TFX-400 USERS

AUTOCALLTFX-400 SeriesUser’s Guide

Revision HistoryPublication Number 850539Issue 1, February 1999

AUTOCALL® is a trademark of Grinnell Fire Protection Systems Company, a

division of Grinnell Corporation. Consys® is a registered trademark of Grinnell Fire Protection Systems Company, a division of Grinnell Corporation.

Copyright© 1999 by Grinnell Fire Protection Systems Company.

All rights reserved.

Preface

This manual was prepared by Grinnell Fire Protection Systems Company. It is part of our continuing effort to provide user-oriented technical information concerning fire protection, security, and access control systems.

Our systems are designed to meet your most demanding and unusual requirements. Each system installation becomes a unique, custom application. Accordingly, this manual is intended only as a general guide to the operation of the AUTOCALL TFX-400 System and is subject to change without notice.

For further information and part ordering, contact:

G835 Sharon DriveWestlake, Ohio 44145

Telephone:(800) 846-7611Facsimile:(440) 871-8320

Caution!

This equipment contains sensitive electronic components. Care should be taken when accessing any internal component that has a live voltage source. Always follow electrostatic handling procedures when accessing any of the internal electronic components.

Failure to do so may cause damage to the equipment, and/or harm to the user.

Caution!

This equipment generates and can radiate radio frequency energy, and if not installed and used in accordance with the instructions in this manual, may cause interference to radio communications. Operation of this equipment in a residential area may cause interference, in which case, the user at his own expense will be required to take whatever measures may be required to correct the interference.

ImportantThe emergency procedures described in this manual are guidelines only. In all emergency situations, follow procedures defined by your facility, local codes, and authority having jurisdiction.

NFPA CODES AND STANDARDSNFPA (National Fire Protection Association) publishes codes and standards concerning all phases of fire protection. Some Publications that directly concern automatic fire detection and control systems include (but are not limited to):

NFPA 12 CO2 Extinguishing Systems (High and Low Pressure)

NFPA 12A Halon 101 Extinguishing SystemNFPA 13 Sprinkler SystemsNFPA 15 Water Spray SystemsNFPA 16 Foam -Water Deluge/Foam-Water Spray

SystemsNFPA 17 Dry Chemical Extinguishing SystemsNFPA 17A Wet Chemical Extinguishing SystemsNFPA 70 National Electrical CodeNFPA 72 Installation, Maintenance and Use of

Protective Signaling SystemsNFPA 101 Life Safety CodeNFPA 2001 Clean Agent Fire Extinguishing Systems

850539-1iii

•Table of Contents

NFPA CODES AND STANDARDS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . iii

• Chapter 1•Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1

Basic System Architecture . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1- 3

FCM and ODM. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1- 3

Panel and Module Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4Fire Control Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5Operator Display Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6

RPS-424 Power Supply/Battery Charger . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6

Central Processing Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6Remote Panel Operation/Network Capabilities. . . . . . . . . . . . . . . . . . . . . . . . .1-6

Optional Configurations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6

System Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7TABLE 1.. TFX-400 Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-7

Wiring Specifications and Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-8TABLE 2.. Wire Chart for Alarm Indicating Devices* . . . . . . . . . . . . . . . . . . . . . .1-8TABLE 3.. Minimum Separation Between Power and Signal Wires* . . . . . . . . . . . .1-8TABLE 4.. TFX Field Wiring Circuits & Maximum Wiring Parameters . . . . . . . . . . .1-8

Fire Control Module (FCM) front . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-9Current Draw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-9Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-9

FCM back . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-9

Operator Display Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-10Current Draw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-10Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-10

CPU-4500 Central Processing Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-11Current Draws . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-11Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-11

RPS-424 Power Supply/Battery Charger . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-12Current Draw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-12Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-12

Initiating Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-13

Notification Appliances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-15

850539-1v

Table of Contents

System Status Equipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-16

System Customization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-17

Chapter 2•Getting Started. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1

Unpacking and Location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1Mounting the Panel. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2Connecting the Standby Batteries . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4Connecting AC Power. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4

Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4Caution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4

Wiring Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5Caution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5

General Wiring Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5Simple Fire Detection/Notification Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8

Caution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8Caution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8Caution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8

Typical Fire Detection/Notification Configuration . . . . . . . . . . . . . . . . . . . . . 2-9Typical nonpower-limited wire routing . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-10Set Device Addresses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-11Wire Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12

Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12Auto-configure Devices. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12

Caution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-14Manual Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-14

Caution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-17Perform Solo Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-17

Solo Test Zone . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-17Solo Test Multi-Input Point . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-18Solo Test Sounders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-20Set Time/Date. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-21

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Table of Contents

Chapter 3Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1

Event Monitoring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-1

Types of Events . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2Multiple Trouble Conditions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3Trouble Condition Precedes Fire Alarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3Fire Alarm Precedes Trouble Condition . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3Multiple Fire Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3

Responding to events . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4Identify the Type of Event . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4Read the Message Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4

TABLE 1.. Point/Zone Strings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-4TABLE 2.. Fault Strings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-5Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-7

Initiate Response Procedures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-7Accept the Event . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-7Silence the Panel Buzzer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8Reset the System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8Recheck the Event Log . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8

Accessing Menu Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-9Pass Codes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-9Fast Access Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-9

TABLE 3.. Access Codes and Menu Prompts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-10Do you want to accept events? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-12View unrestored events? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-12Do you want to view the log? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-12View System Health Report? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-12View System Statuses? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-12Do you want to set the clock? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13Do you want to test system?. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13Configuration Menu? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-14Do you want to isolate points? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-15

Isolate zone? (sensors only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-15Isolate zone? (sounders only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-16Isolate point (adr. loop only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-16Engineer Isolate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-17

Caution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-17De-isolate zone? (sensors only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-18Desolate zone? (sounders only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-18De-isolate point (addr. loop only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-19Engineer De-isolate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-20

Caution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-20

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Table of Contents

Do you want to view analog values? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3- 20View Point Statuses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-21

View Loop Analog Values . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-22View Loop Point Counters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-22

Do you want to print data? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-24Print point analogue values . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-24Print Points Isolated . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-24Print Walk Test Points Not Tested/Failed . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-25Print points out of compensation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-25Print Event Log Backtrack . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-26

Chapter 4

•Operator Maintenance. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4- 1

Daily Checks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2Periodic System Checks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2

Caution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2

Appendix A

TFX-400 System Configuration/Limitations . . . . . . . . . . . . . .A-1

Appendix B

TFX-400 System Devices/Groups

Appendix C

AUTOCALL Modules and Compatible Devices . . . . . . . . . . .C-1

Appendix D

Worksheets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .D-1

Battery Calculation Worksheets. . . . . . . . . . . . . . . . . . . . . . . . . . D-3

Smoke Detector Compatibility Sheets. . . . . . . . . . . . . . . . . . . . . D-9

Appendix E

Auto-configure Worksheets . . . . . . . . . . . . . . . . . . . . . . . . . . . E-1Worksheet Rules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1

Appendix F

TFX-400 Operating Instructions Quick Reference Sheet . . . F-1

850539-1

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Chapter 1•Introduction

TFX-400 Features• 198 Analog, addressable

Points • Ideal for retrofit

applications• System status

information at a glance• Fast, cost effective

Auto-Configurafion for One/two loops or one point at a time

• One panel size with many features of larger TFX panels

• Cabinet space for up to two 17 Amp-hour batteries

• Semiflush or Surface Mount flexibility

• Low cost• Options• Remote OCP• Networking Capability

and Virtual Front Panel• Graphical user interface

The AUTOCALL TFX-400 is a self-contained, small addressable panel in a single cabinet. As a stand alone panel, TFX-400 meets the needs of any small-to-mid size building or facility.

TFX-400 logs all alarm, trouble and supervisory events into electronic memory with the time and date of occurrence. These events can be displayed on the LCD, or printed.

TFX-400 is designed to be used with conventional or analog, addressable fire detection devices, in any combination. TFX-400 provides (2) analog, addressable signaling line circuits that provide 99 points each. (Refer to “Optional Configurations” in this section.)

Up to seven (7) remote operator Control Modules can be connected to a TFX-400 panel. These remote panels can be configured to duplicate the LED and LCD displays, and control switch functions of the main panel. (Refer to “System Customization” in this section.)

The CONSYS software configuration tool for site specific user programming easily guides the trained installer through a menu prompted decision process.

Auto-configuration allows one or both loops, or one point at a time to be configured quickly and automatically, without using a personal computer. Automatic assignment of zone numbers and device description text can be viewed for each auto-configured device. In addition, the front panel allows manual configuration of any device type to any group or to any zone.

Other features facilitate operations (such as isolating devices) with optional networking capability of the graphical user interface for fire alarm annunciation and control.

850539-11-1

IntroductionBasic System Architecture

RPS-424 Power Supply

(under Central

Processing Unit)

g Unit

Basic System ArchitectureTFX-400 is a self-contained unit that provides basic fire detection and notification functions with a simplified user interface, a central signal processing unit and an industry-standard 24 VDC power source. It contains a Front Panel with user controls and system indicators. The electronic subassemblies are located inside the cabinet.

TFX -400 contains the following components and subassemblies:

• Front Panel

• Fire Control Module (FCM)

• Operator Display Module (ODM)

• Central Processing Unit (CPU)

• RPS-424 Power Supply/Battery Charger

Central ProcessinOperator Display Module (ODM)

Fire Control Module (FCM)

Front Panel

850539-1

1-2

IntroductionBasic System Architecture

Front Panel

The Front Panel is the center for user interface. All user interface functions are directed by two internal modules on the Front Panel: the Local Fire Control Module (FCM) and the Operator Display Module (ODM) consisting of two integrated groups of controls and indicators.

FCM and ODM

The FCM and ODM, linked by the ribbon cable, communicate with the Central Processing Unit through a local bus.

• The FCM provides indicators that light and/or sound when an alarm, trouble or supervisory condition arises.

• The ODM provides an 80-character LCD that displays text describing all event types and their precise locations. Basic push button functionality allows the operator to respond to alarm conditions and address system configuration issues.

Fire ControlModule (FCM)

Operator DisplayModule (ODM)

850539-11-3

IntroductionPanel and Module Description

ericypad

FunctionKeys

Up/DownArrow Keys

r Display Module

LCD

Panel and Module Description

EventIndicators

Power

Programmable

Key Switch

ProgrammableIndicators

NumKe

OperatoFire Control Module

Front Panel

LampTest

Indicators

850539-1

1-4

IntroductionPanel and Module Description

CONSYS informationFor detailed CONSYS information, refer to the AUTOCALL TFX CONSYS Programming Manual, publication number 850463.

Panel Silence NotePANEL SILENCE and ALARM SILENCE reset for any subsequent alarm conditions or trouble that causes the panel to resound.

Fire Control Module

POWER-indicator illuminates green when 5V power is applied to the system.

FIRE, SUPERVISORY, FAULT and ISOLATE event indicator LEDs illuminate when the associated condition arises. Refer to Responding to events in Chapter 3 for additional information

LAMP TEST-press and hold this push button to illuminate all programmed LEDs on the Front Panel.

KEY SWITCH-This switch allows operator input to the panel when in the ENABLE position. When the switch is in the OFF position, operator input to the panel is disallowed, except for the Numeric Keypad and LCD controls.

PROGRAMMABLE INDICATORS-These LEDs can be programmed via CONSYS to indicate status conditions for any physical location, or zones defined in the system

• Programmable LED#1 X-BUS I/O #85



Programmable Indicators illuminate to indicate an active state:

PANEL SILENCE-inhibits the audible tone emanating from the FCM.

ALARM SILENCE-inhibits the audible tone(s) from all devices/appliances currently in an alarm state.

RESET-clears the panel of existing alarm or trouble indication. If the condition still exists after pressing reset, the indication will return.

DRILL-activates all notification appliances and any other devices associated with a Fire Drill.

850539-11-5

IntroductionRPS-424 Power Supply/Battery Charger

Power InformationFor detailed Power information, refer to “RPS-424 Power Supply/Battery Charger” on page 12

Remote Panel InformationFor detailed Remote Panel Information, refer to “Initiating Devices” on page 13

Operator Display Module

DELETE, ENTER, QUIT and FAST ACCESS-function keys initiate actions during operation and administration.

Numeric Keypad-provides input characters 0-9.

LCD-80 character message display provides event logging and operator interface.

Up/Down Arrow Keys - These keys are used to data selection purposes.

RPS-424 Power Supply/Battery ChargerThe RPS-424 Power Supply/Battery Charger supplies power to TFX-400. RPS-424 is a regulated 24 VDC, 5A isolated switching power supply that can operate from 110-240 VAC 50/60 Hz.

In the event of AC power loss, the system automatically switches over to standby battery supply.

Central Processing UnitThe Central Processing Unit CPU-4500 is responsible for all signal processing and can communicate to a variety of fire protection devices and appliances. Refer to Optional Configurations.

The CPU provides two main circuits for interfacing fire detection modules, as well as more advanced system support functions.

The two main circuits are analog addressable signaling line circuits that support up to 99 addressable points each. Both circuits support Class A and Class B style and can be used to interface initiating devices, notification appliances and control functions.

Remote Panel Operation/Network Capabilities

Additionally, modules can be added that allow for remote panel operation and network capabilities.

Optional Configurations

A variety of optional detection/notification modules can be configured to TFX-400 to provide for enhanced fire detection and notification functions. These options include Notification Appliances, Initiating Devices and System Status Monitors.

TFX-400 also accommodates expanded system support functions. These modules include Remote Operator Control, TFXnet Applications and Data Output Devices.

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1-6

IntroductionSystem Specifications

System SpecificationsTFX-400 is intended for use within a building interior, free from exposure to moisture, condensation and excessive dust.

TABLE 1. TFX-400 Specifications

Electrical/Environmental Factors System Specifications

Temperature Range 32°F (0°C) to 122°F (49°C)

Relative Humidity 85% (noncondensing)

Analog, Addressable Signaling Lines Twisted Shielded Pair

Loop Styles NFPA 72 Style 4,6 and 7

Maximum Addresses per Loop 99

Maximum Loops per System Two (2)

Maximum Voltage 26.4VDC

Maximum Current 300mA

Supervisory Current 20mA per loop (plus load)

Alarm Current 24mA per loop (plus load)

Maximum Resistance 75 Ohms

Maximum Capacitance 0.5 microfarad (between one conductor and the other conductor, connected to the shield)

Maximum Inductance 1.5 millihenry (total)

Maximum Continuous Distance 6500 feet

14.25"

2.00" 2.00"

1.50

"

14.75"

1.50"

SurfaceMounting Wall Line

Semi-flushMounting Wall Line

19.875" 20.25"

5.25"5.13"

850539-11-7


Wiring Specifications and Parameters

Refer to the following charts for TFX field wiring specifications and parameters, alarm indicating devices and minimum separation between signal wires

*Length of wire run (pair) for DC alarm indicating devices on 3A circuits (3.2V maximum line loss)

TABLE 2. Wire Chart for Alarm Indicating Devices*

Distance in Feet

18AWG 16AWG 14AWG 12AWG

0.1A 2506 3984 6337 10076

0.5A 501 797 1267 2015

1A 251 398 634 1008

1.5A 167 266 422 672

2A 125 199 317 504

2.5A 100 159 253 403

850539-1

1-8

*If it is necessary to cross signal wires over power wires, the crossover should be made at right angles.

.

TABLE 3. Minimum Separation Between Power and Signal Wires*

Power Cable Voltage (V)

Power Cable Separation Current (A) Separation

11 1ft. 5 1ft.

240 1ft., 6 in. 15 1ft.

415 2ft 50 1ft, 8in.

3300 3ft., 8in. 100 2ft.

TABLE 4. TFX Field Wiring Circuits & Maximum Wiring Parameters

Circuit/Supervision StyleLength (ft.) Wiring/Cable Inductance mH Capacitance ( µF) Resistance (ohms) Rating

Analog addressable loops

• 99 addresses/loop

• addressable loop supervised

• spur circuits not supervised

• Style 4,

• Style 6,

• Style 7**

6500 twisted wire pair with shield 1.5 0.5

(between one conductor and the other conductor, connected to the shield)

75 ohms

Remote bus (RS-485)

• 16 RBus addresses

• supervised (EOLs 150 Ohm and 120 Ohm)

Style 4 4000 twisted wire pair with shield NA 0.5 100 (total)

Local bus (special)

• 16 LBus addresses

• supervised

NA cannot leave cabinet

special NA NA NA NA

Expansion bus (special)

• 80 I/O addresses

• supervised

NA cannot leave cabinet

special NA NA NA

Common alarm notification appliance (bell) circuits

• supervised (EOL 10k Ohm)

Style Y only

refer to Table 2

twisted wire pair with shield NA NA See Wire chart 3A avg.

Auxiliary power supply wiring to modules (24VDC)

NA NA No. 16AWG minimum NA NA 0.01 maximum 1A

Auxiliary power supply to DC common at main Control Panel

NA NA No. 16 AWG minimum NA NA 0.01 maximum NA

printer (EIA-RS232) NA 50 (same room)

special serial data cable with special jack

0 .0025 100 (total) NA

RS-485 Network (62 network points maximum)

• Style 6

• Style 7

10,000 twisted wire pair with shield (West Penn # D975 or equivalent)

NA • 0.3 max @ 38.4kbaud

• 0.6 max @ 19.2kbaud

• 1.2 max @ 9600 baud and below

75 NA


Input Voltage+5 V DC from RPS-424

Current DrawStandby: 50 mA

Alarm: 65 mA

DimensionsHeight: 5.25"

Width: 6.5"

Depth: 2"

ort

Local BusAddress

Connector for Local Busto CPU-4500

(Central Processing Unit Board)

nection to timal 5v xternal wer input

Jumper J3(Remove link if external 5V

power is used)

Fire Control Module (FCM) front

P/N 976421

The Fire Control Module (P/N 976421) is used in TFX-400 to provide system alarm, trouble, and supervisory annunciation, internal buzzer, and push buttons that are programmable for silence, reset, drill, and lamp test functions. The module also contains three programmable LEDs for annunciation of user defined actions.

The 976421S provides sockets for plug-in LEDs in order to change the LED color (LED Kit P/N 976411)

FCM back

8 conductor ribbon cableconnector

(from Operator Display ModuleKeyboard)

Brightness control forMessage display on the Operator Display Module

(CCW to increase)Personality

Serial PP2

Connector for LCD Display from Operator Display Module

Expansion Bus Connector(for ribbon cable to 16-indicator module)

Jumper J2 (install link to

disable expansion bus supervision)

Key SwitchCon

ope

po

Buzzer

850539-11-9

IntroductionOperator Display Module

Input Voltage+5 V DC

Current DrawNormal: 32 mA

(LCD lighted)

Alarm: 32 mA


Width: 5.9"

Depth: 0.75"

Operator Display ModuleP/N 976128

The Operator Display Module provides an 80-character (4 lines x 20 characters) Message Display and a keypad and function buttons for operator interface to TFX-400.

Connector for LCD Display

Ribbon cable for keyboardconnects to FCM

(8 conductor connectornot shown)

850539-1

1-10

IntroductionCPU-4500 Central Processing Unit

Current DrawsFrom +24 V DC:

Standby: 80mA

Alarm: 130mA


Width: 6.3"

Depth: 2.5"

Loop A

Loop B

liary Power

ontacts

Contacts

onnector

CPU-4500 Central Processing UnitP/N 976470

The CPU-4500 Central Processing Unit is the signal processing unit for TFX-400. All alarm, trouble, and system supervisory signals are sent to this module.

The CPU-4500 contains the EEPROM that is configured with site-specific data.

Two addressable loop multiplex communication circuits connect to a total of 198 input/output devices. A local bus port provides communication to the Local Fire Control Module.

Electrical supervision is according to NFPA 72 standards.

Local Bus

Microprocessor

Remote Network Interface

Remote Bus

Addressable

Addressable

24VDC Auxi

Fault Relay C

Alarm Relay

NAC Circuits

Input Power C

850539-11-11

IntroductionRPS-424 Power Supply/Battery Charger

SpecificationsModule Position:See system layout

Input Voltage120/240 V RMS

50/60 Hz (auto-ranging)

Input Current1.5 A RMS

Output Voltage+24 V DC regulated

(+10%/-5%)

Output CurrentStandby: 2.5 mA

Alarm: 5.0A

Current DrawStandby: 100 mA

Alarm: 100 mA

Battery Charging Capacity5-85 Ah C

Battery Charging Voltage27.6 V DC

Battery Charging Current2.5 A max


Width: 7.5"

Depth: 2"

RPS-424 Power Supply/Battery ChargerP/N 910683

The RPS-424 Power Supply/Battery Charger is a regulated 24 VDC 5A, isolated switching power supply that can operate from 120-240 VAC 50/60 Hz. The power supply serves as the primary power supply for the control panel and its devices.

DO NOT USE TB3with

CPU-4500

AC Inputs(hidden)

CPU-4500 Power Connection

TB3(field wiring)

TB2(field wiring)

TB4(battery connection)

850539-1

1-12

IntroductionInitiating Devices

Initiating DevicesThe initiating devices designed for use with TFX-400 include: the 900 Series Analog Addressable Smoke Detectors/Bases and Smoke Duct Detectors, the 900 Series Heat Detectors, the IXA-RMS Series Manual Pull Stations, and the GAR-1/GARA-1 Fire Suppression Agent Releasing Stations.

The 900 Series Detectors, as well as the 900 Series Heat Detectors are analog addressable devices. They are wired directly to the Addressable Loop, without any module interface. Once activated, the detector signals the Central Processing Unit, which in turn initiates the appropriate action. (For example, it activates alarms, notification appliances, and so on.)

This panel is also compatible with the 550 series detectors and accessories.

Conventional smoke detectors can also be interfaced to the Addressable Loop via an IXA-500DMA Detector Monitor Module. Once activated, the module signals the Central Processing Unit in the same manner as the addressable detectors. The Appendices of this manual provide a complete list of conventional smoke detectors that can be used with TFX-400, as well as other compatible devices.

850539-11-13

IntroductionInitiating Devices

The IXA-RMS Manual Pull Stations are interfaced directly to the Addressable Loop (their address is set by a DIP switch setting). The pull station incorporates an IXA-501 CM Mini Contact Module. When the station is activated (pulled), the contact module signals the Central Processing Unit, which in turn initiates the appropriate action (for example, activates alarms, notifications appliances, etc.)

The GAR-1/GARA-1 Agent Releasing Stations are also interfaced directly to the Addressable Loop. Like the pull stations, they also incorporate an IXA-501CM Mini Contact Module. When the station is activated, the Contact Module sends an “activate” signal to the Central Processing Unit.

850539-1

1-14

IntroductionNotification Appliances

Notification AppliancesTFX-400 can interface to any industry-standard UL Listed for Fire Protective Signaling notification appliance (i.e., horns, strobes, bells, speakers, etc.) This interface is accomplished via the notification appliance circuits on the CPU-4500.

You can connect notification appliances (for example K Series, Model AP or CH D) directly to the NAC circuits (Sounder A and Sounder B) of the CPU-4500. Sounder A and Sounder B are 24VDC outputs rated for 3A and use standard reverse-polarity supervision.

Alternatively, the Notification Appliance Circuit module (506 SDA) on the Addressable Loop provides 24VDC output and an address for each appliance (or group of appliances) that can be regularly polled by TFX-400.

850539-11-15

IntroductionSystem Status Equipment

System Status EquipmentVarious input/output modules interface with TFX-400 for the purpose of monitoring system status and maintaining optimal system performance. These modules include the CAA-500LI Line Isolator Module, and the PAM-2 End-Of-Line Relay.

Line isolators can be strategically placed on the addressable loop, as desired, to monitor the condition of the addressable loop data circuits. When a short circuit is detected, the Line Isolator isolates the affected section of the loop and allows the rest of the addressable loop data circuit to function normally.

A line isolator will only isolate one side of the device. To comply with NFPA 72 Style 7, each device must have a pair of isolators closed nippled with it.

The end-of-line relay is used to indicate the end of a line, or circuit, of devices/appliances when used with 4-wire smoke detectors. The relay is a multi-voltage device that is energized by the input voltage from TFX, and in turn provides end-of-line supervision on monitored zones.

850539-1

1-16

IntroductionSystem Customization

Firegraph

System CustomizationTFX-400 is also flexible enough to accommodate more demanding applications.

Some examples of extended functionality that the TFX-400 can provide are:

• Remote Operator Control Panels

• Remote Reporting (e.g., digital alarm communication, city box transmission)

• Networking capabilities

• Video and Hard Copy Output.

These applications require additional TFX modules that must be located outside TFX-400, in a Remote Fire Control Panel.

For any customized application, consult an authorized dealer.

NetworkRemote OCP

Video Terminal

Printer

Agent Releasing

850539-11-17

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Chapter 2•Getting Started

ChapterThe first step in getting started is to assemble the TFX-400 backbox and door into an integrated fire control cabinet, and then connect the cabinet to an appropriate power supply and backup power supply.

Step 1Unpacking and Location

TFX-400 is shipped with the enclosure ("backbox") and the subplate ("door") assembled. Remove the entire control panel assembly from the shipping box. The items that should be present in the box include:

• Fire Control Panel

• TFX-400 System Folder

• Installation Sheets

• Cabinet Keys

Take care in planning the AUTOCALL TFX-400 Control Cabinet location. The cabinet is for use only inside buildings which are free from exposure to rain, condensation, excessive dust, moisture, or other airborne contamination. Locate the cabinet in a low risk area (preferably on the ground floor near a building exit) for safety of the control panel operator who may be the last to leave the building in the event of an emergency.

Plan the cabinet location to permit free access to sides, top, and/or bottom for conduit entry. Make sure conduit or wire does not interfere with module location. Also, make sure there is full clearance for the 180-degree swing-out door and adequate working space for future operation and system maintenance.

850539-12-1

Getting StartedMounting the Panel

Step 2Mounting the Panel

Mount the cabinet at a height convenient for the lights to be seen clearly and the control panel touch-buttons can be reached by all system operators.

a. TFX-400 is shipped with the enclosure ("backbox") and the subplate ("door") assembled. Prior to mounting the backbox, you may wish to remove the door for ease of installation.

To do so, first remove the green system ground wire that runs across the top of the door and back box. Next, detach the ribbon cable that connects the Central Processing Unit to the Fire Control Module.

Gently lift the door up and off of the hinges that hold the door to the backbox.

b. Fit the screw heads and washers (1/4" - 20 screws, minimum, not furnished) into the top two keyhole slots in the backbox. Slide the backbox down and capture it between the spacers and washers. Insert the bottom screws.

c. Tighten the top and bottom screws.

d. Attach the door. Reattach the green ground wire. Reconnect the ribbon cable that attaches the Central Processing Unit to the Operator Control Module.

Ribbon Cable attachment site

Ribbon Cable on CPU Board

Ground Wire (green)

Top Door Hinge

Step 2a

Ground Wire attachment site

850539-1

2-2

Getting StartedMounting the Panel

850539-12-3

Getting StartedConnecting the Standby Batteries

Warning!

Do not wire with live voltages! Turn off AC power before proceeding.

Caution!

Do not connect AC or Battery power until all wiring has been thoroughly checked.

Step 3Connecting the Standby Batteries

Standby batteries are not supplied with TFX-400. The correct standby battery capacity is dependent on the number of devices and appliances incorporated, as well as any optional modules installed.

a. Use the TFX Battery Calculations Worksheet, found in the Appendix section of this manual (publication number 19700368), to calculate the size of the standby battery that should be used for the system.

b. Place the batteries on the bottom of the backbox of the control cabinet (which should now be mounted).

c. Connect the standby battery leads to the RPS-424 Power Supply Module at TB4-1 and TB4-2. Observe proper polarity for correct operation.

d. Connect the Battery Fuse Assembly between the first battery terminal (-) and the second battery terminal (+).

e. Connect the BATT -VE cable to the negative battery terminal, and the BATT +VE to the positive battery terminal.

Step 4Connecting AC Power

The RPS-424 Power Supply Module is a regulated 24VDC, 5A isolated switching power supply that can operate from 120-240 VAC 50/60 Hz. To connect AC power:

a. Feed the AC power cord (leads first) into the top left cut out on the backbox.

b. Connect the leads to TB1 (AC) L1, E GND, (AC) L2) on the Power Supply Module.

c. Hard wire the power cord to a suitable circuit breaker.

d. Apply power to the Fire Control Panel and test.

Step 3c

Step 3e

Step 4b

850539-1

2-4

Getting StartedWiring Diagrams

Warning!

Disconnect power and batteries before installing devices.

Caution!

1 Check wiring before any devices are attached. Use an LCR meter to check wiring parameters.

2 The panel should not be used in place of a multimeter in checking field wiring for grounds, shorts, opens, polarity, or voltage. If you do not have an appropriate meter, stop at once and get one.

3 Disconnect power and batteries before installing devices.

4 Check all circuits for correct polarity and end-of-line devices.

5 Actual field experience has shown that the most common problems can be traced to incorrect installation of initiating and indicating devices.Look for incorrect wiring (resulting in open or short circuit), missing EOLs, and incorrect polarity.

6 The Control Panel contains static-sensitive components that require the use of static handling procedures.• Handle all static-sensitive

components at a static safe area.

• As a minimum, static safe areas should include a grounded conductive work mat and wrist strap.

• Do not allow nonconductors in the work area (for example, synthetic clothing including ties, polystyrene coffee cups) insulated solder removers, etc.

• Use static shielding bags during all transport.

Wiring DiagramsThis part of the section provides the following wiring diagrams:

• Simple Fire Detection/Notification Configuration

• Typical Fire Detection/Notification Configuration

Refer to these diagrams as needed as you configure your system.

General Wiring Guidelines

1. All wiring is to be in accordance with NEC, local authorities, and applicable notes.

2. Make sure that all power-limited/Class 2 wiring is separated at least 0.25 inches from any wiring that is not power-limited.Use cable ties to secure wiring.

3. Circuits leaving the building must be connected to a UL Listed primary protector at the point the wiring exits the building (reference NEC Article 800-31).

4. Circuits leaving the building must employ the listed model SX -TB -030 -2A Secondary Protector.

5. All conductors are to be free of grounds.

6. All supplementary power must be fused. Use only UL Listed regulated, power-limited power supplies suitable for fire protective service.

7. Check that you have all equipment necessary. A suitable LCR test meter is required.

8. Follow the wiring diagrams and site plans for your system.

9. To prevent confusion and possible errors, all conductors should be tagged or otherwise coded and logged, during installation, to identify circuit assignment, polarity, and whether the wiring is outgoing or return.

10. Leave adequate slack in the wiring to allow for troubleshooting.

11. All wiring should be terminated with UL Listed end-of-line devices.

12. The incoming AC voltage should be stable and within the specified voltage range.

This is especially important in construction projects where incoming power may be high or unstable, with temporary connections often causing large inductive voltage spikes.

13. Incoming Wiring - Life Safety Branch Circuit or as required by local code. Protect by fused disconnect or circuit breaker.

850539-12-5


Note to InstallerIt is your responsibility to ensure that the wiring, and devices installed in the system, meet the current National Electrical Code, NFPA 70 (Articles 210 and 760), and state and local building code requirements.

14. Earth Ground Fault Detection:

a. all exposed metal and conduit must be grounded with a suitable earth ground wire.

b. The power supply/battery charger and AC input should use a dedicated ground circuit, not conduit ground.

c. All auxiliary AC power supplies or Remote Bus (including any AC-powered remote panels) must have DC Common (0 VDC) connected to DC Common (0 VDC and TB2-2) on the RPS-424 power supply at the Control Panel.

d. At no time should this system be connected to a conduit or green wire circuit that also is used to power resistance heating, motors, fans, air conditioning equipment, or fluorescent lighting circuits.

Leakage currents into the ground return could damage sensitive system components.

e. A separate earth ground or cold water pipe with properly bypassed water meter should be used.

f. All external devices, such as horns or alarm bells, should have their housings grounded.

15. Wiring Shields:

a. It is essential that shields of all shielded wires be continuous and connected to DC Common only at the Control Panel.

b. All splices of shield on shielded wires must be taped and free from connection to any circuit conduit or ground.

16. The wire shielding must NOT be connected to, or touch, the conduit, electrical boxes or associated hardware at any point.

The 2-way data circuits cannot come in contact with each other, or any other grounded device.

17. Most supervised circuits use voltage and current sensing circuits which are every sensitive to induced voltages on the sensor wiring.

DO NOT, under any circumstances, run AC power or other high voltage wiring, in the same conduit or in the immediate vicinity of the sensor wiring.

18. For conventional device circuits (not addressable loops), when smoke detectors and manual stations are connected to the same initiating circuit, the manual stations must be connected electrically ahead of any smoke detector trouble contacts.

850539-1

2-6


19. All inductive load switching circuits must have suppression networks attached. Failure to do so voids warranty.

20. All DC alarm signals are marked showing polarity of operation. The polarity reversing DC alarm indicating circuits are marked showing polarity of the alarm. Connect only 24VDC polarized alarm signals.

21. A commonly overlooked problem involving modern electronic control systems is the lack of adequate lightning protection.

Make sure adequate lightning protection is provided for the incoming power at the entry to the building. Arrestor circuitry and earth grounding should be in accordance with Article 250 of the National Electric Code.

22. Reduce radio frequency interference by correct shielding and grounding.

850539-12-7


e

s

Simple Fire Detection/Notification Configuration

Caution!It is important to follow the site plan and the planning forms for your installation because these forms arthe basis for AUTOCALL system programming. Any deviation from the site plan may result in incorrect programming of your system.

Fire alarm systems and associated initiating, indicating and controlling devices must meet requirementas described in the codes and standards of the authorities having jurisdiction. Follow NFPA and NEMA guidelines for the following items:• selection of, limitations of, placement of and spacing of sensors and other system devices• system installation• system testing

Caution!DO NOT apply power to the CPU-4500 with the EEPROM H3 jumper installed if using autoconfigure.

850539-1

2-8

Typical Fire Detection/Notification Configuration

* Power supply must be UL Listed, Regulated and power-limited for fire protective signaling

Getting StartedTypical nonpower-limited wire routing

Typical nonpower-limited wire routing

850539-1

2-10

Getting StartedSet Device Addresses

Auto-configure WorksheetsSee the Appendices for auto-configure worksheets.

Each block in a column represents a unique address, as identified in the Switch Settings column. Valid addresses are represented by blank, or open, blocks. Blocks that are shaded gray represent invalid addresses, and should not be used.

Manually configure devicesSee the Appendices for auto-configure worksheets.

Any device not found on the worksheet must be configured manually.

HF 912I

912HP Amp96 Device

Configuring the addressable loops encompasses the actual wiring of optional equipment (devices, modules, etc.), as well as setting the address for each piece of equipment and executing the auto-configuration function.

Step 1Set Device Addresses

Each optional module installed on the addressable loop must contain an address, in order to report status information back to the TFX-400 Central Processing Unit. This address is set on a 7-position DIP switch. (Refer to the Installation Sheet supplied with each device for DIP switch location.) To set device addresses:

a. Determine the proper addresses that should be set on each device’s DIP switch. Use the AUTOCALL TFX-400 auto-configuration Worksheet, found in the Appendix section of this manual. Locate the correct device type in the columns running across the worksheet, and select a block in the appropriate column (see sample worksheet below).

b. Select the desired address, and check that block.

c. Set the corresponding address on the DIP switch for that device. The settings in the worksheet correspond left-to-right to the 1-7 positions on the DIP switch.

d. Write the device name under the Device column for quick

reference.

e. Repeat steps a-d for each piece of equipment to be configured.

Loop: A Loop DeviceSwitch Settings

Zone Addr1=ON 0=OFF Sw# 1234567

CMAlarm

CMFlow

CMSuper. DM RM

SDASilenceable

SDANon-silenceable

912H135 F

912200

0 00000001 10000002 01000003 11000004 00100005 10100006 01100007 11100008 00010009 100100010 010100011 110100012 001100013 101100014 011100015 1111000

Zon

e 1

Loop

A

AUTOCALL TFX-400 WORK SHEET FOR AUTO-CONFIG URATION

850539-12-11

Getting StartedWire Devices

Warning!

Ensure that power has been removed to the fire control panel before accessing any of the electronic components. Failure to do so may result in equipment damage and/or bodily injury.

Step 2Wire Devices

a. With power to the Control Panel off, connect the analog addressable loop circuits. Observe correct polarity.

b. Connect all modules, appliances, and devices to the addressable loop according to the instructions found in the associated Installation sheet supplied with the equipment.

Refer to the AUTOCALL TFX-400/500/800 Wiring Guidelines, publication number 850509, for wiring specifications and guidelines.

c. Apply power to the Control Panel. The following message will appear on the message display,

UNCONFIGURED DEVICE

until one of two things happen:

• auto-configure is run on the system

• a system configuration is downloaded to the panel from a computer

using Consys®

Step 3Auto-configure Devices

When the system has been properly wired and tested, the devices can be configured. TFX-400 allows for automatic configuration of devices.

Once initiated at the Control Panel, the auto-configure process polls all devices on the loop, collects device addresses, and assigns default device type and group characteristics. This information is then written to the EEPROM via a single jumper setting.

To perform Auto-configuration:

a. At the Control Panel, enter the passcode using the numeric keypad, then press YES.

850463 [YES]

b. Press FAST ACCESS.

FAST ACCESS

c. Enter the code "0110" using the numeric keypad, then press YES.

0110[YES]

d. The following prompt appears on the Message Display:

Configuration Menu? Confirm this selection by pressing YES.

[YES]

850539-1

2-12

Getting StartedAuto-configure Devices

Releasing StationsProper configuration of Releasing Stations can only be achieved through either Manual Configuration or CONSYS programming. Refer to the CONSYS Programming Manual, publication number 850463, for detailed instructions.

e. The next prompt to appear on the Message Display is:

Auto configure point(s)?

f. Confirm this selection by pressing YES. The system prompts:

Loop: A

(Y/N)?

This prompt requests a selection for the addressable loop(s) to be configured. If devices are wired on only one loop (A or B), enter that loop, then press YES.

If devices are wired to both loops, enter ALL, then press YES. (The selections of A, B, and ALL can be toggled using the arrow keys located on the Control Panel.)

For example:

ALL [YES]

g. Next, the system prompts:

Point no.:

(Yes=all)

This prompt requests an entry for the point(s) on the loop that are to be configured. For completely new configurations, pressing YES directs the system to configure all points on the specified loop(s).

[YES]

h. The system displays the following status messages, indicating that auto-configure is in process:

Configuring in RAM

Done

i. When auto-configure has polled the necessary information from the specified loop(s), the following prompt appears on the Message Display:

Configure more points?

To proceed with auto-configure without making changes:

[NO]

j. The final prompt displayed is:

Program EEPROM?

If you want to save all of your changes, go to step l.

If you do not want to save changes, go to step k.

850539-12-13

Getting StartedManual Configuration

Releasing StationsProper configuration of Releasing Stations can only be achieved through either Manual Configuration or CONSYS programming. Refer to the CONSYS Programming Manual, publication number 850463, for detailed instructions.

Device Group For most applications, the group associated with a device should not be changed. If it is necessary to select a group other than the default set in auto-configure, use extreme care so as to maintain compliance with NFPA regulations and any authority having jurisdiction.

Configure Pull StationsProper configuration of Pull Stations and Releasing Stations can only be achieved through either Manual Configuration or CONSYS programming. Refer to the CONSYS Programming Manual, publication number 850463, for detailed instructions.

Caution!

Make sure you remove the link immediately upon seeing the REMOVE LINK!! message.

The Control Panel will then go through a quick initialization process.

Manually configure devicesSee the Appendices for auto-configure worksheets.

Each block in a column represents a unique address, as identified in the Switch Settings column. Valid addresses are represented by blank, or open, blocks. Blocks that are shaded gray represent invalid addresses, and should not be used.

Any device not found on the worksheet must be configured manually.

k. If you do not want the configuration, press [NO] and the configuration will not be saved in the EEPROM. The following message will be briefly displayed:

DISCARDING

CONFIGURATION

Return to step e. on page 13 to continue.

l. Before answering [YES] to the prompt to save configuration information obtained in the current auto-configure process (j. on page 13), ensure that the jumper is in the enable position.

Press YES

[YES]

m. The following two messages appear on the Message Display, in succession, indicating the completion of auto-configure:

Storing configuration

Configuration Completed

Remove LINK!!

n. TFX-400 is now configured for all devices on the addressable loop(s) that are auto-configurable.

Each device is configured for the default input/output groups.

Refer to the Appendices for information regarding the default group assigned to each device by auto-configuration. (The group determines how the system "views" the device, as well as how changes in device state are processed by the system.)

Step 4Manual Configuration

If desired, any of the configuration data automatically programmed via Auto-configuration can be edited and/or further defined using a Manual Configure function.

Examples of Manual Configure uses are:

• The addition (and subsequent configuration) of a new device.

• Changing the passcode for the system.

• Changing the input/output group assigned to a device.

To perform Manual Configure:


850463 [YES]


FAST ACCESS

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2-14



0110[YES]


Configuration Menu?

Confirm this selection by pressing YES.

[YES]

e. The next prompt to appear on the Message Display is:

Auto configure point(s)?

[NO]

f. The system prompts:

Manually configure Points?

[YES]

g. Followed by the prompt:

Loop A (y/n)?

If Loop A incorporates the device to be modified, press [YES]. If not, press [NO] and the system will prompt for loop B, at which time loop B may be selected by pressing [YES].

<A or B> [YES]

h. The next prompt to appear is:

Point no.:

Enter the number that corresponds to the point to be configured. (Refer to the site plans for device/point locations.)

<point no.> [YES]

i. The system prompts:

Current Value: nn

Device Type: nn

This prompt allows the device type to be changed. To make a change, type the number that corresponds to the desired type and press YES. (Or, press [YES] to bypass this entry without making changes.)

<device no.> [YES]

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If TFX-400 has been previously configured Manual configuration will not overwrite any default text description previously assigned to a point during a previous auto-configuration.

j. The system prompts:

Current Value: nn

Group no.: nn

This prompt allows the input/output group associated with the device to be changed. To make a change, type the number that corresponds to the desired group and press YES. (Or, press [YES] to bypass this entry without making changes.)

Refer to the Appendices for a complete listing of input/output groups and their corresponding numbers.

<group no.> [YES]

k. The system prompts:

Zone no.:

This prompt allows the zone associated with the device to be changed. Enter the number that corresponds to the desired zone. (Refer to the site plans for zone locations.)

<zone no.> [YES]

The system displays the message

Done:

l. The following prompt appears on the Message Display:

Configure more points?

In order to make additional changes, press [YES] and supply the required information as outlined above. When all the desired changes have been made:

[NO]

m. The final prompt displayed is:

Program EEPROM?

Before responding [YES] to this prompt, ensure that the jumper is in the enable position.

To disallow programming (i.e., downloading), press [NO]. The following message will briefly display, and then the system will return to step f. on page 15.

DISCARDING CONFIGURATION

Assuming that programming is desired, continue with auto-configure by placing the EEPROM jumper in the enable position, then press YES.

[YES]

n. The following two messages appear on the Message Display, in succession, indicating the completion of manual configuration:

Storing configuration

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2-16

Getting StartedPerform Solo Test

Caution!

Make sure you remove the link immediately upon seeing the REMOVE LINK!! message.

The Control Panel will then go through a quick initialization process.

Main menu promps are as follows:

• View unrestored events?• View system statuses?• Do you want to test system?• Do you want to print data?

System submenu prompts are as follows:

• Do you want to solo test zone?• Do you want to solo test

multi-input port?• Solo test sounders?

Solo Test ZoneSelecting this function disables the point(s) under test.

Configuration completedRemove Links!!

TFX-400 is now configured with the additional changes made through Manual Configuration.

o. Move the EEPROM jumper to the disabled (park) position.

Step 5Perform Solo Test

Test the devices using the Solo Test, accessed via the Main Menu.

a. Log onto the system by typing your passcode on the Numeric Keypad, followed by YES.

0911 YES

b. Operation may now proceed at the Main Menu level. The Main menu consists of four prompts that access specific routines. A "yes" response to any of these prompts accesses a subset of prompts used to execute functions specific to that routine.

Use the arrow keys at the Operator Control Panel to cycle through the prompts, until the Do you want to test system? prompt appears. Press YES to accept this prompt.

YES

c. The System Test submenu consists of four prompts that access specific test routines. A "yes" response to any of these prompts accesses the associated test. The procedure for executing each of these tests is presented in the following text.

Solo Test ZoneThis option allows the detectors and manual pull stations in a zone to be checked for correct operation without raising an alarm.

a. Upon selecting Solo Test Zone, the following prompt appears on the Message Display:

Zone no.:

(Quit to Exit)

b. Enter the number of the zone assigned to the devices that will be tested.

<zone no.> YES

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Getting StartedSolo Test Multi-Input Point

Solo Test TerminationThe Solo Test will automatically terminate one hour after the last device is tested, if it is not terminated manually.

Solo Test Multi-Input PointSelecting this function disables the point(s) under test.

c. The next prompt to appear is:

Solo test active

000 pnts tested

exit with quit

This prompt indicates that the system is in an active test state. At this time, walk around the zone and activate all devices (detectors, manual pull stations, etc.), placing them into an alarm condition.

As each device is placed in alarm the message prompt will update the "000 pnts tested" counter. The LEDs on the last five devices tested should also be lit. If a printer is attached (and on-line), details of the points tested will be printed as they are tested.

d. After all devices are tested, press:

QUIT

The following summary message appears in the Message Display:

000 points untested

000 points in Alarm

print data?

If a printer is attached, and a printout of missed and faulty points is required, press YES and the display indicates "print initiated."

Press QUIT to terminate the Solo Test when all devices are out of the alarm state (i.e., the key is removed from a pull station, or detectors are clear of smoke) and the summary message indicates "000 points in Alarm."

[QUIT]

Do not quit the Solo Test while devices are in an alarm condition (i.e., if the key has not been removed from a pull station, or detectors still contain smoke). If devices are in alarm, quitting causes the fire control panel to immediately signal an alarm.

Solo Test Multi-Input Point

This option allows multiple conventional devices connected to a single addressable point (Contact Monitor Module or Detector Monitor Module) to be tested without raising an alarm.

a. Upon selecting Solo Test Multi-Input Point, the following prompt appears on the Message Display:

Loop: A (Y/N)?

Select the loop that is associated with the point(s) that will be tested. Pressing YES selects the default, Loop A. To select Loop B, press the

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Getting StartedSolo Test Multi-Input Point

Multi-Input Point TestThe Multi-Input Point Test will automatically terminate one hour after the last device is tested, if it is not terminated manually.

down arrow key and the message display will indicate Loop B. Then, press YES to select Loop B.

<Loop A or B> YES

The next prompt to appear is:

Point no.:

(Quit to Exit)

b. Enter the address of the required point to be tested.

<point no.>YES

The following prompt appears:

Solo test active

000 activations

exit with quit

This prompt indicates that the system is in an active test state.

To test multiple conventional devices connected to a Contact Monitor Module, activate only one contact at a time. The contact must be active for 10 seconds, then deactivate the contact for 10 seconds before testing the next contact.

To test multiple conventional detectors connected to a Detector Monitor Module, activate only one detector at a time. Activate the detector with smoke, and allow 10 seconds from detector activation for the Control Panel to recognize the alarm. Approximately 10 seconds later, the panel will reset the zone of conventional detectors after 45 seconds. During this time, make sure that the tested detector is clear of smoke, then proceed to test the next detector.

For each contact activation, the message prompt will update the "000 activations" counter.

Press QUIT to terminate the Multi-Input Point Test.

QUIT

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Getting StartedSolo Test Sounders

Alarm during Solo TestIf an alarm occurs during the solo test, the test function will be automatically terminated and the fire control panel will respond as

Solo Test automatic terminationThe Solo Test will automatically terminate one hour after the test is completed, if not terminated

Solo Test Sounders

This option allows signalling appliances to be tested without first raising an alarm. It is possible to test either ALL the signaling appliances, or the signaling appliances in only one zone.

a. Upon selecting Solo Test Sounders, the following prompt appears on the Message Display:

Zone no:

(Yes=all)

Enter the number of the zone assigned to the appliances that will be tested.

YES

The following prompt appears:

Sounders in

Solo test

Exit with quit

This prompt indicates that the system is in an active test state. All indicating appliances (in the specified zone) will operate for approximately 2 seconds at 30-second intervals.

b. Walk around the site to all indicating appliances and confirm proper operation.

c. When proper operation of all appliances have been verified, press QUIT to terminate the test.

QUIT

The system responds with the message:

Solo test terminated

As soon as the proper system configuration has been downloaded to the Central Processing Unit (refer to “Auto-configure Devices” on page 12 or “Manual Configuration” on page 14 in this chapter, the following status indications are given:

• The Message Display shows zeros for time/date

• The POWER LED is backlit

• All other LEDs are extinguished

At this time, TFX-400 is fully operational. All monitoring and response functions are active. Refer to Chapter 3, Operation, for detailed instructions.

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2-20

Getting StartedSet Time/Date

Step 1Set Time/Date

Before proceeding with operation, the system clock and date should be set to reflect the current time and date.

To do so:


850463 [YES]


FAST ACCESS


0020[YES]


Do you want to set the time?

Press YES.

[YES]

e. Next, the system prompts:

Do you want to set the clock?

Press YES to enable the entry of a time value.

[YES]

f. The system then prompts:

Enter time as:

HHMMSS

Use the keypad at the Operator Control Panel to enter the current time, in the format hours/minutes/seconds.

<nn:nn:nn>[YES]

g. Next, the system prompts:

Do you want to set the date?

Press YES to enable the entry of a date value.

[YES]

h. The next prompt requests an entry for the current time.

Enter date as:DDMMYY

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Getting StartedSet Time/Date

Use the keypad at the Operator Control Panel to enter the current date, in the format day/month/year.

<nn:nn:nn>[YES]

i. The final prompt to appear requests an entry for the day of the week.

Sun=1... Sat=7

Enter day:

Enter the number that corresponds to the appropriate day, followed by YES.

[YES]

j. The system displays the next sequence of prompts in the Main Menu hierarchy. Exit the time/date function by pressing QUIT.

[QUIT]

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Chapter 3•Operation

Types of events• Multiple Trouble Conditions• Trouble Condition Precedes

Fire Alarm• Fire Alarm Precedes Trouble

Condition• Multiple Fire Alarms

Event MonitoringNormal daily operation of TFX-400 consists primarily of maintaining proper system status by responding to LEDs and acknowledging any messages.

This chapter describes events you may see and provides general operation instruction, including the following subjects.

• “Types of Events” on page 2

• “Responding to events” on page 4

• “Accessing Menu Functions” on page 9

System Status activities are accomplished using the pushbuttons and keys located on the Front Panel of the fire control panel.

Activities that are performed on a monthly, or on an as-needed basis include the following:

• Viewing Unrestored Events (page 12)

• Viewing the System Health Report (page 12)

• Viewing System Statuses (page 12)

• Viewing Point or Loop Data (page 20)

• Setting the Clock (page 13)

• Testing the System (page 13)

• Isolating/De-isolating Points (page 15)

• Configuring the System (page 14)

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OperationTypes of Events

Event OrderThe order in which events are viewed in the event log can be set to newest first, oldest first, or highest priority. Refer to “Viewing the Event Log” in the next subsection entitled “System Maintenance.”

CONSYS ProgrammingCertain alarm parameters can be modified using CONSYS programming. For example, an “Alarm Resound Always” option can be set, or the system can be programmed to display pre-alarm warnings. Refer to the CONSYS Programming Manual, publication number 850463, for details.

Types of EventsWhen an event is detected by TFX-400, the appropriate signalling appliances (bells, horns, strobes) are activated, the appropriate Alarm or Trouble LED lights, a message is displayed on the Message Display, and an associated event is entered into the Event Log.

The following four types of events can be generated, as indicated by the associated LED on the Fire Control Panel:FIRE Fire indicates that a fire has been detected in some portion of the

facility.SUPERVISORY Supervisory indicates that there is a device within the fire

suppression system, such as a sprinkler valve switch that has been activated.

FAULT Fault indicates that there is a problem with the fire detection system.

ISOLATE Isolate indicates that some portion of the system has been taken out of normal operating mode (for repair, re-configuration, etc.).

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OperationTypes of Events

The TFX-400 Control Panel prioritizes trouble conditions when multiple events are detected within a short span of time.

Multiple Trouble Conditions

If multiple trouble conditions (SUPERVISORY/FAULT/ISOLATE) are present, the system responds as follows:

• The associated yellow trouble indicator (SUPERVISORY/FAULT/ISOLATE) lights.

• The condition is logged as an event, in the order in which the condition was detected, chronologically.

Trouble Condition Precedes Fire Alarm

If a trouble condition (Supervisory/Fault/Isolate) is present when a Fire alarm is received, the system responds as follows:

• The associated yellow trouble indicator (SUPERVISORY/FAULT/ISOLATE) remains lit. Any zonal trouble indicators will extinguish.

• Once the Fire alarm has been addressed, cleared, and reset, the system responds to the Trouble condition.

Fire Alarm Precedes Trouble Condition

If a Fire alarm is received after a trouble condition (Supervisory/Fault/Isolate) is present, the system responds as follows:

• The associated yellow trouble indicator (SUPERVISORY/FAULT/ISOLATE) remains lit. Any zonal trouble indicators will not respond until the Fire alarm has been cleared.

• Once the Fire alarm has been cleared, and reset, the system responds to the Trouble condition

Multiple Fire Alarms

If a second Fire alarm is received after a Fire alarm is already present, the following conditions occur, depending on these preconditions:

• If bells, horns, strobes (signalling appliances) have NOT been silenced:

• The red FIRE indicator begins blinking.

• The internal buzzer sounds continuously.

• The Message Display shows the message associated with the first Fire alarm.

• The outstanding events counter (Message Display) increments by one.

• If bells, horns, strobes (signalling appliances) have been silenced AND the new alarm originates from the same zone:


• The signalling appliances are reactivated.

• If bells, horns, strobes (signalling appliances) have been silenced AND the new alarm originates from a different zone:

The red FIRE indicator begins blinking.

The internal buzzer sounds continuously.

- The signalling appliances are reactivated.


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OperationResponding to events

Responding to eventsThe procedure for responding to these events is as follows:

Step 1Identify the Type of Event

Look at the Control Panel and verify that an event has occurred. (One of the four event LEDs will light.) Listen for the associated signals, as follows:

• Fire: panel buzzer sounds; alarm bells, horns, etc. sound.

• Supervisory: panel buzzer sounds.

• Fault: panel buzzer sounds.

Step 2Read the Message Display

Examine the message appearing on the Message Display to determine where the event originated.

The message consists of the following fields:

• Fault String: a 20-character identifier that describes the type of fault.

• Point String: a 20-character identifier that describes the point on the addressable loop that triggered the event.

• Zone String: a 20-character identifier that describes the system zone in which the event originates.

• Event Code: a label that uniquely identifies the event. The first set of characters identifies the board and address associated with the event; the second set of characters represents the point category and point number; the last set of characters represents the number of that particular message in the queue.

Refer to the following tables for a comprehensive listing:

• Table 1, “Point/Zone Strings

• Table 2, “Fault Strings

• Table 3, “Access Codes and Menu Prompts

TABLE 1. Point/Zone Strings

Category Definition

R Real Point: a physical input/output point

P Pseudo Point: a software-derived fault number

x Expansion Bus: a physical input/output point on the expansion bus

S Switch: a physical input point on the FCM

A Analog Loop Reference

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TABLE 2. Fault Strings

Message String Definition Possible Causes

24V TOO HI FAULT 24 Volt supply too high

ALXM PSU FAULT Fault in power supply unit for ALXMs Faulty PSU or incorrect PSU wiring

AUX PSU FAULT Auxiliary charger fault Faulty PSU or incorrect PSU wiring

BATTERY CRITICAL Battery voltage is too low Faulty battery or charger

BATTERY FAULT Faulty battery Faulty battery

CHECKSUM FAILURE Checksum failure ROM or EEPROM ROM/EEPROM failure, PCB failure

COMMS FAULT Comms lost on LBUS, RBUS or LNET Slave disconnected/faulty, address links set incorrect.

CONFIG INCOMPAT Configuration EEPROM incompatible with program software issue number

Check Read Program Issue number against current issue of CONSYS

CONTROL FAILURE User definable

DATA ERROR 1/2/3/4 Bus configuration errors, data packet errors, or interactive operator errors

Erroneous or illegal receipt of data

DET CON FAULT HI High long term average condition Device aging

DET CON FAULT LO Low long term average condition Device aging

DET WIRING FAULT Detector connected to Detector module wiring fault

Incorrect device wiring or faulty DM or faulty detector

DEVICE FAULT Device fault Faulty device or incorrect device fitted

DISPLAY FAILURE MPIM cannot communicate with LCD Faulty LCD or MPIM configured incorrectly

EARTH FAULT Ground fault

FAULT OVERFLOW -VER 3 LOOP FAILURE -VER 4 - 11

More than 5 det. In one loop not responding

Loop not connected, or loop shut down or broken

GENERAL FAULT User definable

GROUND FAULT Ground fault Part of the floating system is making contact to a reference voltage

HIGH IDENT High I.D. current Incorrect device fitted or faulty device If several faults then there is extra current draw in the loop either due to leakage or due to a faulty device

INVALID DATA Incorrect or faulty device Current reading falls into illegal band

LOOP CRITICAL Quiescent current on the loop is unacceptably too large (>12 mA).

The system has adopted a 12 mA loop compensation. Faulty device(s) on the loop or wiring fault causing current to leak from the loop.

LOOP DEVICE REVERSED Detector incorrectly wired Incorrect device wiring or faulty device

LOOP FAULT Quiescent current on the loop is excessive (8-12 mA).

The system has adopted a 8 mA loop compensation. Faulty device(s) on the loop or wiring fault causing current to leak from the loop.

LOOP FAULT & SHUTDOWN Loop shut down in order to protect loop hardware

Loop wiring fault or faulty device drawing too much current or loop driver hardware is faulty

LOOP O/C FAULT Addressable loop O/C fault Wiring fault on the loop. Note “+/-“sign indicates break on positive/negative section of the loop

LOOP S/C FAULT Addressable loop S/C fault Addressable loop has a short circuit on the loop

LOOP WARNING Quiescent current on the loop is larger than normal (4-8 mA).

The system has adopted a 4 mA loop compensation. Faulty device(s) on the loop or wiring fault causing current to leak from the loop

LOOPS CROSS WIRED Two independent loops have been crosswired

Wiring fault on more than one loop

LOW IDENT Low I.D. current Incorrect device fitted or faulty device

MAINS FAILURE -V 2 to 4 AC Power failure Blown fuse or faulty PSU

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NO RESPONSE Device not responding Faulty device, device address set incorrectly or incorrect config

NOISE MEASUREMENT Excessive noise on the loop Faulty device(s) on the loop or wiring fault causing some ‘noise’ current to leak into the loop.

OUTPUT STUCK Relay or Sounder module failed Faulty Relay module or Sounder module

PRIMARY POWER FAIL 10-11

PSU FAULT Fault in addressable power supply Faulty PSU or incorrect PSU wiring

PSU. WIRING FAULT Power supply wiring O/C Incorrect PSU wiring or faulty PSU

PSU. WIRING FAULT Power supply wiring S/C Incorrect PSU wiring or faulty PSU

RAM FAULT RAM fault RAM read/write fault, RAM chip failure, PCB failure

RAM OVERFLOW RAM fault

RELAY COIL FAULT Fault in Relay Coil Monitored input low in energized/de-energized state

SIGNALLING FAULT Fault input, or HBus monitor Transmitter/line fault, missing polarity/DACT City Box/reverse Interface Board

SOUNDER EOL FAULT EOL is faulty on a Sounder module No EOL, Sounder wiring fault

SOUNDER FAULT Sounder unit connected to Addressable loop faulty

Faulty Sounder or Sounder wiring fault

SOUNDER FAULT O/C Open circuit to a Sounder module Faulty Sounder or Sounder wiring fault

SOUNDER FAULT S/C Short circuit to a Sounder module Faulty Sounder or Sounder wiring fault

SYSTEM FAULT System fault (possibly major) A part of the system is not working. Depends on pseudo point address check table.

UNCONFIG DEVICE Device responding at unconfigured address

Device address set incorrectly or incorrect config

WIRING FAULT O/C Contact Monitor open circuit Incorrect device wiring or faulty device

WIRING FAULT S/C Contact Monitor short circuit Incorrect device wiring or faulty device

XBUS FAILURE Expansion Bus connection from MPIM to zonal display/XIOM faulty

Faulty Expansion Bus cable or MPIM configured incorrectly

TABLE 2. Fault Strings

Message String Definition Possible Causes

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Warning!

In the instance a FIRE event is detected, the response guidelines for your company or facility must be followed.

If a SUPERVISORY or FAULT event is detected, it is important to respond immediately, because the system may be unable to respond to a fire.

For ISOLATE events, normal oper-ating status should be restored as soon as possible, and the system should be carefully monitored in the interim

Accepting Event Does Not Clear FaultAccepting an event only clears the display of that message and allows access to the Main Menu. The event is held in the Event Log until the trouble condition is resolved.

Step 3Initiate Response Procedures

Respond to the event according to your company or facility procedures for fire, supervisory, or trouble conditions.

Take the necessary steps to ensure that the condition is addressed and then resolved.

Step 4Accept the Event

After the event is resolved, it can be “acknowledged.” Acknowledging an event clears the message from the Message Display.

To accept the event:

a. At the Control Panel, enter the pass code using the numeric keypad, then press YES.

0911 [YES]

b. The system prompts:

Do you want to accept events?

[YES]

Each currently detected event will be displayed on the Message Display, in succession, along with a prompt to accept or bypass the event. For example:

COMMS FAULT

Non Addressable Pnt.

RB15 P00 001

accept (Y/N)?

To accept each event:

[YES]

c. After the last event has been accepted, press QUIT to exit.

[QUIT]

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You must fix fault conditions to eliminate events in the Event LogAn event is held in the Event Log until the trouble condition is resolved. Resetting the system only clears the log temporarily. The event will reappear in the log as soon as the trouble condition is sensed again.

Step 5Silence the Panel Buzzer

The panel buzzer continues to signal, regardless of any operator action taken to resolve the trouble condition.

a. Once the trouble condition has been addressed, silence the buzzer by pressing PANEL SILENCE.

[PANEL SILENCE]

The Indicator lights. (Although the LED will not extinguish, the buzzer will reactivate when a new event is detected.)

Step 6Reset the System

a. After addressing the trouble condition, clear the alarm condition from the panel electronics by pressing RESET.

[RESET]

The Indicator lights.

Step 7Recheck the Event Log

If desired, the event log can be viewed for confirmation that a trouble condition has been cleared from the system.

a. At the Control Panel, enter the pass code using the numeric keypad, then press YES.

0911 [YES]

b. The system prompts:

Do you want to view unrestored events?

[YES]

The system displays a list of currently held events. (Use the up/down arrow pushbuttons to cycle through the list of events.)

If an event has been properly cleared, or resolved, the associated message should not appear in the unrestored event log.

If the event remains in the log after following Step 1 - Step 7 of this procedure, recheck the trouble condition and/or consult a qualified Grinnell Repair Technician.

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OperationAccessing Menu Functions

850539-1

Menu Functions include the following:Do you want to accept events? page 12

View unrestored events?page 12

Do you want to view the log? page 12

View System Health Report?page 12

View System Statuses?page 12

Do you want to set the clock? page 13

Do you want to test system?page 13

Configuration Menu? page 14

Do you want to isolate points? page 15

Do you want to view analog values? page 20

Do you want to print data?page 24

Accessing Menu FunctionsThis section describes menu functions and how to access them.

Pass Codes

Many TFX-400 system functions are accessed through the Main Menu interface. The Main Menu consists of four prompts that access specific routines. A “yes” response to any of these prompts accesses a subset of prompts used to execute functions specific to that routine.

The routines available via the Main Menu will vary according to the Pass Code entered. TFX-400 provides for the use of different Pass Codes, each of which allows access to an associated level.

These Pass Codes/access levels are:

• Special (0911)

Available routines include: View System Status, Set Clock, Test System, Print Data.

• Customer Manager (850463)

Available routines include: View System Status, Set Clock, Test System, Print Data, View Log, Isolate Points, De-Isolate Points.

Fast Access Codes

Each prompt, or routine, available at the Main Menu can also be accessed directly (without cycling through the Main Menu prompts) by entering a Fast Access Code at the Numeric Keypad. Refer to the Fast Access Code diagram below:

3-9


To enter a Fast Access Code:

a. At the Control Panel, enter the Pass Code using the numeric keypad, then press YES.

0911 [YES]

b. At the Main Menu level, enter:

<Fast Access Code> [YES]

Fast Access Codes for each Main Menu function, as well as its subfunctions, are listed in Table 3

.

TABLE 3. Access Codes and Menu Prompts

Access Code Menu Prompt

0001 Do you want to accept events?

0009 View unrestored events

0010 Do you want to view the log?

0011 Oldest event first?

0012 Newest event first?

0013 Highest priority event first?

0016 View System Health Report?

0020 Do you want to set the clock

0021 Do you want to set the time?

0022 Do you want to set the date?

0030 Do you want to test system?

0031 View system A1 Cycle count?

0032 Reset system A1 Cycle count?

0033 View system S/W Init count?

0034 Reset system S/W Init count?

0035 Do you want to solo test zone?

0036 Solo test sounders?

0037 Reset point threshold comp’n?

0039 View system issue nos?

0040 Do you want to isolate points?

0041 Isolate zone? (sensors only)

0042 Isolate zone? (sounders only)

0043 Isolate point? (adr. loop only)

0044 Engineer isolate

0045 Isolate signalling?

0050 Do you want to de-isolate points?

0051 De-isolate zone? (sensors only)

0052 De-isolate zone? (sounders only)

0053 De-isolate pnt (adr. loop only)

0054 Engineer de-isolate?

0055 Signalling de-isolate?

0060 View statuses?

0063 View loop point counters?

0064 Do you want to view point or loop data?

0065 View point obscuration?

0080 Do you want to print data?

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0081 Print point analogue values?

0082 Print points isolated?

0083 Print points untested/failed?

0084 Print points out of compensation?

0085 Print event log backtrack?

0086 Print points failed?

0087 Print Verifying Counts

0088 Print ID Test Result?

0089 Print point obscuration data?

0090 Do you want to force outputs?

0091 Force point on?

0092 Force point off?

0093 Unforce point?

0095 Do you want to set sensitivity?

0096 Point sensitivity?

0097 Zone sensitivity?

0100 View System Statuses?

0101 View system zones alarm St?

0102 View system zone trouble St.?

0103 View system isol. St?

0104 View system common alarm St?

0105 View system common trouble St.?

0106 View system command disa. St.?

0110 Configuration menu

0111 Auto configure point(s)?

0112 Manually configure point(s)?

1030 Do you want to solo test multi-input point?

1200 Do you want to Commission system?

1201 Enable Fast Fault Mode?

1201 Disable Fast Fault Mode?

1202 Disable Fast Open Circuit scanning?

1202 Enable Fast Open Circuit scanning?

1203 Enable rate of rise processing?

1203 Disable rate of Rise processing

1204 Shutdown Loop?

1205 Restart Loop?

1206 Single address Loop poll

TABLE 3. Access Codes and Menu Prompts

Access Code Menu Prompt

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Do you want to accept events?

1. Accepting events involves acknowledging the display of an event detected by the system, thereby entering the event into the Event Log.

2. Refer to Step 4 of “Event Monitoring,” in this Section.

View unrestored events?

1. Entering YES to this prompt allows for the display of all events (i.e., alarm, fault, and supervisory) that have not been restored or “resolved.”

2. Refer to Step 4 of “Event Monitoring,” in this Section.

Do you want to view the log?

1. Entering “Y” to this prompt allows the user to cycle through the current list of all events held in the queue. A series of three additional prompts appear, that allow the user to set the order in which the events will be viewed. They are:

• Oldest Event First (Fast Access Code 0011)

• Newest Event First (Fast Access Code 0012)

• Highest Priority First (Fast Access Code 0013)

2. Once the order has been selected, use the up and down arrows to scroll forward or backward through the listing.

When the end of the list is reached, an “End of Log!” message is displayed, and the internal buzzer beeps twice.

3. To exit the function:

[QUIT]

View System Health Report?

1. Entering “Y” to this prompt causes all outstanding faults present in the system to be displayed in the same chronological order in which they were logged.

2. Use the up and down arrows to scroll through the display. (If there are no outstanding faults present, the message “Health Report/No Faults” will be displayed.)

When the end of the Health Report is reached, an “End of Log!” message is displayed, and the internal buzzer beeps twice.

To exit the function:

• [QUIT]

View System Statuses?

1. Entering YES to this prompt allows for the display of all system status conditions. The following prompts appear, allowing the user to select a specific type of status for viewing:

• Zone Alarm Status (Fast Access Code 0101)

• Zone Trouble Status (Fast Access Code 0102)

• Zone Isolation Status (Fast Access Code 0103)

• Common Alarm Status (Fast Access Code 0104)

• Common Trouble Status (Fast Access Code 0105)

• Common Disabled Status (Fast Access Code 0106)

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2. When viewing is complete, type QUIT to exit this function:

[QUIT]

Do you want to set the clock?

This function allows the user to set the time and date displayed on the system, and used as a time/date stamp for any system output.

Refer to “System Start-Up”. Setting either time or date can be accessed individually using the following fast access codes:

• Set Date (0022)

• Set Time (0021)

Do you want to test system?

This function accesses nine routines for obtaining test data for TFX-400. Specifically, these routines are:

• View system A1 Cycle count (0031)

• Reset system A1 Cycle count (0032)

The “View system A1 Cycle count” function displays the number of alarm/reset sequences that have occurred since the last time the Control Panel was powered up (counted from 1). For example:

System test 01A1.Cycle no 0001

The “Reset system A1 Cycle count” function resets this number to 1. Remember, a “cold” restart (from a completely powered down state) will automatically reset the counter to zero.

1. Select the rest function, and the system displays:

Are you sure?

2. Enter “YES” and the display indicates:

System reset

A1.Cycle count

S/W Init count (0031)

Reset system S/W Init count (0032)

The “S/W Init count” function displays the number of software initialization (operating program restarts) that have occurred since the last power-up (counted from zero). For example:

System test 01

A1.Cycle no 0001

The “Reset system S/W Init count” function resets this number to zero.

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3. Select the reset function, and the system displays:

Are you sure?

4. Enter “YES” and the display indicates:

System reset

A1.Cycle count

The following three subfunctions appear in sequence within the test function. They are used to check system devices for proper operation, without raising a full alarm.

Do you want to solo test zone? (0035)

Do you want to solo test multi-input point? (1030)

Solo test sounders? (0036)

Each of these subfunctions is described in Getting Started.

Configuration Menu?

The Configuration Menu functions provide for routines that collect and store information (for example, device type and group characteristics), regarding each device wired to the TFX-400 Control Panel.

Either of two methods are available for the configuration of devices, as indicated by the following two subfunctions:

• Auto configure point(s)?

• Manually configure point(s)?

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The process of Auto-configuration is described in Getting Started. The process of manually configuring the system is detailed in the CONSYS Programming Manual, publication 850463.

Do you want to isolate points?

This menu selection allows for devices to be isolated so they do not respond to an alarm. Zones and points may be temporarily isolated (taken out of service) for many reasons-device repair, circuit repair, etc. Only Customer Manager access levels and above may access these menu options. These functions include:

Isolate zone? sensors only (0041)

Isolate zone? sounders only (0042)

Isolate point? adr. loop only (0043)

Engineer isolate? (0044)

Isolate signalling? (0045)

Isolate zone? (sensors only)

This routine allows the user to isolate all sensors (detectors) in a selected zone. To do so:

1. Access this function by cycling through the isolate point choices from the Main Menu, or enter Fast Access Code 0041. The display will show:

Zone no.:

(0=none, Easily)

A flashing cursor indicates that an operator input is required.

2. Enter the number of the zone to be isolated, and press ENTER.

<zone no.> ENTER

The display will pause briefly and then display the message “isolate successful.”

The ZONE FAULT yellow LED will light and the internal buzzer will sound intermittently. (If a nonexistent zone or a zone that is already isolated is entered, an appropriate error message is displayed, and the associated Zone Fault LED and buzzer will continue to operate as a warning that the zone is isolated.)

The display then returns to the “Isolate zone (sensor only)” display, allowing another zone to be isolated.

If a printer is connected and on-line, each zone that has been isolated will be logged in the following format (zone 1 is used in this example):

POINT ISOLATED 3rd Floor 12:15:00 23 Jan. 98

• Non Addressable Pnt. Zone 1 All 001

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Isolate zone? (sounders only)

This routine allows ALL the sounders (indicating appliances) in a specified zone(s) to be isolated. To do so:

1. Access this function by cycling through the isolate point choices from the Main Menu, or enter Fast Access Code 0042. The display will show:

Zone no.:

(0=none, Yes=all)


2. Enter the zone number, then press ENTER.

<zone no.> ENTER

The display will pause briefly and display the message “isolate successful.”

The ZONE FAULT yellow LED will light and the internal buzzer will beep. (If a nonexistent zone or a zone that is already isolated is entered, an appropriate error message is displayed, and the associated Zone Fault LED and buzzer will continue to operate as a warning that the zone is isolated.)

The display then returns to the “Isolate zone (sounders only)” display, allowing another zone to be isolated.

If a printer is connected and on-line, each zone that has been isolated will be logged in the following format (zone 1 is used in this example). The display then returns to the “Isolate zone (sensor only)” display, allowing another zone to be isolated.


Non Addressable Pnt. Zone 1 All 001

Isolate point (adr. loop only)

This routine allows Individual devices to be isolated using their addresses. To do so:

1. Access this routine by cycling through the isolate point choices from the Main menu, or enter Fast Access Code 0043. The display will show:

Loop: A

(Y/N)?

Select the loop associated with the point(s) to be isolated. Pressing YES in response to this prompt selects Loop A by default. If Loop A is not desired, use the arrow keys to cycle through the remaining choices of: B, ALL.

2. Press ENTER when the desired value is displayed.

<A, B, or ALL> ENTER

Once you have chosen the desired loop, the display will respond with the following message:

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Caution!

This routine allows ANY device, switch, or indicator to be isolated. Use extreme caution! The TFX-400 Control Panel may be made unable to indicate or respond to a Fire, Alarm, Trouble, or Supervisory condition.

Point no.:

(0=none, Yes=all)

Enter the address of the device (point) to be isolated and press ENTER.

<point no.> ENTER

The display will pause briefly and then display the message “isolate successful.”

The TROUBLE yellow LED will light and the internal buzzer will beep. (If a nonexistent device or a device that is already isolated is entered, an appropriate error message is displayed, and the associated Zone Fault LED and buzzer will continue to operate as a warning that the device is isolated.)

The display then returns to the “Isolate point” display, allowing another zone to be isolated.

If a printer is connected and on-line, each point that has been isolated will be logged in the following format (point A16 in zone 1 is used in this example):


Non Addressable Pnt. Zone 1 A 16 001

Engineer Isolate

When this routine is selected, any point (or combination of points) in the system may be isolated. This routine is available only for access levels of Engineer or higher.

This function is very versatile. Only two examples are presented here.

See the Appendices for Group code numbers, Device type codes, and Channel codes.

Example 1 - Isolate Front Panel Buzzer

1. Select the “engineer isolate” routine by cycling through the functions available from Main Menu, or enter Fast Access Code 0044. The display will show:

<Device/Group/Zone/Addr. Pnt.>:

(0=none, Yes=all)

• This menu selection allows for devices to be De-isolated so they respond to alarms. These functions include:

• De-isolate zone? sensors only (0051)

• De-isolate zone? sounders only (0052)

• De-isolate point? adr. loop only (0053)

• Engineer De-isolate? (0054)

• Signalling De-isolate? (0055)

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De-isolate zone? (sensors only)

This routine allows the user to De-isolate all sensors (detectors) in a selected zone. To do so:

1. Access this function by cycling through the De-isolate point choices from the Main Menu, or enter Fast Access Code 0051. The display will show:

Zone no.:

(0=none, Yes=all)


2. Enter the number of the zone to be de-isolated, and press ENTER.

<zone no.> ENTER

The display will pause briefly and then display the message “de-isolate successful.”

The ZONE FAULT yellow LED will extinguish and the internal buzzer will stop sounding. (If a nonexistent zone or a zone that is already de-isolated is entered, an appropriate error message is displayed.)

The display then returns to the “De-isolate zone (sensor only)” display, allowing another zone to be de-isolated.

If a printer is connected and on-line, each zone that has been enabled will be logged in the following format (zone 1 is used in this example):

POINT ENABLED 3rd Floor 12:15:00 23 Jan. 98


Desolate zone? (sounders only)

This routine allows ALL the sounders (indicating appliances) in a specified zone(s) to be de-isolated. To do so:

1. Access this function by cycling through the de-isolate point choices from the Main Menu, or enter Fast Access Code 0052. The display will show:

Zone no.:

(0=none, Yes=all)


2. Enter the zone number, then press ENTER.

<zone no.> ENTER

The display will pause briefly and display the message “de-isolate successful.” The ZONE FAULT yellow LED will extinguish and the internal buzzer will stop sounding. (If a nonexistent zone or a zone that is already de-isolated is entered, an appropriate error message is displayed.)

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The display then returns to the “De-isolate zone (sounders only)” display, allowing another zone to be de-isolated.

If a printer is connected and on-line, each zone that has been enabled will be logged in the following format (zone 1 is used in this example):

POINT ENABLED 3rd Floor 12:15:00 23 Jan. 98


De-isolate point (addr. loop only)

This routine allows individual devices to be de-isolated using their addresses. To do so:

1. Access this routine by cycling thought the de-isolate point choices from the Main menu, or enter Fast Access Code 0053. The display will show:

Loop: A

(Y/N)?

Select the loop associated with the point(s) to be de-isolated.

2. Pressing YES in response to this prompt selects Loop A by default. If Loop A is not desired, use the arrow keys to cycle through the remaining choices of: B, ALL.




Point no.:

(0=none, Yes=all)

Enter the address of the device (point) to be de-isolated and press ENTER.

<point no.> ENTER

The display will pause briefly and then display the message “de-isolate successful.” The TROUBLE yellow LED will extinguish and the internal buzzer will stop sounding. (If a nonexistent device or a device that is already de-isolated is entered, an appropriate error message is displayed.)

The display then returns to the “De-isolate point” display, allowing another zone to be de-isolated.

If a printer is connected and on-line, each point that has been de-isolated will be logged in the following format (point A16 in zone 1 is used in this example):


Non Addressable Pnt. Zone 1 A 16 001

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Caution!

This routine allows ANY device, switch, or indicator to be iso-lated. Use extreme caution! The TFX-400 Control Panel may be made unable to indicate or respond to a Fire, Alarm, Trou-

Engineer De-isolate

When this routine is selected, any point (or combination of points) in the system may be de-isolated. This routine is available only for access levels of Engineer or higher. This function is very versatile. Only two examples are presented here. See the Appendices for Group code numbers, Device type codes, and Channel codes.

Example 1 - De-isolate Front Panel Buzzer

1. Select the “engineer de-isolate” routine by cycling through the functions available from Main Menu, or enter Fast Access Code 0044. The display will show:

<Device/Group/Zone/Addr. Pnt.>:

(0=none, Yes=all)

Do you want to view analog values?

A group of functions at the Main Menu allow for the viewing of data that describes the condition of a selected device or loop. These functions include:

• • Do you want to view analog values? (0060)

• • View statuses? (0061)

• • View loop analog values? (0062)

• • View loop point counters? (0063)

• • View point obscuration? (0065)

This function provides information regarding the analog values of a device’s condition, identity, and long-term average currents.

1. To obtain this information, select the “Do you want to view point or loop data?” function from the Main Menu, or enter Fast Access Code 0060. The following message will be displayed:

Loop: A

(Y/N)?

2. Select the loop that contains the device of interest. Pressing YES in response to this prompt selects Loop A by default. If Loop A is not desired, use the arrow keys to cycle through the remaining choice of B. Press ENTER when the desired value is displayed.

<A or B> ENTER

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Point no.:

(Quit to Exit)

Enter the address of the device (point) to view and press ENTER.

<point no.> ENTER

The display will prompt you to enter your choice (YES, NO, UP arrow or DOWN arrow). Press YES to view the data for the address shown.

The display will pause briefly and then show the following message:

Point no.: an

Con. Id. LT.Av

8.2 11.4 7.1mA

“Con.” is the Condition, “Id.” is the Condition Current (available for Addressable smoke and heat detectors only) and “LT.Av” is the long term average of the Ident.value. The valid condition and identity current ranges are summarized in the Appendices.

View Point Statuses

This menu option allows you to see the current and confirmed status of an addressable point. It shows the state of a detector from the TFX-400 Control Panel’s “point of view” when threshold compensation has been enabled.

1. To obtain this information, select the “View point Statuses?” function from the Main Menu, or enter Fast Access Code 0061. The following message is displayed:

Loop: A

(Y/N)?

2. Select the loop associated with the point to be displayed. Pressing YES in response to this prompt selects Loop A by default. If Loop A is not desired, use the arrow keys to cycle through the remaining choices of: B, ALL. Press ENTER when the desired value is displayed.



Point no.:

(0=none, Yes=all)

3. Enter the address of the device (point) to be isolated and press ENTER.

<point no.> ENTER

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The display will pause briefly and then show the following message:

point no.:B1

nest. Cnfm.Status

Norm Norm

“Inst” status is the condition of the point at the time of viewing, the “Cnfm” status is the confirmed condition of the point. Both are “Normal” in this example.

View Loop Analog Values

When selected this menu option allows the quiescent (standby) and compensation current (if any) for a particular loop to be viewed.

1. To view this information, select the “View Loop Analog Values” function from the Main Menu or enter Fast Access Code 0062. The following message is displayed:

Loop: A

(Y/N)?

2. Select the desired loop. Pressing YES in response to this prompt selects Loop A by default. If Loop A is not desired, use the arrow keys to cycle through the remaining choices of: B, ALL.



When the correct loop has been chosen, the display will show (for example):

Loop : A

QuiescCompn

0.5 0mA

“Quiesc” is the quiescent value on the loop and “Compn” is the value of any compensation current being applied.

View Loop Point Counters

This menu option allows the number of points on each of the loops to be viewed. It shows the number of points that are configured and “answering.”

1. To obtain this information, select the “View Loop Point Counters” function from the Main Menu or enter Fast Access Code 0063. The display will show:

Loop: A

(Y/N)?

2. Select the loop associated with the points to be displayed. Pressing YES in response to this prompt selects Loop A by default. If Loop A is not desired, use the arrow keys to cycle through the remaining choices of: B, ALL. Press ENTER when the desired value is displayed.


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When the correct loop has been chosen, the display will show (for example:

Loop: B

Config Reply Pts.

:Config.” is the number of configured points and “Reply” is the number of points responding. In this example, there are 50 points on the loop. Use the arrow keys to view the next display. For example:

Loop:

L+ R+ L- R-

2030 50 50

In this example, only 20 devices answer on the L+ wire, only 30 answer on the R+ wire and all devices answer on the -VE wires. This indicates a break in the +VE wire between the 20th and 21st device along the left side of the loop. If there had been a break in both wires, the display would have shown:

Loop:

L+ R+ L- R-

2030 20 30

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Do you want to print data?

The “Do you want to print data?” function (Fast Access Code 0080) accesses the routines that provide for print outs of various system parameters. These routines include:

• Print point analogue values? (0081)

• Print points isolated? (0082)

• Print points untested/failed? (0083)

• Print points out of compensation? (0084)

• Print event log backtrack? (0085)

• Print points forced? (0086)

• Print Verifying Counts? (0087)

• Print ID Test Result? (0088)

• Print point obscuration data? (0089)

Print point analogue values

This menu option provides a printed copy of parameters for selected addressable points in the system.

The printout will show

• device address

• device type

• current condition, ID current, average current (in milliamperes

• instantaneous and confirmed point status-normal/alarm/fault

• result of last walk test---pass/fail/not tested

• isolate status

• out of compensation.

1. To obtain the printout, select the “Print point analog values” routine from the Print Menu, or enter Fast Access Code 0081. The following message will be displayed:

Loop: A

(Y/N)?

2. Pressing YES in response to this prompt selects Loop A by default. If Loop A is not desired, use the arrow keys to cycle through the remaining choices of: B, ALL. Press ENTER when the desired value is displayed.


When the correct loop has been chosen, the display will show.

Print Points Isolated

This print option makes a hard copy of all the addressable points that have been isolated.

Select “Print points isolated” form the Print Data Menu or enter Fast Access Code 0082. The message “print initiated” is displayed. The printout generated is similar to that for “Print Point Analog Values,” except that the “Test R,” “Isol,” and “O’O Comp” columns will be omitted.

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Print Walk Test Points Not Tested/Failed

A printout may be obtained, consisting of all points missed during a walk test, or which failed to respond correctly.

1. To obtain this printout, select the “Print points untested/failed” option from the Print Data menu, or enter Fast Access Code 0083. The following message is displayed:

Zone no.:

(0=none, Yes=all)


2. Enter the number of the required zone, and press ENTER.

<zone no.> ENTER

The message “Print Initiated” is displayed. The printer will produce a list of all points for which no response was detected during the previous walk test of the selected zone(s), or were found to be faulty, together with any available parameters.

The first three entries will be produced when

• the walk test is initiated

• when each point is tested

• when the walk test is concluded

These entries will therefore already be on the printer before the print option is selected. The entries in the summary table contain the following parameters:

Print points out of compensation

Print Event Log Backtrack

Print points out of compensation

This menu option provides a printed copy of all the addressable points that are out of compensation. To obtain this printout, select the “Print points out of compensation” menu option from the Print Data Menu, or enter Fast Access Code 0084. The message “Print Initiated” is displayed. The printout will show all the addressable points out of compensation. The format will be similar to that shown for “Print Point Analog Values,” except that the “Test R,” “Isol,” and “O’O Comp” columns will be omitted.

850539-13-25


Print Event Log Backtrack

This menu option provides for a printout of all (or part) of the Event Log.

1. To obtain this printout, select the “Print Event Log Backtrack” option from the Print Data menu, or enter Fast Access Code 0085. The following message is displayed:

Event Type?

All

2. Specify the type of events to be included in the printout. Use the arrow keys to toggle through all choices: All, Alarm, Fault, Trouble, Supervisory. Press ENTER when the desired event type is displayed.

<event type> ENTER

The next message displayed is:

Enter No. events:

3. Enter the number of events required for printing (for example, 20), and press ENTER. The message “Print Initiated” is displayed. The number of most recent events in the log will be printed, as specified (in this example 20 of any event type).

• For addressable points, the information logged is as follows: event message, location, time and date, point description, zone number, loop number, point number.

• For non-addressable points, the information logged is as follows: event message, zone number, time and date, location, point type/number.

• The MAXIMUM number of events that the log can hold is 150. Asking for more than this number will cause the TFX-400 Control Panel to display the message “innovatory again.”

The printout will contain only events appropriate to the access level of the user.

If there are fewer events in the log than the number requested, the TFX-400 Control Panel will print the entire log. Events followed by the letter “R” have been recycled following an event log overflow.

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Chapter 4•Operator Maintenance

Test SystemThe system should be periodically tested according to instructions given by the authority having jurisdiction and by applicable NFPA and local codes.

In order to comply with the requirements of local and national fire codes, the installation must be checked on a regular basis, by responsible personnel, to confirm that the TFX-400 Control Panel and all ancillary devices, are operating correctly. Routine checks are described in the following paragraphs.

Checking the system involves performing the following Operator Maintenance functions:

• Daily Checks

• Periodic System Checks

850539-14-1

Operator MaintenanceDaily Checks

Caution!

Warn all personnel that the indicating appliances are about to be tested, prior to initiating the Solo Test.

Daily ChecksPerform the following Daily Checks to insure system compliance and operation:

1. Make sure that the Front Panel of TFX-400 is indicating a normal condition (i.e., no ALARM or TROUBLE LEDs are illuminated, and the Message Display indicates the correct date and time).

If the panel is not indicating a normal condition, record the condition in the log book, and take any necessary action.

2. Check that any fault recorded on the previous day has received attention.

Periodic System ChecksThe system can be configured to display a warning message accompanied by an audible alert, when the system test is due. This feature must be configured by an authorized and trained technician.

1. Remove the key from the keyswitch and clean the Front Panel of TFX-400 with a suitable cleaner.

2. Using the Solo Test function (refer to Section 3), check the operation of at least one zone. (For example, if the system consists of more than 13 zones, then more than one zone should be tested to ensure that each zone is checked at least once every 13 weeks.)

3. Set one device (either a pull station or a detector from one zone into alarm, and check that the system responds as described in the Solo Test procedure.

4. Check the condition of the printout on any printers attached to the system, and replace the ribbon if the printout is becoming faint.

5. Make sure that the printer has an adequate supply of paper.

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Appendix EAuto-configure Worksheets

850539-1E-1



CMAlarm

CMFlow

CMSuper. DM RM

SDASilenceable

SDANon-silenceable

912H135 F

912H200 F 912I

912HP Amp96 Device

0 00000001 10000002 01000003 11000004 00100005 10100006 01100007 11100008 00010009 100100010 010100011 110100012 001100013 101100014 011100015 111100016 000010017 100010018 010010019 110010020 001010021 101010022 011010023 111010024 000110025 100110026 010110027 110110028 001110029 101110030 011110031 111110032 000001033 100001034 010001035 110001036 001001037 101001038 011001039 111001040 000101041 100101042 010101043 110101044 001101045 101101046 011101047 1111010

Zon

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Loop

AAUTOCALL TFX-400 WORK SHEET FOR AUTO-CONFIGURATION

Worksheet Rules• Each address can be used only once per loop• Shaded areas are invalid addresses for the device type• Place checkmark in the block under the device type used at

the address• Write device used in Device column


96 Device



CMAlarm

CMFlow

CMSuper. DM RM

SDASilenceable

SDANon-silenceable

912H135 F

912H200 F 912I

912HP Amp

48 000011049 100011050 010011051 110011052 001011053 101011054 011011055 111011056 000111057 100111058 010111059 110111060 001111061 101111062 011111063 111111064 000000165 100000166 010000167 110000168 001000169 101000170 011000171 111000172 000100173 100100174 010100175 110100176 001100177 101100178 011100179 111100180 000010181 100010182 010010183 110010184 001010185 101010186 011010187 111010188 000110189 100110190 010110191 110110192 001110193 101110194 011110195 1111101

Zon

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A

AUTOCALL TFX-400 WORK SHEET FOR AUTO-CONFIGURATION

Zon

e 5

Loop

AZ

one

6 Lo

op A



850539-1

E-2




CMAlarm

CMFlow

CMSuper. DM RM

SDASilenceable

SDANon-silenceable

912H135 F

912H200 F 912I

912HP Amp96 Device

96 000001197 100001198 010001199 1100011

100 0010011101 1010011102 0110011103 1110011104 0001011105 1001011106 0101011107 1101011108 0011011109 1011011110 0111011111 1111011112 0000111113 1000111114 0100111115 1100111116 0010111117 1010111118 0110111119 1110111120 0001111121 1001111122 0101111123 1101111124 0011111125 1011111126 0111111127 11111110 00000001 10000002 01000003 11000004 00100005 10100006 01100007 11100008 00010009 100100010 010100011 110100012 001100013 101100014 011100015 1111000

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AUTOCALL TFX-400 WORK SHEET FOR AUTO-CONFIGURATIONZ

one

7 Lo

op A

Zon

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Loo

p B



850539-1E-3


912H200 F 912I

912HP Amp96 Device

N

ed at



CMAlarm

CMFlow

CMSuper. DM RM

SDASilenceable

SDANon-silenceable

912H135 F

16 000010017 100010018 010010019 110010020 001010021 101010022 011010023 111010024 000110025 100110026 010110027 110110028 001110029 101110030 011110031 111110032 000001033 100001034 010001035 110001036 001001037 101001038 011001039 111001040 000101041 100101042 010101043 110101044 001101045 101101046 011101047 111101048 000011049 100011050 010011051 110011052 001011053 101011054 011011055 111011056 000111057 100111058 010111059 110111060 001111061 101111062 011111063 1111110

AUTOCALL TFX-400 WORK SHEET FOR AUTO-CONFIGURATIO

Zon

e 10

Loo

p B

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p B

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Worksheet Rules• Each address can be used only once per loop• Shaded areas are invalid addresses for the device type• Place checkmark in the block under the device type us


850539-1

E-4


12H35 F

912H200 F 912I

912HP Amp96 Device

RATION

pe used at



CMAlarm

CMFlow

CMSuper. DM RM

SDASilenceable

SDANon-silenceable

91

64 000000165 100000166 010000167 110000168 001000169 101000170 011000171 111000172 000100173 100100174 010100175 110100176 001100177 101100178 011100179 111100180 000010181 100010182 010010183 110010184 001010185 101010186 011010187 111010188 000110189 100110190 010110191 110110192 001110193 101110194 011110195 111110196 000001197 100001198 010001199 1100011

100 0010011101 1010011102 0110011103 1110011104 0001011105 1001011106 0101011107 1101011108 0011011109 1011011110 0111011111 1111011

AUTOCALL TFX-400 WORK SHEET FOR AUTO-CONFIGUZ

one

13 L

oop

BZ

one

14 L

oop

BZ

one

15 L

oop

B

Worksheet Rules• Each address can be used only once per loop• Shaded areas are invalid addresses for the device ty• Place checkmark in the block under the device type


850539-1E-5


912H200 F 912I

912HP Amp96 Device

ON



CMAlarm

CMFlow

CMSuper. DM RM

SDASilenceable

SDANon-silenceable

912H135 F

112 0000111113 1000111114 0100111115 1100111116 0010111117 1010111118 0110111119 1110111120 0001111121 1001111122 0101111123 1101111124 0011111125 1011111126 0111111127 1111111

AUTOCALL TFX-400 WORK SHEET FOR AUTO-CONFIGURATI

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850539-1

E-6

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