITY The PEGAsys system provides three distinct levels of program protection, as required by UL Standard 864. The user can only access the system by entering a valid password. Typical valid passwords consist of three or four characters, but may be up to eight characters in length. 3. Levels of Security The three security levels are: Level One (system owner), Level Two (system installer) and System Manufacturer (the highest security level reserved for the system manufacturer). Passwords consist of numeric characters (09) and allow access to the system from the integral keypad of the CCM. Passwords help to lock out any possible entry to the menus through the CCM keypad. Alphanumeric characters can only be used with the PCS program. However, they will lock out any possible entry to the menus from the keypad if used. If alphanumeric passwords are necessary for a particular application, it is recommended that the Level One password be numeric and the Level Two password be alphanumeric so as to allow the user to retrieve system information (system information lists) and also prevent a user from changing any programmed system parameters. 3. Default Passwords The PEGAsys system provides protection from unauthorized entry to the system menus by utilizing two levels of default passwords: Level One and Level Two. This feature provides two separate passwords, which increase the security of the system. Default passwords are set when the system is shipped from Kidde. These default passwords are: Level One = 987 Level Two = 865 These default passwords are valid until other passwords are programmed into the system. 3.3 Entering Passwords The password entry procedure is listed below:. Verify that the system status is displayed.. Press zero (0) key. Verify that the display reads: PLEASE ENTER PASSWORD 76000600 3 3. Type in three or four digit password into keypad. Ensure a pound sign (#) appears for each key pressed. Note: Use the default password if a new password has not been set. 4. Press the return ( ) key. Verify that the display reads: :ISOLATE :LIST 3:SET 4:TEST 4 SYSTEM POWERUP The following stepbystep procedure is for initial powerup of the CCP.. Perform the installation checkout procedure in Chapter 7 of this manual.. Set the circuit breaker for the CCP power to ON. Verify that the display reads "Main Processor Power On". Ensure that the audible device is buzzing continuously. 3. Press the display module reset switch. Verify that the audible device is silenced. 4. Verify that the display reads as follows: MAIN PROCESSOR POWER ON 5. After ten seconds, verify that the display reads as follows: RXTX NONMONITORING TROUBLE ON RXTX Note: For multiloop systems only. The above and below RX/TX messages will repeat themselves for each RX/TX module installed in the system. The above message will be displayed while the system is initializing itself. This initialization can take up to 90 seconds. To clear the below RX/TX message, use the AutoLearn function from the menu function or upload the configuration from the PCS program. If using PCS software, verify that the correct number of RX/TX loops is enabled in the Loops Topic of the configuration file prior to uploading. RX/TX NOT REGISTERED ON RX/TX LOOP 6. Verify that the POWER ON and TROUBLE indicators are lit. 7. Connect the backup batteries to the power supply in accordance with the procedure in Chapter 7. 8. Press the <ACKLDGE> button. After approximately one minute the display will momentarily read: RXTX NONMONITORING TROUBLE OFF 9. Verify the display reads the incorrect time and date. 0. Set time and date as follows: a. Press zero (0) key. Verify that the display reads: PLEASE ENTER PASSWORD July 003