FN2000_DIOM

FenwalNET

TM

₂₀₀₀

Fire Alarm/Suppression

Control System

Installation, Operation

and Maintenance Manual

Date: May 2001

P/N: 74-200016-001

UL Listing File No: S2422

Factory Mutual Approval J.I. No: 3005511

R

LISTED

FenwalNET

2000

Fire Alarm/Suppression

Control System

Installation, Operation

i

FOREWORD

This manual is intended to clearly and accurately reflect the FenwalNET™ 2000 Fire Alarm/Suppression Control System. This publication describes the operation, installation and maintenance for the FenwalNET 2000C Fire Alarm/Suppression Control System, P/N 74-200000-010.

TERMS AND ABBREVIATIONS

ID - Identification

IRI - Industrial Risk Insurers

N.C.- Normally Closed N.O.- Normally Open

NR - Not Registered

P/N - Part Number

PAS - Positive Alarm Sequence

PC - Personal Computer

P.C. Line- Power/Communication Line (RX/TX Loop)

P.S.- Power Supply

RCU- Remote Control Unit RTC - Real Time Clock RX/TX - Receive Transmit

UL - Underwriter Laboratories

VDC - Voltage Direct Current

ACCEPTANCES, APPROVALS, AND CERTIFICATIONS FenwalNET 2000 Single Loop System (P/N 74-200000-501)

• UL: Underwriter’s 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 7165-1076:141

• NYC: New York City Listing Number MEA 454-91-E Vol. VI

FenwalNET 2000 Multi-Loop System (P/N 74-200000-600)

• UL: Underwriter’s 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 7165-1076:141

• NYC: New York City Listing Number MEA 454-91-E Vol. VI

ADA- Americans with Disabilities Act

AI - Addressable Contact Input Device

AIM- AnaLASER® _{Interface Module}

AO - Addressable Relay Output Device

BPM - Beats Per Minute CCM - Central Control Module CCP - Central Control Panel DCC- AnaLASER Detector

EDP- Electronic Data Processing

EOC - Event Output Control FCP’s - Fire Control Panels

FCS- Fenwal Configuration Software

GUI - Graphical User Interface HSD - AnaLASER II Detector

HSSD- High Sensitivity Smoke Detector

IIM Intelligent Interface Module

iii

Foreword ...i

Terms and Abbreviations ...i

Appendices ...vii

List of Illustrations ...viii

List of Tables...x

Safety Summary ...xi

PARAGRAPH TITLE PAGE

1 General Information ... 1-1

1-1 Introduction...1-1

1-1.1 System Description ...1-1

1-1.2 System Components ...1-1

1-2 Component Description ...1-2

1-2.1 Central Control Module (CCM) ...1-2

1-2.2 Display Module ...1-2

1-2.3 Receiver/Transmitter Module (RX/TX) ...1-2

1-2.4 Power Supply/Charger Assembly ...1-2

1-2.5 Basic Motherboard...1-3

1-2.6 Multi-Loop Motherboard ...1-3

1-2.7 Input/Output Modules ...1-3

1-2.7.1 Signal Output Module ...1-3

1-2.7.2 Relay Output Module ...1-4

1-2.7.3 Agent Release Output Module ...1-4

1-2.7.4 Intelligent Interface Module (IIM-2000) ...1-4

1-2.7.5 City Tie Module ...1-5

1-2.8 Standby Batteries ...1-5

1-2.9 Intelligent Loop Devices ...1-5

1-2.9.1 SmartOne Ionization Detectors...1-5

1-2.9.2 SmartOne Photoelectric Detectors ...1-5

1-2.9.3 SmartOne Heat Detectors ...1-5

1-2.10 SmartOne Detector Bases ...1-5

1-2.11 Addressable Contact Input Devices ...1-6

1-2.12 Addressable Relay Output Devices ...1-6

1-2.13 Model DH-2000 Air Duct Housing ...1-6

1-2.14 Loop Isolator Devices ...1-7

1-2.15 AnaLASER Interface Module...1-7

1-3 System Specification ...1-7

2 Operation ... 2-1

2-1 Introduction...2-1

2-1.1 Modes of Operation ...2-1

2-2 Controls and Indicators ...2-2

2-2.1 LCD Display ...2-2

2-2.2 Audible Device ...2-2

2-2.3 Control and Indicator Description ...2-2

2-3 System Security ...2-2 2-3.1 Levels of Security ...2-2 2-3.2 Default Passwords ...2-2 2-3.3 Entering Passwords ...2-2 2-4 System Power-Up ...2-2 2-5 System Menus ...2-4 2-5.1 Menu Structure ...2-4

2-5.2 Accessing the System Menus ...2-4

PARAGRAPH

TITLE

PAGE

2-5.4 Menu Functions ... 2-5

2-5.4.1 Isolate Menu Function ... 2-5

2-5.4.2 List Menu Function ...2-5

2-5.4.3 Set Menu Function ...2-5

2-5.4.4 Test Menu Function...2-5

2-6 Modes of Operation ...2-5

2-6.1 Normal Standby Mode ... 2-5

2-6.2 Active Alarm Mode ...2-5

2-6.2.1 Alarm Mode Indications ...2-6

2-6.2.2 Alarm Mode User Action ...2-6

2-6.3 Active Supervisory Trouble Mode ... 2-6

2-6.3.1 Supervisory Trouble Mode Indication ...2-11

2-6.3.2 Supervisory Trouble Mode User Action...2-11

2-6.4 Active Trouble Mode...2-11

2-6.4.1 Trouble Mode Indications ...2-12

2-6.4.2 Trouble Mode User Action ...2-12

2-7 Printing Operation ...2-12

2-8 System Programming ... 2-12

2-8.1 EOC Programming ...2-13

2-8.1.1 Listing EOC Programming ...2-13

2-8.2 RTC Programming...2-13

2-8.2.1 Listing RTC Programming ...2-13

2-8.2.2 Enable/Disable RTC Program Line Numbers ...2-13

2-8.3 Types of Inputs and Outputs ... 2-13

2-8.3.1 System Inputs ... 2-14

2-8.3.2 Remote Control Unit (RCU) ... 2-14

2-8.3.3 AnaLASER Interface Module Inputs (HSD/DCC) ... 2-14

2-8.3.4 RX/TX Loops ...2-14

2-8.3.5 System Outputs... 2-14

2-8.3.6 System I/O Modules ...2-14

2-8.4 Addressing I/O Modules ...2-14

2-8.5 Registering I/O Module Assignments... 2-15

2-8.5.1 Listing I/O Module Assignment...2-15

2-8.6 Addressing RCUs ...2-15

2-8.7 Registering RCUs ...2-15

2-8.7.1 Detector Registration...2-16

2-8.7.2 Addressable Contact Monitor Registration ... 2-16

2-8.7.3 Remote Relay Registration ...2-17

2-8.7.4 Listing all Registered RCUs ... 2-17

2-8.7.5 Un-registering RCUs...2-17

2-8.8 Registering HSDs (Version 80.X Systems)/DCCs

(Version 60.X through 71.X Systems) and Enabling the IIM-2000 ...2-18

2-8.8.1 Registering HSDs (Version 80.X Systems)/DCCs (Version 60.X through 71.X Systems) ... 2-18

2-8.8.2 Enable/Disabling IIM ...2-18

3 Functional Description ... 3-1

3-1 Introduction...3-1

3-2 Overall Block Diagram Description ... 3-1

3-3 FUNCTIONAL DESCRIPTIONS ...3-2

3-3.1 Central Control Module ...3-2

3-3.2 Receiver/Transmitter Module (RX/TX) ...3-3

3-3.3 Power Supply/Charger Assembly, Revision A ...3-3

3-3.4 Power Supply/Charger Assembly, Revision C ...3-3

3-3.5 Multi-Loop I/O Motherboard... 3-6

3-3.6 Signal Output Module ... 3-6

v

PARAGRAPH

TITLE

PAGE

3-3.8 Agent Release Output Module ...3-7

3-3.9 IIM-2000 Module ...3-9

3-3.10 City Tie Module ...3-9

3-3.11 Field Devices ...3-10

3-3.12 SmartOne Ionization Detectors...3-10

3-3.13 SmartOne Photoelectric Detectors ...3-10

3-3.14 SmartOne Heat Detectors ...3-11

3-3.15 Addressable Contact Input Devices ...3-11

3-3.16 Addressable Relay Output Devices ...3-11

3-3.17 Model DH-2000 Air Duct Housing ...3-12

3-3.18 Loop Isolator Devices ...3-12

3-3.19 AnaLASER Interface Module (AIM) ...3-12

4 Maintenance Procedure ... 4-1

4-1 Introduction...4-1

4-2 Scheduled Maintenance ...4-1

4-3 Maintenance Procedures ...4-1

4-3.1 Lamp Test ...4-1

4-3.2 Loop Device Test ...4-1

4-3.3 Battery Test ...4-2

4-3.4 Walk Test ...4-2

4-3.4.1 Walk Testing Detectors ...4-2

4-3.4.2 Walk Test Procedure ...4-2

4-3.5 Alarm Simulation Test (AST) ...4-3

4-3.5.1 AST Procedure ...4-3

4-4 Disarming and Rearming Release Circuits ...4-3

4-4.1 Disarming Release Circuits ...4-4

4-4.2 Arming Release Circuits ...4-4

4-5 Power-Down System ...4-4

4-5.1 Power-Down Procedure ...4-4

4-6 Power-Up System ...4-4

4-6.1 Power-Up Procedure ...4-4

5 Troubleshooting and Corrective Maintenance ... 5-1

5-1 Introduction...5-1

5-2 Standard Fault Isolation Techniques ...5-1

5-2.1 Visual Inspection ...5-1

5-2.2 Power Checks ...5-1

5-3 Troubleshooting ...5-1

5-4 Removal and Replacement ...5-1

5-4.1 Required Tools ...5-2

5-4.2 Central Control Module ...5-2

5-4.3 RX/TX Module ...5-2 5-4.4 Field Devices ...5-3 6 Parts List ... 6-1 6-1 Introduction...6-1 7 Installation ... 7-1 7-1 Introduction...7-1

7-2 Materials Required for Installation ...7-1

7-3 Installation Procedure for Central Control Panel ...7-1

7-4 Installation Procedure for Expansion Enclosures ...7-1

7-5 Installation Procedure for I/O Motherboard ...7-2

7-6 Installation Procedure for RX/TX Module ...7-2

PARAGRAPH

TITLE

PAGE

7-7.1 Signal Audible Output Module ...7-3

7-7.2 Relay Output Module... 7-4

7-7.3 Agent Release Module ... 7-4

7-7.4 City Tie Output Module ...7-4

7-7.5 IIM-2000 Intelligent Interface Module ...7-4

7-7.6 Power Supply/Charger Assembly ...7-4

7-7.7 Power Supply/Charger Assembly, Expansion Enclosure ... 7-4

7-7.8 Power Supply Communication Connections ...7-6

7-8 Connection AC Power ... 7-6

7-9 Install and Connect DC Power ...7-7

7-9.1 Battery Enclosure...7-7

7-9.2 Batteries ... 7-7

7-10 Field Device Connection to RX/TX Module ... 7-7

7-10.1 Wiring the RX/TX PC Line ...7-7

7-11 Output Signal Connection ...7-9

7-12 External Power Failure Indicator Connection ...7-9

7-13 Detector Installation... 7-10

7-14 Setting and Adjusting Smoke and Heat Detector Sensitivities ... 7-10

7-14.1 Setting And Adjusting Smoke and Heat Detector Sensitivity Procedure ...7-10

7-15 Addressable Contact Input Device Installation ...7-10

7-16 Addressable Relay Output Device Installation ...7-11

7-17 Installation Checkout ... 7-11

7-18 Connection of Peripherals ...7-11

7-18.1 Connecting a Terminal or Personal Computer ...7-11

vii

A Power Supply Requirments ...A-1

B System Expansion ...B-1

C Releasing Applications ...C-1

D Not Used...D-1

E Factory Mutual Sprinkler Requirements ...E-1

F Glossary ...F-1

G Display Abbreviations ...G-1

H Index ...H-1

I System Drawings ...I-1

J FenwalNET Network Interface Card ...J-1

K Addressable Signal/Sounder Module ...K-1

L Remote Display Control Module and Remote Display Module ...L-1

M Addressable AlarmLine Module...M-1

N Networkable Central Control Module ...N-1

O Central Station Operation ...O-1

FIGURE

TITLE

PAGE

1-1 FenwalNET 2000 System, Overall Diagram ... 1-D

1-2 Central Control Module (CCM) ...1-2

1-3 Display Module Assembly ...1-2

1-4 Receiver/Transmitter Module (RX/TX) ...1-2

1-5 Power Supply/Charger Assembly ...1-3

1-6 Basic I/O Motherboard ... 1-3

1-7 Multi-Loop I/O Motherboard... 1-3

1-8 Signal Output Module ... 1-4

1-9 Relay Output Module... 1-4

1-10 Agent Release Output Module ... 1-4

1-11 IIM-2000 Intelligent Interface Module ...1-5

1-12 City Tie Module... 1-5

1-13 Battery Enclosure...1-5

1-14 SmartOne Detection Device ... 1-5

1-15 4-inch Detector Base ... 1-6

1-16 6-inch Detector Base ... 1-6

1-17 MA-002 Base Adapter ... 1-6

1-18 Addressable Contact Input Device ... 1-6

1-19 Addressable Relay Output Device ... 1-6

1-20 Air Duct Housing ...1-6

1-21 Loop Isolator, Stand-Alone ... 1-7

1-22 Loop Isolator, RX/TX Mount ... 1-7

1-23 Loop Isolator, 6" Detector Base Mount ...1-7

1-24 AnaLASER Interface Module for the AnaLASER Detector ...1-7

1-25 AnaLASER Interface Module for the AnaLASER II Detector ...1-7

2-1 System Front Panel ...2-1

2-2 Level One Menu Structure ...2-7

2-3 Level Two Menu Structure ...2-8

3-1 Overall Block Diagram, Single-Loop System ...3-1

3-2 Overall Block Diagram, Multi-Loop System... 3-1

3-3 Central Control Module, Details ...3-2

3-4 Receiver/Transmitter Module, Details ...3-4

3-5 Obsolete Power Supply/Charger Assembly (Revision A), Details ...3-5

3-6 Power Supply/Charger Assembly (Revision C), Details ... 3-5

3-7 Multi-Loop I/O Motherboard, Details ...3-6

3-8 Signal Output Module, Details ...3-8

3-9 Relay Output Module, Details ... 3-8

3-10 Agent Release Output Module, Details ...3-9

3-11 Intelligent Interface Module - 2000... 3-9

3-12 City Tie Module, Details ...3-10

3-13 Typical Detector ... 3-10

3-14 Addressable Contact Input Device ... 3-11

3-15 Addressable Relay Output Device ... 3-11

3-16 DH-2000 Air Duct Housing ... 3-12

3-17 Loop Isolator, RX/TX Mount ... 3-12

3-18 Loop Isolator, Stand-Alone ... 3-12

3-19 Loop Isolator, 6" Detector Base Mount ...3-12

3-20 AnaLASER Interface Module for AnaLASER Detectors ... 3-13

ix

FIGURE

TITLE

PAGE

5-1 Installation for Single Loop ...5-2

5-2 Installation for Multi-Loop ...5-2

7-1 CCP Installation Drawing ...7-1

7-2 Back Plate, I/O Motherboard & 4 P.S. ...7-2

7-3 Back Plate, 8 P.S. ...7-2

7-4 Back Plate, 2 I/O Motherboard ...7-2

7-5 Installation for Multi-Loop ...7-3

7-6 Power Supply/Charger (Rev A), Wiring Diagram ...7-5

7-7 Power Supply/Charger (Rev C), Wiring Diagram ...7-5

7-8 Power Supply/Charger (Rev A), Wiring Diagram for Expansion Enclosure ...7-5

7-9 Power Supply/Charger (Rev C), Wiring Diagram for Expansion Enclosure ...7-5

7-10 Battery Enclosure...7-7

7-11 Conduit to CCP ...7-8

7-12 Shielded Wire to CCP ...7-8

7-13 Style 4, RX/TX PC Line Connections ...7-8

7-14 Style 6, RX/TX PC Line Connections ...7-8

7-15 Style 6, RX/TX PC Line Connections with Loop Isolators ...7-9

7-16 Style 7, RX/TX PC Line Connection ...7-9

TABLES

TITLE

PAGE

1-1 System Specifications ... 1-8

2-1 Controls and Indicators ...2-3

2-2 Isolate Menu Function ... 2-9

2-3 List Menu Function ...2-9

2-4 Set Menu Function ...2-10

2-5 Test Menu Function...2-11

3-1 Multi-Loop I/O Motherboard Connectors... 3-6

3-2 Approved Release Output Devices ... 3-7

5-1 Troubleshooting Index... 5-1

5-2 RX/TX Configuration Selection ...5-3

6-1 FenwalNET 2000 System Parts List ... 6-1

7-1 RX/TX Configuration Selection ...7-3

7-2 Aux Power Supply Module Connections to Rev A, Main

Power Supply/Charger Assembly ...7-6

7-3 Aux Power Supply Module Connections to Rev C, Main

xi

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. Do not attempt to install, service, or operate this unit until this manual is read and understood.

CAUTION

!

System Re-acceptance Test after Software Changes: To ensure proper system operation, this product must be tested in accordance with NFPA - 1999 Chapter 7 after any programming operation or change in site-specific software. Re-acceptance 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 100% tested. In addition, to ensure that other operations are not inadvertently affected, at least 10% 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% RH (non-condensing) @ 30°C. However, the useful life of the system’s standby batteries and the electronic components may be adversely affected by extreme temperature ranges and humidity. Therefore, it is recommended that this system and its peripherals be installed in an environment with a nominal room temperature of 60-80°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 difficult with screw terminal removal.

This system contains static-sensitive components. Always ground yourself with a proper wrist strap before han-dling any circuits so that static charges are removed from the body. Use static suppressive packaging to protect electronic assemblies removed from the 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. FN-2000 operation and reliability depend upon proper installation.

Fire Alarm System Limitations: While installing a fire alarm system may make lower insurance rates

pos-sible, 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 with remote notification-capability can provide early warning of a develop-ing fire. Such a system, however, does not assure protection against property damage or loss of life resultdevelop-ing from a fire.

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 play-ing 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.

• Rate-of-Rise heat detectors may be subject to reduced sensitivity over time. For this reason, the rate-of-rise 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. 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 manula is to be used by trained distributors/technicians. The entire manual should be read and fully understood prior to instal-lation.

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 immedi-ately.

GENERAL PRECAUTIONS

The following general safety precautions are to be observed at all times:

1. All electrical components associated with equipment shall be installed and grounded in accordance with NEC, NFPA and local regulation requirements.

2. 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 system is not energized.

4. When working near electricity, do not use metal rules, flashlights, metallic pencils, or any other objects having exposed conductive material.

Figure 1-1. F enwalNET 2000 System, Overall Diagram

CHAPTER 1

GENERAL INFORMATION

1-1 INTRODUCTION

This manual contains the operation, maintenance, troubleshooting, parts listing and installation

informa-tion necessary to support the FenwalNETTM _{2000 Fire}

Alarm/Suppression Control system (hereinafter referred to as the FenwalNET 2000 system).

Note: This manual is to be used by trained distribu-tors only. The entire manual should be read and fully understood prior to installation.

1-1.1 System Description

The FenwalNET 2000 is a fire alarm/suppression con-trol system which can be used for Local, Auxiliary, Re-mote 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 in-put devices relay outin-puts and signal outin-put modules which represent a single fire alarm initiation/indicating zone. Each device contains its own data transceiver, micro controller, 4k of memory and applicable algo-rithms which allows each device to operate independent of the control system. These unique devices have the ability to analyze information, make decisions and store information within themselves. They communicate with the FenwalNET 2000 system using the FenwalNET BIP protocol which utilizes a two-wire (Style 4), four-wire (Style 6) or isolated (Style 7) multiplex trunk. The FenwalNET 2000 can support up to 255 device ad-dresses per loop with a maximum of 8 loops for a total of 2040 Intelligent device points per system.

The FenwalNET 2000 is capable of controlling a wide variety of auxiliary devices such as relays, audible vi-sual indicating signal devices and agent/sprinkler release systems. The system also supports the use of serial printers which provide hard copy of system status in-formation.

There are three versions of the FenwalNET 2000 cur-rently in service. These three versions are identified as: • Pre-network,

• Networkable, and

• Networkable and compatible with AnaLASER II. Pre-networked systems have operating firmware in the Central Control Module (CCM) that ranges from Ver-sion 48.0 to VerVer-sion 61.1.

Networkable systems have a modified CCM that can accept a Network Interface Card (NIC) for peer-to-peer control unit operations, and can accommodate Remote Display Modules and Remote Display Control Modules. Networkable systems have CCM firmware that ranges from Version 70.0 to Version 71.0.

Networkable systems that are compatible with AnaLA-SER II air-sampling systems have Version 80.X CCM firmware.

1-1.2 System Components

The system is comprised of three major components as shown in Figure 1-1: the Central Control Panel (CCP) 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 provides system sta-tus LED’s, Control Switches; and a 80-character LCD for alphanumeric display of system status information. The Single Loop FenwalNET 2000 Central Control Panel (P/N 74-200000-001) consists of the Central Control Module (CCM) assembly, one Receiver/Transmitter (RX/ TX) module and one Power Supply assembly. Option-ally the system can add a motherboard assembly which allows the installation of optional output modules. An auxiliary power supply module can be added which in-creases the base system power supply capacity to 8.0 Amps of 24 Vdc power.

In Multi-Loop form, the FenwalNET 2000 ML Panel (P/N 74-200000-100) consists of a CCM, one power-supply assembly, one RX/TX module and one Multi-Loop motherboard mounted in the enclosure. The unique multi-loop motherboard provides the ability to connect up to 8 RX/TX modules to the system allowing a full 2040 addressable points to be connected to the FenwalNET 2000 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 ab-sence of the window in the door. There are optional back planes that are installed in the expansion enclosure which allow the number of I/O modules and system power supplies to be expanded. To allow for maximum system flexibility, expansion enclosure(s) and backplane(s) can be added to the system. Refer to Ap-pendix B for further system expansion details.

TM R SILENCE SUPERVISORY TROUBLE SCROLL RESET PRE-ALARM ALARM POWER ON System Status ACKNOWLEDGE SILENCE 7 0 8 9 1 4 2 3 5 6

Figure 1-3. Display Module Assembly

1-2.3 Receiver/Transmitter Module (RX/TX)

The RX/TX functions as the hardware and software in-terface between the field devices and the CCM. The RX/ TX receives control requests from the CCM and estab-lishes 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 1-4 is capable of communicating with up to 255 intelligent devices and complies with the wiring require-ments of NFPA Style 4, 6 and 7 (with the use of the loop isolator device). Style 4 initiation circuit wiring will per-mit “T” tapping or branch circuitry.

1-2.4 Power Supply/Charger Assembly

The power supply/charger assembly (P/N 74-200009-010) is comprised of a printed circuit board (PCB) assembly and a AC/DC switching power supply unit. The switching power supply unit provides 4 Amps of 24 Vdc power from the 120/240 Vac input power. The PCB assembly is a microprocessor based unit which provides the system with:

• Battery charging and supervision • AC power supervision

• 24 Vdc supervision • Battery load test

• 24 Vdc ground fault detection (+/-) • Auxiliary 24 Vdc outputs

Loop Isolator for Style 7

Figure 1-4. Receiver/Transmitter Module (RX/TX)

1-2 COMPONENT DESCRIPTION

The following paragraphs give a brief description of each components used in the FenwalNET 2000 system. For functional descriptions of each component, see Chapter 3 of this manual.

1-2.1 Central Control Module (CCM)

The CCM assembly, Figure 1-2, is the heart of the sys-tem and is comprised of two PCB assemblies, the dis-play module and the main processor module. The CCM controls the operation and supervision of all the sys-tem modules and software within the FenwalNET 2000 system. It receives loop device data from the RX/TX module, processes the data based on pre-programmed instructions and transmits output commands to the output modules, field devices and display module(s).

1-2.2 Display Module

The display module assembly (Figure 1-3), which is at-tached to the main processor PCB, provides the system with the operator interface for control switches, system status LEDs, system trouble/alarm buzzer, an 80-char-acter (2 x 40) LCD display and an integral numeric key-pad. The keypad is used for entering the security password and navigating through the user menus. The system buzzer provides two distinctly different signal-ing patterns for audible warnsignal-ing of system alarms and troubles.

Figure 1-5. Power Supply/Charger Assembly

1-2.5 Basic Motherboard

The basic I/O motherboard assembly (P/N 74-200007-001), Figure 1-6, is an assembly which can accept up to eight (8) I/O module circuit board assemblies. The motherboard is mounted to the back of the system en-closure and /or the auxiliary enen-closures. It distributes 24 Vdc power to the system and I/O bus communica-tions to the I/O modules. The I/O bus communicacommunica-tions are provided by a RJ-12 (flat phone cable) style connec-tion. The system power supply provides the 24 Vdc via a 2-conductor wiring harness. The I/O motherboard mounts to standoffs on the back of the main and expan-sion enclosures with provided screws.

Figure 1-6. Basic I/O Motherboard

1-2.6 Multi-Loop Motherboard

The multi-loop I/O motherboard assembly (P/N 74-200017-001), Figure 1-7, is an assembly which can ac-cept up to eight (8) RX/TX modules and provide connections for up to 7 I/O module circuit board assem-blies. The ML motherboard is mounted to standoffs on the back of the main system enclosure. It distributes the system 24 Vdc power, CCM-RX/TX communications for up to 8 RX/TX modules and I/O bus communica-tions to the I/O modules. The I/O bus communicacommunica-tions are provided by a RJ-12 (flat phone cable) style

connec-tion. A single RJ-12 connection connects the ML motherboard to the CCM for RX/TX communications. The system power supply provides the 24 Vdc via a 2 conductor wiring harness.

Figure 1-7. Multi-Loop I/O Motherboard

1-2.7 Input/Output Modules

The optional input/output modules allow the FenwalNET 2000 system to interface with external auxiliary devices. These auxiliary devices can be audible/visual signal de-vices, HVac systems, elevator recall, power shut down, remote annunciators, agent/sprinkler release system and any other control type input or output which may need to be interfaced to the system.

The input and output modules plug into the motherboard assembly located on the back plate of the system enclo-sure. Each I/O module occupies one slot in the motherboard assembly which has eight slots available. The I/O modules and the CCM communicate over the RS-485 based I/O bus, which uses a six-conductor phone type cable to connect the CCM to the motherboard. The FN-2000 Single-Loop panel has the ability to sup-port a maximum of 16 I/O modules, in any combina-tion, on the system. However, no more than eight of any one type module can be used. If using a City Tie module, the system is limited to one I/O module.

The FN-2000 Multi-Loop panel has the ability to sup-port a maximum of 23 I/O modules, in any combina-tion, on the system. However, no more than eight of any one type module can be used. If using a City Tie module, the system is limited to one I/O module.

The following four paragraphs describe each available I/O module in greater detail.

1-2.7.1 SIGNAL OUTPUT MODULE

The FenwalNET 2000 panel has the capacity for a maxi-mum of eight (8) Alarm Sounder/Signal Output cards, thus providing 32 possible signal circuits. Each Alarm Sounder/Signal Output card, Figure 1-8, is equipped with supervised 24 Vdc outputs which can operate as Style “Y” or Style “Z” indicating circuits.

74-200003-001

Figure 1-8. Signal Output Module

1-2.7.2 RELAY OUTPUT MODULE

The FenwalNET 2000 panel has the capacity for a maxi-mum of eight (8) Auxiliary Relay Output cards, allowing up to 32 relays. Each Auxiliary Relay Output card (shown in Figure 1-9) is equipped with four (4) Form C, dry contact relay outputs. The ability to isolate an indi-vidual relay output is provided through the system op-erator menu.

Figure 1-9. Relay Output Module

1-2.7.3 AGENT RELEASE OUTPUT MODULE

The FenwalNET 2000 panel has the capacity for a maxi-mum of eight (8) agent release output modules, provid-ing up to eight release circuits and 24 maximum signal outputs on those modules.

Figure 1-10. Agent Release Output Module

1-2.7.4 INTELLIGENT INTERFACE MODULE

(IIM-2000)

The IIM-2000 Intelligent Interface Module is a commu-nication controller that can monitor multiple AnaLASER Detectors. The Detectors report pre-alarm, alarm and trouble status changes to the FenwalNET 2000 Control Unit via the IIM-2000 Module. The IIM-2000 also offers the ability to interrogate the AnaLASER Detectors and/ or FenwalNET 2000 Control Unit from a local or remote PC.

There are two versions of the IIM-2000 Intelligent Inter-face Module currently in service. The IIM-2000 Intelli-gent Interface Module, P/N 89-100082-001, can monitor up to 30 AnaLASER Detectors and is compatible with CCMs that have Versions 60.X, 61.X, 70.X, or 71.X firm-ware. Detailed information on this version of the IIM-2000 can be found in the Unit’s Installation and Operation Manual, P/N 89.86.

The IIM-2000 Intelligent Interface Modules, P/Ns 89-300014-001 or 89-300015-001, can monitor up to 127 AnaLASER II Detectors and are compatible with CCMs that have Versions 80.X firmware. Detailed information on this version of the IIM-2000 can be found in the Unit’s Installation and Operation Manual, P/N 89.200.

Figure 1-11. IIM-2000 Intelligent Interface Module

1-2.7.5 CITY TIE MODULE

The City Notification Card (shown in Figure 1-11) will provide connection and operation for Local Energy, Shunt-Type Master Box and Reverse Polarity styles of output.

Figure 1-12. City Tie Module

1-2.8 Standby Batteries

Space is provided within the central control panel en-closure for up to two (2) 12 V, 17 AH sealed lead-acid batteries used for 24, 60 or 90-hour standby operation. If additional batteries are required, an optional battery enclosure is available. The enclosure (Figure 1-13) is a heavy duty steel cabinet which can house up to two 40 AH batteries. For installation information see Paragraph 7-6.1.

Figure 1-13. Battery Enclosure

1-2.9 Intelligent Loop Devices

The SmartOne Series of Intelligent Fire Alarm devices provide the FenwalNET 2000 control system with smoke and heat detection and necessary monitoring and con-trol functions required by today’s advanced fire alarm systems.

The following three paragraphs describe each available intelligent detection device. A typical SmartOne detec-tion device is shown in Figure 1-14.

Figure 1-14. SmartOne Detection Device

1-2.9.1 SMARTONE IONIZATION DETECTORS

The SmartOne Ionization Smoke Detectors provide true distributed intelligence addressable microprocessor-based smoke detection to the FenwalNET 2000 System.

1-2.9.2 SMARTONE PHOTOELECTRIC

DETECTORS

The SmartOne Photoelectric Smoke Detectors provide true distributed intelligence addressable microproces-sor-based smoke detection to the FenwalNET 2000 Sys-tem.

1-2.9.3 SMARTONE HEAT DETECTORS

The SmartOne Thermistor Heat Detectors provide true distributed intelligence addressable microprocessor-based heat detection to the FenwalNET 2000 System.

1-2.10 SmartOne Detector Bases

The SmartOne series of detection devices all use uni-versal mounting bases which are available in three styles: 1. The 4SB is a European-Style 4-inch base with an outside diameter that matches that of the low pro-file SmartOne Detectors, which, when combined, provides a very attractive unit. The 4SB, shown in Figure 1-15, mounts to standard 3 and 3.5-inch elec-trical boxes with ease.

Figure 1-15. 4-inch Detector Base

2. The 6SB model, shown in Figure 1-15, is a tradi-tional style detector base with an integral trim ring which provides coverage for any inconsistencies be-tween the electrical box and ceiling material. The 6SB mounts to standard 3, 3.5 and 4 inch electri-cal boxes with ease.

3. The MA-002 base adapter, shown in Figure 1-16, allows the new SmartOne detection devices to be retrofitted into the older style FenwalNET detector bases (P/N 70-400000-001) with no need of rewir-ing the base. The MA-002 has a very simple proce-dure for installation:

a. Remove older Style detector.

b. Install the MA-002 unit by inserting it into the base and twisting until it locks into the base. c. Insert the new SmartOne detector into the 002 and twist it until it locks in to the MA-002.

Figure 1-16. 6-inch Detector Base

Figure 1-17. MA-002 Base Adapter

1-2.11 Addressable Contact Input Devices

The FenwalNET Contact Monitor (P/N 70-407008-00X), shown in Figure 1-18, allows an installer the ability to interface typical N.O./N.C. fire alarm devices, such as water flow and tamper switches to the FenwalNET 2000 system. The contact monitor is also used to interface to the Manual Alarm, Manual Release and Abort Stations.

Figure 1-18. Addressable Contact Input Device

1-2.12 Addressable Relay Output Devices

The addressable relay output device (P/N 70-408004-001), shown in Figure 1-19, provides the FenwalNET 2000 system with a Form “C” dry contact interface for remote control applications.

Figure 1-19. Addressable Relay Output Device

1-2.13 Model DH-2000 Air Duct Housing

The DH-2000 air duct housing, shown in Figure 1-20, is designed for detecting particles of combustion in air handling systems.

1-2.14 Loop Isolator Devices

The SmartOne series of loop devices, shown in Figures 1-21 through 1-23, offer optional loop isolation which protects the loop from wire-to-wire short conditions (NFPA Style 7.0).

Figure 1-21. Loop Isolator, Stand-Alone

Figure 1-22. Loop Isolator, RX/TX Mount

Figure 1-23. Loop Isolator, 6" Detector Base Mount

1-2.15 AnaLASER Interface Module

The AnaLASER Interface Module (AIM) permits direct connection of one High Sensitivity Smoke Detector (HSSD) to a signaling line circuit of the FenwalNET 2000 System. The HSSD reports alarm and trouble status changes by individual location to the FenwalNET 2000 Control Unit via the AIM.

There are two versions of the AIM currently in service. The AIM, P/N 89-100081-001, is designed to monitor one AnaLASER Detector and is housed in an enclosure for either flush or surface mounting. It is compatible with CCMs that have Versions 60.X, 61.X, 70.X, or 71.X firmware. Detailed information on this version of the AIM can be found in the Unit’s Installation and Opera-tion Manual, P/N 89.85.

The AIM, P/N 89-300010-001, can monitor one AnaLA-SER II Detector and is designed to mount inside the AnaLASER II Detector housing. It is compatible with CCMs that have Versions 80.X firmware. Detailed in-formation on this version of the AIM can be found in the Unit’s Installation and Operation Manual, P/N 89.200.

Figure 1-24. AnaLASER Interface Module for the AnaLASER Detector

Figure 1-25. AnaLASER Interface Module for the AnaLASER II Detector

1-3 SYSTEM SPECIFICATION

Table 1-1. System Specification M E T I CHARACTERISTICS y l p p u S r e w o P :t n e m e r i u q e R r e w o P * 120/220V,50/60Hz ) e l u d o M r e P ( t u p n I . S . P 1₂2₂₀0V_Va_ac_c,_,1_.9.9₅A_Am_mp_ps_s ) e l u d o M r e P ( t u p t u O . S . P 24Vdc,4Amps :t u p t u O r e g r a h C .t a B 26.4Vdc,3Amps ) 2 ( : s t u p t u O . x u A 24Vdc,1.5Ampseach M C C :t u p t u O l a n g i S 24Vdc,2Amps :t u p t u O e s a e l e R 24Vdc,2Amps : g n it a R t c a t n o C y a l e R 1Amp@30Vdc : g n it a R y a l e R e l b u o r T 1Amp@30Vdc e l u d o M X T X R : e g a tl o V . x a M 26.4Vdc : e g a tl o V . n i M 19.0Vdc : e c n a ti c a p a C e n i L . x a M 1.0uF : e c n a t s i s e R e n i L . x a M 26Ohms : s e c i v e D e l b a s s e r d d A . x a M 255perRXTX e l u d o M e s a e l e R t u p t u O e s a e l e R 2Amps@24Vdc t u p t u O l a n g i S 2Amps@24Vdceach : e p y T t u p t u O e s a e l e R Capableofreleasingsolenoids(suppressionandspirnkler)andsquibs. e l u d o M e l b i d u A l a n g i S : s t u p t u O l a n g i S (4)style"Y" or(2)style"Z"2Amps@24Vdceach e l u d o M y a l e R : g n it a R t c a t n o C , s t c a t n o C C m r o F ) 4 ( r o c d V 0 3 @ s p m A 2 c a V 0 2 1 @ p m A 1 e l u d o M e i T y t i C :t c a t n o C t n u h S 5Amps@24Vdc,Resisitve :t u p t u O y g r e n E l a c o L 500mAmax.@24Vdc,CurrentLim. : y r o s i v r e p u S y g r e n E l a c o L 11mA : d a o L y g r e n E l a c o L MasterBoxTirpCurrent0.25Amps.typical

CHAPTER 2

OPERATION

2-1 INTRODUCTION

This chapter describes the FenwalNET 2000 System controls and indicators located on the Display Panel. It also describes the operating procedures and menu sys-tem.

2-1.1 Modes of Operation

There are two modes of FenwalNET 2000 System op-eration:

1. In the default operation, the panel will be set to latch all alarm inputs on the system. The latching opera-tion 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> key will need to be pushed.

2. The second mode of operation is non-latching. This option can be enabled using the FCS (Fenwal Con-figuration Software) to define a loop device input to be non-latching. The non-latching operation will al-low 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 se-quence 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.

Figure 2-1. System Front Panel

The advantage of offering a latching or non-latching op-eration per loop input device is that it allows the in-staller/designer to customize the system. This allows the intermixing of latching and non-latching devices to protect critical areas where both types may be speci-fied.

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 Trouble 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 ½ second ON ½ second OFF signal.

• Trouble condition is indicated by a 1 second ON and 1 second OFF continuous beeping.

Every individual change of status must be individually acknowledged by pressing the <ACKLDGE> (acknowl-edge) key to silence the audible device.

TM R SILENCE SUPERVISORY TROUBLE SCROLL RESET PRE-ALARM ALARM POWER ON System Status ACKNOWLEDGE SILENCE 7 0 8 9 1 4 2 3 5 6

2-2 CONTROLS AND INDICATORS

The control and indicators of the FenwalNET 2000 Sys-tem are located on the display panel, shown in Figure 2-1. The display panel is mounted on top of the CCM. To gain access to the CCM, the panel door must be open. Table 2-1 lists controls and indicators for the display unit, giving names and functional descriptions.

2-2.1 LCD Display

The display panel contains an 80-character (2X40) al-phanumeric display. This LCD display is used to present system status. In the procedure section of this chapter, there will be several simulated LCD display readouts. The LCD display readouts will be used to aid users in the operation of the system.

2-2.2 Audible Device

The Display Panel also contains an audible device which generates two separate audible tones; one for alarms and one for troubles. This device sounds continuously when a new alarm condition is received until the condi-tion is acknowledged. It also sounds intermittently when a trouble, supervisory, or pre-alarm condition is received until the condition is acknowledged.

2-2.3 Control and Indicator Description

Refer to Table 2-1 for complete description of controls and indicators.

2-3 SYSTEM SECURITY

The FenwalNET 2000 System provides three distinct levels of program protection, as required by UL Stan-dard 864. The user can only access the system by en-tering a valid password. Typical valid passwords consist of three or four characters, but may be up to eight char-acters in length.

2-3.1 Levels of Security

The three security levels are Level One, Level Two and System Manufacturer. The highest security level is re-served for the system manufacturer. System owner is level one; system installer is level two. Passwords con-sist of up to eight numeric characters (0 - 9) which al-lows access from the integral keypad of the CCM. Alphanumeric characters can only be used with the FCS program, however, if used, they will lock out any pos-sible entry to the menus from the CCM keypad.

If alphanumeric passwords are necessary for a particu-lar 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 to pre-vent a user from changing any programmed system pa-rameters.

2-3.2 Default Passwords

The FenwalNET 2000 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 in-creases the security of the system. Default passwords are set when the system is shipped from Fenwal. These default passwords are:

• Level One = 987 • Level Two = 1865

Note: These default passwords are valid until other passwords are programmed into the system.

2-3.3 Entering Passwords

The password entry procedure is listed below: 1. Verify that the system status is displayed. 2. Press 0 (zero) key. Verify that the display reads:

PLEASE ENTER PASSWORD

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:

1:ISOLATE 2:LIST

3:SET 4:TEST

2-4 SYSTEM POWER-UP

The following step-by-step procedure is for initial power-up of the CCP.

1. Perform the installation check-out procedure in Chapter 7 of this manual.

2. Set the circuit breaker for the CCP power to ON. Verify that the display reads "Main Processor Power On" and that the CPU ERROR indicator is lit. En-sure that the audible device is buzzing continuously. 3. Press the display module reset switch. Verify that the CPU ERROR indicator is extinguished and the audible device is silenced.

4. Verify that the display reads as follows: MAIN PROCESSOR

POWER ON

5. After 10 seconds, verify that the display reads as follows:

RXTX NON-MONITORING TROUBLE ON RXTX1

Table 2-1. Control and Indicators D E L FUNCTION N O R E W O P ,f f o n e h W .r e w o p t u p n i C A g n i v i e c e r s i m e t s y s e h t t a h t s e t a c i d n i , d e t a n i m u ll i n e h W m e t s y s e h t d n a ) n o it i d n o c e l b u o r t ( d e r r u c c o s a h e r u li a f r e w o p t u p n i C A n a s e t a c i d n i . n o it i d n o c y b d n a t s y r e tt a b a o t d e h c ti w s s a h M R A L A Whenilluminated,indicatesanalarmcondiitonhasbeenreportedbyaninput . e c i v e d M R A L A -E R P Whenilluminated,indicatesasmoke,hea,toranHSSDdetectorhassensedalevel .t n i o p t e s m r a l a -e r p e h t s d e e c x e h c i h w t a e h r o e k o m s f o E L B U O R T Whenilluminated,indicatesatroublecondiitonexistsinthesystem. Y R O S I V R E P U S Whenilluminated,indicatesasupervisorycondiitonhasbeenreportedbyasystem -.t u p n i y r o s i v r e p u s r o f d e m m a r g o r p e c i v e d t u p n i E C N E L I S Whenilluminated,indicatestheSigna/lAudibleoutputshavebeenslienced. N O T T U B FUNCTION E G D E L W O N K C A ) g n i h c t a l-n o n r o f t e s s i e c i v e d t u p n i fi F F O m r a l A ( N O m r a l A n a r e tf a d e s s e r p n e h W s 'l e n a p e h t s e c n e li s ti , d e r u c c o s a h n o it i d n o c N O m r a l a -e r p r o , y r o s i v r e p u s , e l b u o r T " M R A L A -E R P " r o , " Y R O S I V R E P U S " , " E L B U O R T " , " M R A L A " e h T .r e z z u b e l b i d u a . d e g d e l w o n k c a n e e b s a h n o it i d n o c e h t t a h t e t a c i d n i o t y d a e t s s w o l g r o t a c i d n i D E L . e c n e u q e s e v o b a e h t d n u o s e r o t l e n a p e h t e s u a c ll i w s n o it i d n o c t n e u q e s b u S E C N E L I S l a n g i s m e t s y s e h t s e c n e li s ti , m r a l A t n e r r u c g n i g d e l w o n k c a r e tf a d e s s e r p n e h W r o t a c i d n i " E C N E L I S " e h T . e l b a e c n e li s s a d e m m a r g o r p n e e b e v a h h c i h w s t u p t u o e h t g n i s s e r P . d e c n e li s n e e b e v a h s t u p t u o l a n g i s e h t t a h t e t a c i d n i o t s e t a n i m u ll i . s u t a t s t u p t u O y a l e R e h t t c e ff e t o n s e o d h c ti w s " E C N E L I S " T E S E R e h t , d e r a e l c d n a d e g d e l w o n k c a n e e b e v a h s m r a l a e v it c a ll a r e tf a d e s s e r p n e h W : m e t s y s s r o t c e t e d e r i w 4 r e w o p o t d e s u s t u p t u o C D V 4 2 y r a il i x u a s t e s e R . s n o it i d n o c m r a l a d e h c t a l ll a s t e s e R . e t a t s l a m r o n r i e h t o t s y a l e r ll a s n r u t e R . y a l p s i d l a u s i v e h t n o " t e s e R m e t s y S " s y a l p s i D .f f o s r o t a c i d n i " M R A L A E N O Z " d n a " M R A L A " e h t s n r u T o t e c n o d e s s e r p e b o t d e e n ll i w n o tt u b T E S E R e h t , s r o t c e t e d D S S H e r i w 4 r o F .l e n a p e h t t e s e r o t e c n o d n a r o t c e t e d e h t t e s e r L L O R C S e s u a c ll i w , n o it i d n o c y r o s i v r e p u s r o , e l b u o r t , m r a l a e v it c a n a g n ir u d d e s s e r p n e h W t o n ll i w n o it i d n o c m r a l A e h T . ) s ( r e ff u b t n e v e e v it c a e h t h g u o r h t ll o r c s o t D C L e h t e h t w o ll a t o n ll i w n o it i d n o c y r o s i v r e p u S . d e w e i v e b o t s e l b u o r t r o y r o s i v r e p u s w o ll a . d e w e i v e b o t r e ff u b s e l b u o r t ) 0 -1 ( D A P Y E K C I R E M U N Usetoenterpasswordandsysteminformaitonintothemenusystem. E C A P S K C A B Usetoextithemenusystemandtocorrectwrongentires. N R U T E R UsedastheEnterkeywhenusingthemenusystem.

Note: For Multi-Loop Systems – The above and be-low RX/TX messages will repeat themselves for each RX/TX module installed in the system. The above message will be displayed while the sys-tem 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 FCS program. If using FCS program, verify that the correct number of RX/TX loops are enabled in the Loops Topic of the configuration file prior to upload-ing.

RX/TX 1 NOT REGISTERED ON RX/TX LOOP 1

6. Verify that the POWER ON and TROUBLE indica-tors are lit.

7. Connect the backup batteries to the CCP in accor-dance to the procedure in Chapter 7.

8. Press the <ACKLDGE> key. After approximately one minute, the display will momentarily read:

RXTX NON-MONITORING TROUBLE OFF

9. Verify the display reads the incorrect time and date. 10. Set time and date as follows:

a. Press 0 (zero) key. Verify that the display reads: PLEASE ENTER PASSWORD

b. Type in the default 1st _{level password (987).}

c. Press the return key. Verify that the display reads:

1:ISOLATE 2:LIST

3:SET 4:TEST

d. Type in 3111 on the keypad. Verify that the dis-play reads:

SYSTEM TIME (AM/PM)

ENTER THE TIME _ _ : _ _ (HH:MM) e. Type in the time (HH=hours 0-12 and then

MM=minutes 0-59). Press the return key. Verify that the display reads:

SYSTEM TIME (AM/PM) 1:AM 2:PM

f. Type in appropriate selection (1 for a.m. or 2 for p.m.).

Note: If there has been a mistake in the entered data, press the backspace key as many times as re-quired to get to the mistake, then re-enter data from that point.

11. The power-up procedure is complete at this point. The system is now ready for loop device registration and programming which is covered in this chapter.

2-5 SYSTEM MENUS

The FenwalNET 2000 has a built-in menu structure. This menu structure has been implemented to aid us-ers with system operating functions. The following para-graphs describe the menu structure, how to access the menu, how to exit the menu and menu functions. Figure 2-2 shows the System's Level One menu structure. Fig-ure 2-3 shows the System's Level Two menu structFig-ure.

2-5.1 Menu Structure

The FenwalNET 2000 menu structure consists of a Main Menu and multiple sub-level menus.

The sub-level menus may also contain additional mul-tiple sub-level menus. The Main Menu displays after you enter a valid password. The Top Level Menu can also be accessed from any sub-level menu at almost anytime by pressing the backspace key located on the keypad.

Note: The Top Level Menu may not be available by us-ing the backspace key while certain types of pro-gramming is being performed.

It is possible to access a previous higher level menu from a lower level menu by pressing the backspace key. The choices of available sub menus after a valid pass-word has been entered corresponds to the security level of the password that has been entered.

The Main Menu for the 1st level, 2nd level and Manu-facturer security level is:

1:ISOLATE 2:LIST

3:SET 4:TEST

Any one of the basic functions listed in a Main Menu can be selected by pressing the numeric key of the system’s keypad, which corresponds to the desired func-tion. For example, to select the LIST function from the main menu, press the 2 key on the system keypad. Lower level functions may also be selected from sub-level menus using the numeric keys.

2-5.2 Accessing the System Menus

Perform the steps in Paragraph 2-3.3.

2-5.3 Exiting the System Menus

To exit the system's menus, perform the following steps: 1. Press the backspace key as many times necessary to reach the top level menu, shown in the top of the next column:

1:ISOLATE 2:LIST

3:SET 4:TEST

2. Press the backspace key. Verify that the system re-turns to standby. The display should read:

SYSTEM STATUS NORMAL HH:MM MM-DD YR 40 CHARACTER CUSTOM MESSAGE

Note: When exiting the system menus, if the system is normal, the display panel should show the time and date as shown in the above step.

2-5.4 Menu Functions

Tables 2-2 through 2-5 list and provide a brief descrip-tion of all funcdescrip-tions that can be performed using the FenwalNET 2000 System’s menus. In addition, the tables provide the security access level and a keystroke for-mula for each function. The keystroke forfor-mula is a se-quence of numbers that must be entered via the system’s keypad to access a particular function. These formulas provide the path from the Main Menu to the desired function. Formulas are provided for each access level. After entering the formula, some of the functions require that the return key be pressed to start implementing the function.

Most functions will require additional data to be en-tered to implement the function, such as a device ad-dress or desired alarm threshold.

2-5.4.1 ISOLATE MENU FUNCTION

The Isolate Menu Function (Table 2-2) permits the op-erator to isolate field devices and output modules. Iso-lating any device immediately places the system in a trouble condition and initiates an audible trouble alarm and a printout with the time, date and device isolated. The feature is typically used to temporarily isolate aux-iliary devices during a system test.

2-5.4.2 LIST MENU FUNCTION

The List Menu Function (Table 2-3) permits the opera-tor to list various system parameters. All lists are real-time actual system conditions which are displayed and printed with the time and date.

2-5.4.3 SET MENU FUNCTION

The Set Menu Function permits the operator to pro-gram various system parameters within the system. A few examples are shown in Table 2-4.

2-5.4.4 TEST MENU FUNCTION

The Test Menu Function, shown in Table 2-5, allows the operator to test individual or a group of field de-vices. On command, a detector or contact input device can be tested and results will be printed and displayed at the Central Control Panel. The Test procedure in the device is activated by imposing a signal within the de-vice that will cause an alarm output. The Control Panel verifies that an alarm output is generated and reports “Test Result OK” for each device.

2-6 MODES OF OPERATION

The FenwalNET 2000 System has four modes of opera-tion. Each mode has different indications and actions required. The following paragraphs describe each mode, indications and actions, if required.

2-6.1 Normal Standby Mode

This is the typical mode of the system. In this mode, no alarm, trouble or supervisory conditions exist in the system. The system display will show the time, day of the week and date. For example:

SYSTEM STATUS NORMAL 11:06 AM_05-04-90 _ _ _ _40_CHARACTER_CUSTOM_MESSAGE_ _ _ _ The system provides an option which allows the "Sys-tem Status Normal" message to be replaced with a dis-play of battery charging voltage and current for the system standby batteries. For example:

PS01_26.0 V_0.10_A_ _ _ _ _11:06 AM_05-04-90 _ _ _ _40_CHARACTER_CUSTOM_MESSAGE_ _ _ _ The green AC POWER LED will be illuminated to indi-cate that the system’s main power source is normal. Note: In the Normal Standby Operation state, it is

possible for the 80-character display to show data other than the time and date. This occurs when the system menus are being accessed ei-ther locally or remotely through one of its serial ports. This condition will be indicated by the menu selections being displayed and the Dis-play Panel being illuminated.

In the Normal Standby Mode, no indicating LEDs will be illuminated other than the AC POWER.

2-6.2 Active Alarm Mode

The system enters an alarm mode if a device (or de-vices) has detected an alarm condition, such as smoke or heat above the alarm threshold level. There are two types of alarms which can occur:

1. Device Alarm - An alarm in which a device has com-municated the alarm status properly to the Central Control Panel by providing the alarmed device ad-dress for indication to the operator.

2. Zone Alarm - An alarm condition detected by one or several devices, but which cannot be reported by a specific device due to a malfunction in communica-tions between the system and the alarmed device(s). This is a redundant feature designed to increase system reliability and is called Failsoft Mode. Note: A device can signal a zone alarm to the system

2-6.2.1 ALARM MODE INDICATIONS

The following indicates the system is in its alarm mode of operation.

• The red ALARM LED will be illuminated and there will be a continuous audible signal by the system buzzer at the panel.

• The 80-character display will cycle between all cur-rently active alarms. Example:

Note: If the alarm is a zone alarm, the Device Address “1000 - 8000” will be displayed depending on which RX/TX module detects the zone alarm. Note: If using an AIM configured as a latching device

(using LaserNET software), do not include the AIM in the Walk Test’s range of devices to be tested. If the AIM is configured to be latching, and the Walk Test is disabled, an alarm will be annunciated on the panel and all outputs asso-ciated with the input will be activated.

To use an AIM in the Walk Test, it must be con-figured as non-latching. When configuring the AIM (using LaserNET) select non-latching op-eration. This will allow the AIM to be defined in the range of devices to be tested and once the Walk Test is disabled, it will not create an alarm on the panel or activate the associated outputs. • The outputs which have been previously pro-grammed for activation upon alarm by the specific devices will be turned on. For example: Signal au-dible signaling devices, control relays for HVac shut-down or elevator recall.

2-6.2.2 ALARM MODE USER ACTION

The following steps should be performed when the sys-tem is set into alarm.

1. Press the Display Panel’s <ACKLDGE> key to ac-knowledge the displayed alarm condition. The 80-character display will continue to cycle between any remaining alarms which have not been acknowl-edged. The acknowledge key must be operated once for each alarm received at the panel.

2. Once all current alarms have been acknowledged, the alarm indicating circuits (audible devices) can be silenced by operating the <SILENCE> key.

3. After all of the current alarms have been acknowl-edged, verify that the display reads: XXX ALARMS REMAINS. The “XXX” representing the total of all active alarms. All active alarms can be viewed on the display by pressing the scroll key.

Note: Only the first 64 alarms will be displayed. Sub-sequent alarms over the initial 64 will not be displayed, even when any or all of the first 64 alarms clear. However, all alarms, regardless of total, will be processed in the EOC. For a com-plete list of active alarms, access the event buffer menu using the CCM keypad.

4. Any subsequent alarms will cause the alarm audible circuits to resound. Each additional alarm must be acknowledged before the alarm indicating circuits can be silenced.

5. When a device goes out of alarm, the display will indicate the device address and an alarm off (AOF) message (non-latching mode). Example:

1080 AOF_ _ _ _PHOTOELECTRIC DETECTOR _ _ _ 40_CHARACTER_LOCATION_MESSAGE Note: If the alarm is a zone alarm, the address

“1000-8000” will be displayed indicating that active device(s) in failsoft mode in the zone have gone out of alarm.

6. Each device which goes out of alarm must be ac-knowledged with the <ACKLDGE> key (non-latch-ing).

For latching mode: To return the system to nor-mal, press the <RESET> key once. If powering ei-ther a 4-wire Detector from the FN-2000 or an HSSD Detector connected to an AIM or an IIM configured for latching operation, the <RESET> key will need to be pushed once to reset the Detector and once to reset the panel to a normal condition.

7. In a non-latching operation, once all alarms have cleared, the display will read: NO ACTIVE ALARM REMAINS. At this time, the system may be reset by operating the <RESET> key.

8. When the system is properly reset, the display will show the System Status Normal message, time, day and date. The preceding will happen if no active troubles or supervisories are present, in which case the “Active Troubles” or “Active Supervisories” mes-sage will be displayed.

2-6.3 Active Supervisory Trouble Mode

The system enters supervisory trouble mode when it detects an abnormal condition on the system that has been defined to be a much higher priority than a com-mon trouble. This type of trouble is usually assigned by the installer/designer to monitor critical parts of the system.

Table 2-2. Isolate Menu Function

Note: 1 =Level One, 2 = Level Two, M = Manufacturer Level n o i t c n u F Description Formula Access l e v e L e c i v e D p o o L e t a l o s I Isolate/Dei-solateanRCUbyaddress 1-1 1/2/M t u p t u O l a n g i S e l u d o M O /I e t a l o s I Isolate/Dei-solateasignalmoduleoutputcircutibyaddress 1-2-1 1/2/M t u p t u O l a n g i S e s a e l e R e l u d o M O /I e t a l o s I Isolate/Dei-solateareleasemodulesignaloutputbyaddress 1-2-2 1/2/M t u p t u O l a n g i S M C C e t a l o s I Isolate/Dei-solateACCMsignaloutput 1-2-3 1/2/M t u p t u O y a l e R e l u d o M O /I e t a l o s I Isolate/Dei-solatea /IOmodulerelayoutputbyaddress 1-3-1 1/2/M t u p t u O y a l e R M C C e t a l o s I Isolate/Dei-solateCCMrelayoutput 1-3-2 1/2/M t u p t u O e s a e l e R e l u d o M O /I e t a l o s I Isolate/Dei-solateanagentreleaseoutputbyoutputaddress 1-4-1 1/2/M t u p t u O e s a e l e R t n e g A M C C e t a l o s I Isolate/Dei-solateanagentreleaseoutputbyCCMoutputaddress 1-4-2 1/2/M t u p t u O e i T y ti C e t a l o s I Isolate/Dei-solatectiy itemodulebyoutputaddress 1-5 1/2/M t u p t u O /t u p n I l a ti g i D e t a l o s I Isolate/Dei-solatedigtialinpu/toutputby/IOaddress 1-6 1/2/M s C C D / s D S H e t a l o s I Isolate/Dei-solateHSDs/DCCsmontioredbyanIIM 1-7 1 s t u p n I e t a l o s I l a b o l G Isolate/Dei-solateallsysteminputloopdevices; /IOmodules 1-7-1 2/M s t u p t u O e t a l o s I l a b o l G Isolate/Dei-solateallsystemoutput /IOmodules 1-7-2 2/M s C C D / s D S H e t a l o s I Isolate/Dei-solateHSDs/DCCsmontioredbyanIIM 1-8 2/M

Note: 1 = Level One, 2 = Level Two, M = Manufacturer Level Table 2-3. List Menu Function

n o i t c n u F Description Formula A_Lc_ec_ve_es_ls s e c i v e D p o o L d e t a l o s I t s i L ListallLoopDeviceswhichareisolated 2-1-1-1 1/2/M s e l u d o M O /I d e t a l o s I t s i L Listall/IOmoduleswhichareisolated 2-1-2-1 1/2/M s t u p t u o M C C d e t a l o s I t s i L ListallCCMoutputswhichareisolated 2-1-2-2 1/2/M ) s t n e v E ll A ( r e ff u B y r o t s i H t n e v E t s i L Listsallrecordedeventhistoryentiresfrombuffer 2-2-1 1/2/M ) s t n e v E f o e g n a R ( r e ff u B y r o t s i H t n e v E t s i L Listsauserselectablerangeofeventhistoryentiresbydate 2-2-2 1/2/M r o t c e t e D e l g n i S a t s i L Displaysaselecteddetecto’rsrealitmesmoke/heatlevel 2-3-1 1/2/M l e v e L r o t c e t e D t s i L L_pris_et_ss_ea_ntll_ls_ey_vs_ete_.lmdetectorspre-alarmandalarmsetpointsand 2-3-2 1/2/M ) s ( m r a l A e v it c A t s i L Listallacitvesystemalarm(s). 2-4-1 1/2/M s n o it i d n o C y r o s i v r e p u S e v it c A t s i L Listallacitvesystemsupervisorycondiitons. 2-4-2 1/2/M n o it i d n o C e l b u o r T e v it c A t s i L Listallacitvesystemtroublecondiitons 2-4-3 1/2/M m a r g o r P C O E t s i L ListEOCprogramilnes 2-5-1 1/2/M m a r g o r P C T R t s i L ListRTCprogramilnes 2-5-2 1/2/M s e s s e r d d A e c i v e D p o o L t s i L Listallloopdevicesregisteredintothesystem 2-6-1 1/2/M s e s s e r d d A e l u d o M O /I t s i L Listall/IOmodulesregisteredintothesystem 2-6-2 1/2/M s l e v e L e g a tl o V e n i L C P t s i L ListsPC ilnevotlagelevelsateachspeciifedloopdevice 2-7-1 1/2/M l e v e l y l p p u s r e w o p C D V 9 e c i v e D p o o L t s i L Listsspeciifedloopdevice9votlpowersupplylevel 2-7-2 1/2/M s C C D / s D S H d e r e t s i g e R ll a t s i L ListHSDs/DCCsregisteredandconnectedtoanIIM 2-8 1/2/M

n o i t c n u F Description Formula AccessLevel e m i T m e t s y S t e S Allowsusertosetsystem itme 3-1-1 1/2/M e t a D m e t s y S t e S Allowsusertosetsystemdate 3-1-2 1/2/M )I + V ( y r e tt a B f o y a l p s i D t e S Allowusertosetdisplayofbatterychargingvotlageandcurren.t 3-1-3 1/2/M r e t n ir P l a n r e t n I t e S Enableportforinternalpirnterconneciton 3-2-1-1 1/2/M r e t n ir P l a n r e t n I e l b a s i D Disableportforinternalpirnterconneciton 3-2-1-2 1/2/M r e t n ir P l a n r e t x E t e S Enableportforexternalpirnterconneciton 3-2-2-1 1/2/M r e t n ir P l a n r e t x E e l b a s i D Disableportforexternalpirnterconneciton 3-2-2-2 1/2/M s s e r d d A e c i v e D t e S Allowsusertochangedeviceaddress. 3-3-1 2/M y ti v it i s n e S r o t c e t e D n o it a z i n o I t e S AllowsusertoadjustIonizaitondetectorPrealarmandalarmsetitngs 3-3-2-1 2/M r o t c e t e D c ir t c e l e o t o h P t e S y ti v it i s n e S AllowsusertoadjustPhotoelectircdetectorPrealarmandalarmsetitngs 3-3-2-2 2/M y ti v it i s n e S r o t c e t e D l a m r e h T t e S AllowsusertoadjustThermaldetectorPrealarmandalarmsetitngs 3-3-2-3 2/M s e c i v e D r e t s i g e R Allowsusertoregisterloopdevicesintosystemconifguraiton 3-3-3 2/M s e c i v e D r e t s i g e R -e D Allowsusertode-registerloopdevicesfromsystemconifguraitons. 3-3-4 2/M l o r t n o C k n il B AllowsusertodisabledetectorLEDbilnking 3-3-5 2/M e d o M t h g i N / y a D t e S Allowsusertoenabledetectorfordayfunciton. 3-4-1-1 2/M s d o ir e P t h g i N / y a D t e S AllowsusertosetDay/Nightpeirods 3-4-1-2 2/M e d o M y a D e t a v it c A AllowsusertoacitvateDaymode 3-4-1-3 2/M d r o w s s a P l e v e l t s 1 t e S Allowsusertoset1stlevelpassword 3-4-2-1 2/M d r o w s s a P l e v e l d n 2 t e S Allowsusertoset2ndlevelpassword. 3-4-2-2 2/M m a r g o r P C T R e l b a n E AllowsusertoenableRTCprogramilnetofunciton 3-4-3-1 2/M m a r g o r P C T R e l b a s i D AllowsusertodisableRTCprogramilnefromfuncitoning. 3-4-3-2 2/M e d o M n r a e L o t u A t e S AllowsusertoacitvatetheAutoLearnFunciton 3-4-4 2/M n o it a c if ir e V m r a l A t e S A_dello_tew_cs_tou_rsse_or_rto_ranse_getth_oe_fda_ela_term_ctov_re_s.irifcaitonfuncitonand itmepeirodforindividual 3-4-5 2/M n o it c n u F S A P t e S Allowsusertosettheposiitvealarmsequencefordevices 3-4-6 2/M g o L t n e v E r a e l C Allowsusertocleareventhistorybufferentires 3-4-7 2/M n o it a r t s i g e R C C D / D S H RegistersHSDs/DCCsintosystemconifguraiton 3-6 2/M e l b a n E M II Allowstheinstallertoenablethe IIM 3-7-1 2/M e l b a s i D M II Allowstheinstallertodisablethe IIM 3-7-2 2/M e l b a n E e g d e l w o n k c A l a b o l G EnablestheGlobalAcknowledgeFeature 3-8-1 2/M e l b a s i D e g d e l w o n k c A l a b o l G DisnablestheGlobalAcknowledgeFeature 3-8-2 2/M

Table 2-4. Set Menu Function

Notes: 1. For installation in the state of California, Alarm Verification Time must not exceed 30 seconds. 2. 1 = Level One, 2 = Level Two, M = Manufacturer Level