Simplex 4010 Installing And Operating Insructions

574-052

Rev. F

Technical Manuals Online! - http://www.tech-man.com

4010 Fire Alarm

Front Panel Installing, Operating, and

Programming Instructions

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Copyright and Trademarks

Cautions and Warnings

Copyright

 Simplex Time Recorder Co., 2000. All rights reserved.

Printed in the United States of America.

Information in this document is subject to change without notice. No part of this document may be reproduced or transmitted in any form or by any means, electronic or mechanical, for any purpose, without the express written consent of

Simplex Time Recorder Company.

Walk Test

 is protected by US Patent No. 4,725,818.

MAPNET addressable communications is protected by US Patent No.4,796,025.

IDNet

 is patent pending.

TrueAlarm

 Analog Detection is protected by US Patent No. 5,155,468.

TrueAlarm

 Detector Base is protected by US Patent No. 5,173, 683.

SYSTEM REACCEPTANCE TEST AFTER SOFTWARE CHANGES - To ensure proper system operation, this product must be tested in accordance with

NFPA72-1996, Chapter 7 after any programming operation or change in sitespecific software. Reacceptance testing is required after any change, addition or deletion of system components, or after any modification, repair or adjustment to system hardware or wiring.

All components, circuits, system operations, or software functions known to be affected by a change must be 100% tested. In addition, to ensure that other operations are not inadvertently affected, at least 10% of initiating devices that are not directly affected by the change, up to a maximum of 50 devices, must also be tested and proper system operation verified.

READ AND SAVE THESE INSTRUCTIONS. Follow the instructions in the installation, operating and programming manuals. These instructions must be followed to avoid damage to the control panel and associated equipment. Fire

Alarm Control Panel (FACP) operation and reliability depend upon proper installation.

DO NOT INSTALL ANY SIMPLEX PRODUCT THAT APPEARS

DAMAGED. Upon unpacking your Simplex product, inspect the contents of the carton for shipping damage. If damage is apparent, immediately file a claim with the carrier and notify Simplex.

ELECTRICAL HAZARD - Disconnect electrical power when making any internal adjustments or repairs. Servicing should be performed by qualified

Simplex Representatives.

RADIO FREQUENCY ENERGY - This equipment generates, uses, and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual, may cause interference to radio communications. It has been tested and found to comply with the limits for a Class A computing device pursuant to Subpart J of Part 15 of FCC Rules, which are designed to provide reasonable protection against such interference when operated in a commercial environment. 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.


i

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ii

Codes and Standards

The 4010 is listed for the following listing categories.

UL 864 Listings for Type of System:

• UL 864 Power-Limited Fire Alarm Control Unit

• Local (formerly NFPA 72A)

Requires the sounding of an alarm via listed notification appliance(s)

• Auxiliary (formerly NFPA 72B)

Requires 4010-9809 City Circuit Module

• Remote Station - protected premise (formerly NFPA 72C)

Requires 4010-9809 City Circuit Module or the 4010-9810 or -9816 DACT

• Proprietary - protected premise (formerly NFPA 72D)

Requires 4010-9817 (with 4010-9818 or 4010-9819) or 4010-9821 Network

Interface Modules

• Central Station - protected premise (formerly NFPA 71)

Requires 4010-9810 or -9816 DACT

• Suppression Releasing Service

Requires 4010-9814 Suppression Kit

UL 864 Listings for Type of Service:

• Automatic, Manual, Waterflow, and Sprinkler Supervisory

UL 864 Listings for Type of Signaling:

• Coded, Non-Coded, March-Time and DACT

Requires the 4010-9810 or -9816 DACT

Factory Mutual Approved:

• Same as UL above

Local Approvals:

• CSFM*

• MEA

• City of Chicago (pending)

*This product has been approved by the California State Fire Marshal (CSFM) pursuant to Section 13144.1 of the California Health and Safety Code. See CSFM Listing No. 7170-0026:226 for allowable values and/or conditions for use concerning material presented in this document. iii


Codes and Standards

(continued)

About this Manual

The installer should be familiar with the relevant codes listed below as well as any other applicable local codes and standards, when installing a fire alarm system.

• NFPA 72

National Fire Alarm Code

• NFPA 11

Standard for Low-Expansion Foam and Combined Agent

Systems

• NFPA 11A Standard for Medium- and High-Expansion Foam Systems

• NFPA 12

Standard on Carbon Dioxide Extinguishing Systems

• NFPA 12A Standard on Halon 1301 Fire Extinguishing Systems

• NFPA 13

Standard for the Installation of Sprinkler Systems

• NFPA 14

Standard for the Installation of Standpipe and Hose Systems

• NFPA 15

Standard for Water Spray Fixed Systems for Fire Protection

• NFPA 16

Standard for the Installation of Deluge Foam-Water Sprinkler and Foam-Water Spray Systems

• NFPA 16A Standard for the Installation of Closed-Head Foam-Water

• NFPA 17

Standard for Dry Chemical Extinguishing Systems

• NFPA 17A Standard for Wet Chemical Extinguishing Systems

• NFPA 25

Standard for Inspection, Testing, and Maintenance of

Water-Based Fire Protection Systems

• NFPA 70

National Electrical Code

• NFPA 80

Standard for Fire Doors and Fire Windows

• NFPA 90A Standard for the Installation of Air Conditioning and

• NFPA 90B Standard for the Installation of Warm Air Heating and Air

• NFPA 92A Recommended Practice for Smoke-Control Systems

• NFPA 92B Guide for Smoke Management Systems in Malls, Atria, and

• NFPA 101 Life Safety Code

• NFPA 170 Standard for Fire Safety Symbols

• NFPA 231C Standard for Rack Storage of Materials

• NFPA 1221 Standard on the Installation, Maintenance, and Use of Public

The following conventions are used in this publication to identify special names or text.

• When a membrane panel key (located below the display) is referenced in this manual, it is normally shown between left and right arrows. Examples are <ALARM SILENCE> and <SYSTEM RESET>.

• Text enclosed in quotation marks indicates the title of a chapter or section of the manual, such as "About this Manual."

• Bulleted lists, such as this one, provide you with information. They are also used to indicate alternatives in numbered procedural steps.

• Numbered lists indicate procedures with steps that you must carry out sequentially.


iv

Table of Contents

Chapter 1. 4010 FACP Overview

Introduction............................................................................................... 1-1

In this Chapter........................................................................................... 1-1

Related Documentation................................................................................. 1-2

Base System Module..................................................................................... 1-3

Overview................................................................................................... 1-3

SFI/O......................................................................................................... 1-3

Power Supply – Base System.................................................................... 1-4

Default Settings......................................................................................... 1-4

Environmental Specifications ................................................................... 1-4

Optional System Modules ............................................................................. 1-5

Overview................................................................................................... 1-5

Optional Modules with Dedicated Hardware Slots ................................... 1-5

Optional Modules for Expansion Slots ..................................................... 1-6

Remote Optional Modules ........................................................................ 1-7

Other Compatible Equipment.................................................................... 1-8

User Interface................................................................................................ 1-9

Overview................................................................................................... 1-9

Operator Key Definitions.......................................................................... 1-9

Menu Navigation Key Definitions .......................................................... 1-10

Passcodes, Access Levels, and Logging In and Out.................................... 1-12

Overview................................................................................................. 1-12

Passcodes and Access Levels.................................................................. 1-12

Logging In and Out ................................................................................. 1-13

Menu Structure............................................................................................ 1-14

Chapter 2. Back Box Installation

Overview................................................................................................... 2-1

In this Chapter........................................................................................... 2-1

Before You Begin ......................................................................................... 2-2

Unpacking the System............................................................................... 2-2

Installation Guidelines .............................................................................. 2-2

Standards and Codes ................................................................................. 2-2

Remove Chassis and Cut Conduit Openings ................................................. 2-3

Overview................................................................................................... 2-3

Step 1. Remove the Chassis ..................................................................... 2-3

Step 2. Cut Conduit Entrances ................................................................. 2-3

Mount the Backbox....................................................................................... 2-4

Surface Mounting the Back Box ............................................................... 2-4

Semi-Flush Mounting the Back Box ......................................................... 2-4

Re-install the Chassis .................................................................................... 2-5

Procedure .................................................................................................. 2-5


v

Chapter 3. Wiring

Overview................................................................................................... 3-1

In this Chapter........................................................................................... 3-1

Overview....................................................................................................... 3-2

Power Limited Versus Non-Power Limited Systems ................................ 3-2

Locations of Terminal Connections .......................................................... 3-3

NAC Wiring.................................................................................................. 3-4

Overview................................................................................................... 3-4

Terminal Connections ............................................................................... 3-4

IDNet Wiring ................................................................................................ 3-5

Overview................................................................................................... 3-5

Terminal Connections ............................................................................... 3-5

AC Power and Battery Wiring ...................................................................... 3-6

AC Power.................................................................................................. 3-6

Installing and Connecting Batteries .......................................................... 3-7

Auxiliary Relays............................................................................................ 3-9

Auxiliary Relays........................................................................................ 3-9

System Power-Up and Checkout................................................................. 3-10

Connect AC & Battery Power ................................................................. 3-10

Power-Up and Checkout ......................................................................... 3-10

Acceptance Test ...................................................................................... 3-12

Periodic Testing and Maintenance .............................................................. 3-13

Overview................................................................................................. 3-13

Battery Testing Information .................................................................... 3-13

Chapter 4. Quick CFIG

Overview................................................................................................... 4-1

Cautions and Warnings ............................................................................. 4-1

In this Chapter........................................................................................... 4-1

Reconfigure ALL Hardware.......................................................................... 4-2

Overview................................................................................................... 4-2

Procedure .................................................................................................. 4-2

Auto Detect NEW Hardware ........................................................................ 4-3

Overview................................................................................................... 4-3

Procedure .................................................................................................. 4-3

Restore Factory CFIG ................................................................................... 4-4

Overview................................................................................................... 4-4

Procedure .................................................................................................. 4-4

Accept Default Settings for System Options ................................................. 4-5

Procedure .................................................................................................. 4-5

Edit Settings for System Options .................................................................. 4-6

Overview................................................................................................... 4-6

Procedure .................................................................................................. 4-6

Save CFIG Option......................................................................................... 4-8

Overview................................................................................................... 4-8 vi


Chapter 5. Configuring Cards

Overview................................................................................................... 5-1

In this Chapter........................................................................................... 5-1

Card Addresses ............................................................................................. 5-2

Card Addresses ......................................................................................... 5-2

Adding, Deleting, or Modifying 4010 Cards ................................................ 5-3

Overview................................................................................................... 5-3

Adding a Card ........................................................................................... 5-3

Deleting a Card ......................................................................................... 5-4

Modifying a Card ...................................................................................... 5-5

Chapter 6. Configuring Points

Overview................................................................................................... 6-1

In this Chapter........................................................................................... 6-1

Configure Points Menu ................................................................................. 6-2

Configuring Points Menu .......................................................................... 6-2

Configuring TrueAlarm Points...................................................................... 6-3

Overview................................................................................................... 6-3

Add IDNet Point ....................................................................................... 6-3

Edit TrueAlarm Point................................................................................ 6-3

Delete TrueAlarm Point ............................................................................ 6-4

Configuring ZAM/IAM/RIAM Points .......................................................... 6-6

Overview................................................................................................... 6-6

Adding ZAM/IAM/RIAM Point ............................................................... 6-6

Editing a ZAM/IAM/RIAM Point............................................................. 6-6

Deleting ZAM/IAM/RIAM IDNet Point................................................... 6-8

Configuring Relay and NAC Points .............................................................. 6-9

Overview................................................................................................... 6-9

Procedure .................................................................................................. 6-9

Configuring Digital and Analog Pseudo Points .......................................... 6-11

Overview................................................................................................. 6-11

Configuring Digital Pseudo Points.......................................................... 6-11

Configuring Analog Pseudo Points ......................................................... 6-12

Configuring 24-Point I/O Points ................................................................. 6-14

Overview................................................................................................. 6-14

Configuring 24-Point Input Points .......................................................... 6-14

Configuring 24-Point Output Points........................................................ 6-16

Configuring List Points ............................................................................... 6-18

Overview................................................................................................. 6-18

Configure a List ...................................................................................... 6-18

Add a Point to a List ............................................................................... 6-19

Delete a Point from a List ....................................................................... 6-19

Delete ALL Points from a List ................................................................ 6-20

Configuring User-Defined SW/LED........................................................... 6-21

Overview................................................................................................. 6-21

Configure a User-Defined Switch or LED .............................................. 6-21

Edit a Mode of a User-Defined SW/LED ............................................... 6-22


vii

Chapter 7. System Options

Overview................................................................................................... 7-1

In this Chapter........................................................................................... 7-1

System Options Menu ................................................................................... 7-2

Introduction............................................................................................... 7-2

Time/Date Format ......................................................................................... 7-3

Overview................................................................................................... 7-3

Setting the Time Format............................................................................ 7-3

Active Status Reminder................................................................................. 7-4

Overview................................................................................................... 7-4

Setting the Active Status Reminder........................................................... 7-4

Silence/Reset Inhibit ..................................................................................... 7-5

Overview................................................................................................... 7-5

Setting the Silence/Reset Inhibit ............................................................... 7-5

Alarm Cut-Out Timer.................................................................................... 7-6

Overview................................................................................................... 7-6

Setting the Alarm Cut-Out Timer.............................................................. 7-6

Door Drop on Alarm..................................................................................... 7-7

Overview................................................................................................... 7-7

Setting the Door Drop on Alarm Timer .................................................... 7-7

Door Drop on AC Loss ................................................................................. 7-8

Overview................................................................................................... 7-8

Setting the Door Drop on AC Loss Timer ................................................ 7-8

Audible and Visible NAC Operation ............................................................ 7-9

Overview................................................................................................... 7-9

Setting the Audible or Visual NAC Operation.......................................... 7-9

TrueAlert Non-Addressable Horn Operation .............................................. 7-10

Introduction............................................................................................. 7-10

Setting the TrueAlert Non-Addressable Horn Option............................. 7-10

Depleted Battery Cut-Out ........................................................................... 7-11

Overview................................................................................................. 7-11

Setting the Depleted Battery Cut-Out ..................................................... 7-11

Stagger Start AHUs..................................................................................... 7-12

Overview................................................................................................. 7-12

Setting the Stagger Start AHU Delay Timer ........................................... 7-12

Enable City Circuit...................................................................................... 7-13

Overview................................................................................................. 7-13

Setting the Enable City Circuit Option.................................................... 7-13

Expansion Power ........................................................................................ 7-14

Overview................................................................................................. 7-14

Setting the Expansion Power Option....................................................... 7-14

Single-Station.............................................................................................. 7-15

Overview................................................................................................. 7-15

Enabling Single-Station .......................................................................... 7-15 viii


Suppression Release.................................................................................... 7-16

Overview................................................................................................. 7-16

Example .................................................................................................. 7-16

Step 1. Turn ON Suppression Release ................................................... 7-17

Step 2. Assign Suppression Monitor Point Types to Suppression

Release Monitor Points.............................................................. 7-17

Step 3. Create Suppression Release Monitor Lists................................. 7-17

Step 4. Assign Point Types to Suppression Outputs .............................. 7-18

Step 5. Create Suppression Release Output Lists................................... 7-18

Chapter 8. Custom Control

Introduction............................................................................................... 8-1

In this Chapter........................................................................................... 8-1

Overview....................................................................................................... 8-2

Introduction............................................................................................... 8-2

SMPL Opcodes and Operators...................................................................... 8-3

Input Opcodes ........................................................................................... 8-3

Input and Relational Operators ................................................................. 8-4

Output Opcodes ........................................................................................ 8-5

Custom Control Equation.............................................................................. 8-6

Custom Control Example .......................................................................... 8-6

Custom Control Programming ...................................................................... 8-7

To Start Custom Control Programming .................................................... 8-7

Custom Control Menu Navigation ............................................................ 8-8

Equation Level .......................................................................................... 8-9

Custom Control Level ............................................................................... 8-9

Equations ................................................................................................ 8-10

Input Side (IF)......................................................................................... 8-10

Field 1 ..................................................................................................... 8-10

Field 2 ..................................................................................................... 8-15

Fields 3 & 4............................................................................................. 8-16

Output Side (THEN) ............................................................................... 8-24

Application-Specific Examples................................................................... 8-26

Introduction............................................................................................. 8-26

Day Night Programming Example .......................................................... 8-26

TrueAlarm Heat Utility Monitoring Example ......................................... 8-26

City Circuit Alarm-Output Programming Example................................. 8-26

AHJ City Circuit Reset Operation Example............................................ 8-27

Chapter 9. Saving a CFIG

Introduction............................................................................................... 9-1

In this Chapter........................................................................................... 9-1

Viewing CFIG Properties.............................................................................. 9-2

Introduction............................................................................................... 9-2

Procedure .................................................................................................. 9-2

Continue, Restore CFIG, and Save CFIG ..................................................... 9-3

Continue.................................................................................................... 9-3

Restore CFIG ............................................................................................ 9-3

Save CFIG................................................................................................. 9-3


ix

Chapter 10. Diagnostics and Troubleshooting

Overview................................................................................................. 10-1

Before Calling Tech Support .................................................................. 10-1

Diagnostics.................................................................................................. 10-2

Overview................................................................................................. 10-2

Running Diagnostics ............................................................................... 10-2

Diagnostic Options.................................................................................. 10-3

N2 Comm Diagnostics ............................................................................ 10-3

IDNet Diagnostics................................................................................... 10-3

IDNet Earth Fault Search Diagnostics .................................................... 10-4

Network Diagnostics............................................................................... 10-4

Walk Test.................................................................................................... 10-6

Overview................................................................................................. 10-6

Using Walk Test ..................................................................................... 10-6

TrueTest...................................................................................................... 10-8

Overview................................................................................................. 10-8

Using TrueTest ....................................................................................... 10-9

Crash Codes .............................................................................................. 10-10

Chapter 11. Operation

Overview................................................................................................. 11-1

In this Chapter......................................................................................... 11-1

Handling Abnormal Conditions .................................................................. 11-2

Normal Operation ................................................................................... 11-2

Abnormal Conditions .............................................................................. 11-2

Acknowledging an Alarm, Trouble, or Supervisory Condition............... 11-3

Silencing Alarms..................................................................................... 11-3

Resetting the System ............................................................................... 11-4

Viewing and Clearing Historical Logs ........................................................ 11-5

Overview................................................................................................. 11-5

Using the Historical Logs........................................................................ 11-6

Viewing and Controlling Points .................................................................. 11-7

Overview................................................................................................. 11-7

Controlling/Viewing Points..................................................................... 11-7

How to Disable/Enable Points ................................................................ 11-9

How to Disable Points in Alarm ............................................................. 11-9

Editing Custom Labels.............................................................................. 11-10

How to Edit a Custom Label ................................................................. 11-10

User Control Functions ............................................................................. 11-12

Overview............................................................................................... 11-12

Using the Function Options................................................................... 11-12

Setting the Time and Date......................................................................... 11-14


x

Appendix A. Device and Point Types

Overview.................................................................................................. A-1

In this Chapter.......................................................................................... A-1

Hardware Device Types............................................................................... A-2

Overview.................................................................................................. A-2

TrueAlarm Hardware Device Types ........................................................ A-2

TrueAlarm Levels and Sensitivities ......................................................... A-3

Monitor Hardware Device Types............................................................. A-3

4009A Hardware Device Types ............................................................... A-4

Software Point Types ................................................................................... A-5

Monitor Point Types ................................................................................ A-5

Signal Point Types ................................................................................... A-6

Relay Point Types .................................................................................... A-7

TrueAlert Point Types.............................................................................. A-8

Appendix B. Hardware and Pseudo Points

Overview.................................................................................................. B-1

In this Chapter.......................................................................................... B-1

Hardware Points........................................................................................... B-2

Introduction.............................................................................................. B-2

General Card Status Point Information .................................................... B-2

Master Controller Card ............................................................................ B-2

Master Controller Card Status Points....................................................... B-2

Master Controller Points .......................................................................... B-2

NAC Card ................................................................................................ B-3

NAC Card Status Points........................................................................... B-3

NAC Card Points ..................................................................................... B-4

Power Supply Card .................................................................................. B-5

Power Supply Card Status Points............................................................. B-5

Power Supply Points ................................................................................ B-5

IDNet Card............................................................................................... B-6

IDNet Card Status Points ......................................................................... B-6

IDNet Points ............................................................................................ B-7

RS232/Modem Card ................................................................................ B-8

RS232/Modem Card Status Points........................................................... B-8

RS232/Modem Points .............................................................................. B-8

DACT Card.............................................................................................. B-9

DACT Card Status Points ........................................................................ B-9

SDACT Points ......................................................................................... B-9

Network Card......................................................................................... B-10

Network Card Status Points ................................................................... B-10

Network Points....................................................................................... B-10

24I/O Card ............................................................................................. B-11

24I/O Card Status Points........................................................................ B-11

24I/O Points ........................................................................................... B-12

LCD Card............................................................................................... B-12

LCD Card Status Points ......................................................................... B-12

LCD Points ............................................................................................ B-13

Pseudo Points............................................................................................. B-14

Introduction............................................................................................ B-14

Digital Pseudo Points ............................................................................. B-14

4010 System Digital Pseudos................................................................. B-15


xi

4010 User Digital Pseudos..................................................................... B-17

Analog Pseudo Points ............................................................................ B-18

4010 System Analog Pseudos ................................................................ B-18

4010 User Analog Pseudos .................................................................... B-18

List Pseudo Points.................................................................................. B-19

4010 System Lists .................................................................................. B-19

4010 User Lists ...................................................................................... B-20

Appendix C. Glossary of Terms

Overview...................................................................................................C-1

Glossary ....................................................................................................C-1

Index ............................................................................... IN-1


xii

Introduction

In this Chapter

Chapter 1

4010 FACP Overview

The 4010 is a single-channel, addressable, modular Fire Alarm Control Panel

(FACP) that monitors and controls up to 250 IDNet addressable devices. The

Standard Function Input/Output (SFI/O) card, power supply, and cabinet provide a complete fire alarm control panel for most applications. Optional modules mount to the chassis to provide additional inputs and outputs, network communication, and additional power. Additionally, the 4010 can automatically control supplementary equipment such as fire doors and fans during an alarm condition using its auxiliary relay outputs.

The 4010 provides audible and visible indications during trouble, supervisory, or alarm (fire) conditions. Should any of these conditions occur, the system activates the applicable notification appliance(s), LEDs, and the panel tone-alert.

The indications continue until someone appropriately acknowledges the condition.

This publication describes how to install, configure, operate, program, and test the Simplex 4010 Fire Alarm Control Panel (FACP).

This chapter discusses the following topics:

Topic

Related Documentation

Base System Module

Optional System Modules

User Interface

Passcodes, Access Levels, and Logging In and Out

Menu Structure

See Page #

1-2

1-3

1-5

1-9

1-12

1-14

1-1


Related Documentation

The following table lists publications that provide specific information concerning field wiring, replacement parts, optional modules, and application information.

Publication Title Part Number

4010-9806 Class A Module - Installation Instructions 574-055

4010-9809 City Circuit Card - Installation Instructions 574-056

4010 Fire Alarm Expansion Power Supplies Installation

Instructions

574-057

4010 Fire Alarm RS232 Interface and Service Modem Cards

Installation Instructions

574-058

4010-9820 Battery Meter Module - Installation Instructions 574-165

4010-9814 Suppression Kit - Installation Instructions 574-166

4010 Fire Alarm DACT Modules - Installation Instructions 574-167

4010 Fire Alarm 4120 Network Interface Cards Installation

Instructions

574-168

4010 Fire Alarm - Parts List 574-424

4098 Detectors, Sensors, and Bases - Application Manual 574-709

4010 Fire Alarm - Field Wiring Diagrams 842-058

1-2


Base System Module

Overview

SFI/O

The 4010 Base System includes the SFI/O card, power supply, and cabinet.

The SFI/O contains all connections for optional modules as well as N2 annunciator communication, IDNet, NAC, Auxiliary Power, Auxiliary Relay, PC

Programmer (service port), and expansion power connections.

The User Interface provides a 2x40 LCD screen, LEDs, operational and programming keys, all of which are visible with the cabinet door closed. See

“User Interface,” later in this chapter for additional information about the user interface.

TB1 TB2

TB3 TB4

P13 P14

TB5 TB6 TB7 TB8

Figure 1-1. 4010 SFI/O with User Interface

Continued on next page

1-3


Base System Module,

Continued

Power Supply – Base System Base System:

• 120VAC +10% / -15%, 60Hz or 220/240VAC +10% / -15%, 50/60Hz

• 24VDC (unregulated) 4A alarm power

• 24VDC, 1/2 Amp auxiliary power

• Battery Charger for 25Ah Batteries, 24-hour recharge at 120VAC (for larger battery capacity, use the 4081-9301, -9302, -9303, or -9304 External

Battery Cabinet w/Charger)

Note: The 4010 back box can accommodate up to 25Ah batteries.

Default Settings All switches and potentiometers are set at the factory before shipping. Although the settings should be accurate, you can change the settings on the following components as indicated.

• LCD Adjustment (R143) – If necessary, use a small flat head screwdriver, turn the R143 Potentiometer located below TB1 to adjust the contrast on the

LCD for the 4010.

• Baud Rate Setting (SW2) - Baud rate settings for the 4010 communications are shown in Table 1-1 below. If you receive a communications trouble at the panel, verify that SW2 is set correctly.

Table 1-1. SW2 Switch Settings

Baud Rate SW2-1 SW2-2

OFF LINE ON ON

Environmental Specifications

Important: You must set all cards to the same baud rate in order for the

4010 to operate properly. If you have a 4010 with a Network or DACT card, you must set the SW2 dip switch to the 9600 baud rate. It is recommended that you use the 19,200 option when uploading/downloading information to a PC.

Temperature:

The 4010 operates normally with ambient temperatures from 32

° F to 120° F

(0

°C to 49°C), inclusive.

Humidity:

The 4010 operates normally under non-condensing humidity conditions up to

85% relative humidity @ 86

° F (30°C).

1-4


Optional System Modules

Overview

Optional Modules with

Dedicated Hardware Slots

The following is a list of optional modules for the 4010. Refer to the individual instructions that accompany each module for more information. Those instructions and their part numbers are listed in the “Related Documentation” section of this chapter. Refer to the label inside the door of the 4010 for the placement of optional modules.

Note: Certain modules are mutually exclusive. For example:

• One DACT or One City Circuit Card is allowed.

• One 4120 Network Card or One DACT is allowed.

• One Dual RS232 Card or One RS232/Modem is allowed.

• One Battery Meter Module or One 24VDC Extender Terminal

Block.

The 4010 has five dedicated mounting locations to support the following modules.

4010-9806 Class A Adapter Card for NACs

The four NACs found on the SFI/O board are Class B (Style Y). To support

Class A (Style Z) you must install an adapter card that mounts to the SFI/O board. Each adapter card supports two NACs.

4010-9809 City Circuit Card

The city circuit card connects to the SFI/O with a ribbon harness to provide ULlisted connections to either Remote Station (reverse polarity) or Public Service Fire

Communications Center (local energy) receiving units (selectable). The card has two circuits -- Circuit 1 reports only alarm events and Circuit 2 can be configured to report Trouble events or Trouble and Supervisory events. In the event of a CPU failure, a city card configured for a Trouble Output sends a trouble to the city circuit. The card is mounted to the right of the SFI/O at the top of the chassis.

Newer versions of the 4010 FACP (Version 2.01 or later) provide the ability to reset the City Circuit in the following situation.

• If the device(s) in alarm is physically removed.

• No other devices are in an alarm state.

• System Reset is performed.

Enabling City Circuit reset is done via Custom Control. Refer to “Application-

Specific Examples” at the end of Chapter 8 for specific information. Be sure to consult the AHJ before enabling the City Circuit Reset option.


1-5


Optional System Modules,

Continued

Optional Modules with

Dedicated Hardware Slots

(continued)

Optional Modules for

Expansion Slots

4010-9813 Expansion Power Supply

When more than 4A of Notification or AUX power is required, an expansion power supply may be added. The expansion power supply provides filtered

24VDC, 4A power for Notification and Auxiliary use. The expansion power supply is mounted to the right of the SFI/O at the bottom of the chassis.

4010-9814 Suppression Kit

The 4010-9814 suppression kit consists of an expansion power supply designed to provide regulated 24VDC power for suppression circuits and a suppression system appliqué that is applied to the outside of the FACP. The suppression kit mounts in the same hardware slot as the expansion power supply.

4010-9820 Battery Meter Module

The 4010-9820 Battery Meter Module provides an indication of the charge/discharge state of the FACP’s batteries (internal or external). The module also provides a constant reading of the current and voltage of the monitored batteries. This module mounts to the right of the city module.

The 4010 has a maximum of two expansion slots available to support the following cards.

4010-9810 and -9816 DACT Cards. Two versions of the DACT are offered:

4010-9810

 Event Reporting DACT - Five categories of status changes are supported with this card. The Central Station is notified of

Alarm, Trouble, Supervisory or Waterflow status changes. AC

Fail trouble is delayed for 6 to 12 hours before reporting to the

Central Station. In the event of a CPU failure, the card sends a

“CPU Trouble” message to the Central Station.

4010-9816

 Per Point Reporting DACT - Specific information is available about which point in the system experiences a status change.

The report sent to the Central Station includes the specific point address along with the point status. The DACT supervises the system CPU via N2 communication. In the event of a CPU failure, the DACT sends a “CPU Trouble” message to the

Central Station.


1-6



Continued

Optional Modules for

Expansion Slots (continued)

4010-9811 Dual RS232 Card

The Dual RS232 Card is connected to the N2 communication lines. The 4010 can vector messages to RS232 ports by category. The RS232 ports may be configured as follows:

• Two serial printers (80 or 40 column).

• One serial printer and one CRT/Keyboard (command line interface).

The RS232 ports on the option card are electrically isolated from earth, allowing connection of an AC powered printer or CRT/keyboard.

Note: Only the 80-column printer can be used to print 4010 system reports.

4010-9812 RS232/Service Modem Card

This card is similar to the above dual RS232 card except that one port is a dedicated Service Modem port (command line interface). The second port may be programmed for use with a serial printer or left unused. Event vectoring by category is supported on the modem and RS232 ports.

4010-9817, -9818, -9819, and -9821 4120 Network Cards

A 4120 Network card can be added to the 4010. This card communicates with the system CPU via N2 communication. The 4010 system can be a node on a 4120

Network, however it has limited functionality. Points on the 4010 may be declared as Public. No points on other nodes may be declared as External to the 4010. Set

Host and Remote Download functions are fully supported.

Remote Optional Modules The following optional modules mount remotely from the 4010 FACP.

4606-9101 LCD Remote Annunciator

The 4606 LCD annunciator for the 4010 provides remote area annunciation of the 4010 panel’s status. Pass-key protected, the user interface provides a 2x40

LCD screen, indicating LEDs, and operator membrane keys.

4605-8401 24-Point I/O

The 24-Point I/O Card for the 4010 is capable of using any combination of 24 inputs or outputs to control LEDs, lamps, and relays, and to monitor contact closure inputs. The outputs can be ON continuous or flashed, at a slow or fast rate.

Inputs may be unsupervised, supervised for opens, supervised for open and shorts, depending upon how the switch is wired externally.


1-7



Continued

Other Compatible Equipment The 4010 is compatible with the equipment listed below provided all equipment meets the applicable agency listings for the intended use.

• 4003 Voice Control Panel (VCP). Since the 4010 does not contain hardwired monitor points, the alarm/trouble output from the 4003 is connected to a Zone Adapter Module (ZAM). One of the NACs on the

4010 can be used to activate the 4003.

• 4009A and 4009R IDNet NAC Extender.

• The 4010 is compatible with the following 4098 smoke/heat sensors and bases:

PID Description

4098-9710

4098-9713

4098-9714

4098-9717

4098-9733

4098-9789, -9791 thru -9793

Quickconnect, TrueAlarm, Photo

Smoke Sensor

Quickconnect, TrueAlarm, Photo

Smoke Sensor with sounder.

TrueAlarm, Photo Smoke Sensor

(requires separate base)

TrueAlarm, Ion Smoke Sensor

(requires separate base)

TrueAlarm Heat Sensor (requires separate base)

Sensor Bases

• Power supplies that are power-limited and listed for fire-protective signaling use can be used with the 4010 when wired according to power-limited guidelines.

• The 4010 is compatible with the 4120 network. In order to use the 4010 as a node on the network, you must have

- 4100 master software must be Rev. 8.01 or higher and GCC/NPU must be Rev. 2.03 or higher.

- 4120 network firmware must be Rev. 3.01 or greater. (Rev. 3.02.99 or later is recommended.)

- 4010 network firmware must be Rev. 3.03.99 or later.

1-8


User Interface

Overview The user interface of the 4010 system consists of control keys, LEDs, a 2-line by

40-character backlit LCD, and a tone-alert mounted in the control panel. The purposes of the Operator and Menu keys are listed below.

LCD

LEDs

Operator

Keys

Menu Navigation

Keys

12:02:15pm

10:09:33am Wed 27-Aug-97

FIRE

ALARM

SYSTEM

SUPERVISORY

SYSTEM

TROUBLE

ALARM

SILENCED

AC

POWER

ALARM

ACK

SUPV

ACK

TROUBLE

ACK

ALARM

SILENCE

Menu Function

Disable

Enable

Exit

Clear

Enter

SYSTEM

RESET

User Programmed

User Programmed

User Programmed

Previous Next

Operator Key Definitions

ALARM

ACK

SUPV

ACK

TROUBLE

ACK

Figure 1-2. 4010 Operator Interface, Showing High-Level Status

Screen

The following information defines the operator (rectangular) keys on the 4010 panel.

Alarm Acknowledge <ALARM ACK>

The <ALARM ACK> key is used to acknowledge any unacknowledged fire alarms in the system and to scroll through the alarms in the active Alarm List.

Supervisory Acknowledge <SUPV ACK>

The <SUPV ACK> key is used to acknowledge any unacknowledged supervisories in the system and to scroll through the supervisory conditions in the active Supervisory List.

Trouble Acknowledge <TROUBLE ACK>

The <TROUBLE ACK> key is used to acknowledge any unacknowledged troubles in the system and to scroll through the troubles in the active Trouble

List.


1-9


User Interface,

Continued

Operator Key Definitions

(continued)

ALARM

SILENCE

SYSTEM

RESET

Menu Navigation Key

Definitions

Menu

Function

Disable

Enable

Exit

Clear

Alarm Silence <ALARM SILENCE>

The <ALARM SILENCE> key is used to silence any silenceable output types

(generally all non-visible notification appliances).

System Reset <SYSTEM RESET>

The <SYSTEM RESET> key allows you to reset all alarm notification appliances and controls, remove alarms from the Alarm List, silence all silenceable outputs, reset detectors, and return the system to a normal state

(provided that no alarms are present). The display will indicate that a reset is in progress and whether or not a reset completes successfully.

The following information defines the menu navigation (round) keys on the 4010 panel. These keys perform access level dependent functions defined in the

“Passcodes, Access Levels, and Logging In and Out” section of this chapter.

Menu <Menu>

The <Menu> key always brings you to the top of the main menu structure unless you are in Programming or Quick-CFIG menus (see the Menu Structure at the back of this chapter).

Function <Function>

The Function Menu is displayed when the <Function> key is pressed at the

High-Level Status screen. Use the <

Previous> and <ó Next> keys to scroll through the functions list. The function key provides access to commonly used control and display “functions,” and is also used for list editing.

Disable/Enable <Disable/Enable>

The <Disable/Enable> key allows the operator to quickly disable or enable any point that is currently displayed (passcode protected). A confirmation screen is displayed requesting <Enter> be pressed before performing the actual enable or disable.

Exit/Clear <Exit/Clear>

The <Exit/Clear> key is used to back out of menus or displays to get to the toplevel menu structure (refer to the “Menu Structure” at the end of this chapter).

Where possible, the <Exit/Clear> key will back out one level at a time. There are cases, however, that the <Exit/Clear> key will return the operator directly to the top level.


1-10


User Interface,

Continued

Menu Navigation Key

Definitions (continued)

t

Enter

u

þ

Enter <Enter>

The <Enter> key is used to confirm selections. When pressed, this key provides additional information about the point shown on the display. In a programming screen, pressing <Enter> indicates that the information on the display is correct and can be entered. The <Enter> key is used in various other places within the menu structure, always for this same type of operation.

Right < u> and Left Arrow <t>

The < u> and <t> arrows are used in screens with multiple choices. The keys advance the focus (square brackets [ ] ) from field-to-field.

Previous <

Previous> and Next <ó Next>

The <

Previous> and <ó Next> keys allow you to move from screen-toscreen within any displayable object having multiple screens. This would include scrolling through an historical log, the point database, a list of points, or other similar activities. The <

ó Next> key selects the next display screen in sequence, and the <

Previous> key selects the previous screen. These keys are also used to view additional information about abnormal points or in viewing

Historical Logs.

1-11


Passcodes, Access Levels, and Logging In and Out

Overview Certain operator functions of the 4010 are passcode protected at different levels.

This section describes logging in and out at specific access levels.

Passcodes and Access Levels All operations in the 4010 are protected at a preset level with designated passcodes to access these operations. The table below shows the basic operations and menu choices for specific access levels. The default passcodes are listed for Levels 2 through 4. Refer to the Menu Structure later in this chapter for a complete quick-reference of the main 4010 FACP menus.

Table 1-2. Access Levels and Operations

ACCESS LEVEL OPERATIONS

1

2

Passcode = 2000

Ack

Silence

System Reset

All Level 1 Operations, plus:

Set Time/Date

Point Control

Enable/Disable Points

3

Passcode = 3000

All Level 1 & 2 Operations,

plus:

Clear Logs

Clear Verification Tallies

Programming

-

Edit/Clear Point Label

-

Restore/Save CFIG

TrueTest

Walk Test

Reports

4

Passcode = 4000

All Level 1,2, & 3 Operations,

plus:

Quick CFIG

Run Diagnostics

Upload/Download

Programming

• Edit

• Edit SMPL Program

Options

Restart Panel

• Warm

• Cold


1-12


Passcodes, Access Levels, and Logging In and Out,

Continued

Logging In and Out To execute any of the functions protected at Level 2 or above, you must Login to the 4010 FACP using a passcode. After completing a task at a certain access level you should then Logout to return the access level to Level 1. When logged in at Level 2 or above and you do not press any front panel keys for more than ten minutes, the 4010 defaults to access level 1.

All passcodes consist of a four-digit number. Logging in at a Level 4 causes a

Service Mode trouble. Note that this trouble can only be cleared by restarting the panel.

To Login, perform Steps 1 through 7 on a 4010 that is at the High-Level Status screen (refer to Figure 1-2 for an example of this screen). When moving from one digit to the next, an asterisk (

∗) appears in the place of an entered number for security purposes. See Table 1-2 in the previous section for the default passcodes.

1. Obtain the appropriate passcode information for the appropriate level.

3. Press and hold <

óNEXT> until [Login/Logout] is displayed, and then press

<ENTER>.

4. Press and hold <

óNEXT> until [Login] is displayed, and then press

<ENTER>.

5. Press

óNEXT> to scroll through the numbers on the display until the appropriate number is displayed.

6. Press the right arrow <

ö> to move the focus brackets [ ] to the next digit in the passcode.

Repeat Steps 5 & 6 until all numbers are entered.

7. When the passcode is correct, press <ENTER> to Login.

A **Login Accepted** screen indicating your current access level is displayed briefly upon a successful Login attempt. If you did not enter the appropriate

Login passcode, a **Login is Invalid** screen appears.

To Logout, perform Steps 1 through 4 above except for Step 4 where you need to wait until [Logout] is displayed.

1-13


Menu Structure

1-14

Overview

In this Chapter

Chapter 2

Back Box Installation

This chapter contains instructions and guidelines for installing the 4010 FACP backbox.


Topic

Before You Begin

Remove Chassis and Cut Conduit Openings

Mount the Backbox

Re-install the Chassis

See Page #

2-2

2-3

2-4

2-5

2-1


Before You Begin

Unpacking the System

Installation Guidelines

Standards and Codes

Unpack the 4010 using the following information:

• Carefully unpack the system and inspect for shipping damage.

• Select a location for the control panel in a clean, dry, vibration-free area with moderate temperature (see the “Environmental Specifications” section in Chapter 1).

Before installing the 4010, read the following guidelines:

• Install the FACP in a readily accessible area with sufficient room to easily install and maintain the control panel.

• Locate the top of the cabinet approximately five feet above the floor with the door hinge on the left-hand side.

• Count the number of conductors needed for all devices and cut the appropriate knockouts. Pay careful attention to the routing for Power-

Limited and Non-Power Limited wiring. You must maintain a 1/4-inch separation between these two types of wiring. All terminal connections are Power-Limited except those to the AC power, Battery, and City

Circuit, and contacts when switching Non-Power Limited sources.

• Review the precautions and warnings at the front of this publication.

• All wiring must comply with the National and/or Local codes for fire alarm systems. All wiring must test free of grounds.

• Leave sufficient room for batteries in the bottom of the back box (see the label inside the 4010 back box for more information).

• Enclosure must be level and plumb when installed.

When installing the 4010, you should be familiar with the following standards:

• NEC Article 300 Wiring Methods

• NEC Article 760 Fire Protective Signaling Systems

• Applicable Local and State Building Codes

• Requirements of the Local Authority Having Jurisdiction (AHJ)

2-2


Remove Chassis and Cut Conduit Openings

Overview The 4010 ships from the factory completely assembled in the back box, or as a single piece electronics assembly that is shipped separately from the back box, retainer, and door. The system electronics (SFI/O and power supply) are mounted to a steel chassis. Refer to the 526-407 label inside the back box for additional information.

Step 1. Remove the Chassis Prior to installation you must remove the chassis containing the 4010 SFI/O and power supply from the back box. Use the following steps to remove the chassis.

1. Remove the door grounding wire from the back box. Remove the door from the hinges and set it aside.

2. Remove the metal retainer by gently lifting and pulling the bottom of the retainer out from the back box. Then, being careful not to drop the retainer, slide the top of the retainer out from under the lip of the top of the back box.

3. Remove the AC wiring Quick-Disconnect connector from the chassis by firmly squeezing the release tabs and pulling it free. The Quick-Disconnect connector is located directly below the chassis. Dress the wires so that they do not interfere with back box installation.

4. Loosen or remove the four mounting screws holding the chassis to the back box.

5. Lift the chassis out of the back box and store in a clean, dry, safe area for reinstallation later.

Step 2. Cut Conduit

Entrances

Determine the amount and proper location of conduit/service entrances. Make all appropriate entrances into back box (see Figure 2-1).

Caution: Power-Limited and Non-Power-Limited wiring must enter through separate conduit/service entrances. AC power entrance into back box is recommended at the bottom right side of the back box.

If a Bus Bar is required to terminate wire shields, see Figure 2-1 for proper mounting location. Entrances for shielded wire must be located within two inches of the bus bar. Maximum intrusion into box for conduit is 1/2-inch.

TYPICAL

CONDUIT

LOCATION

BUS BAR MOUNTING STUDS

2" MAX IF

USING BUS BAR

TOP VIEW

Figure 2-1. Conduit and Bus Bar Mounting Locations.

2-3


Mount the Backbox

Surface Mounting the Back

Box

Semi-Flush Mounting the

Back Box

1. Using the pre-cut holes in the back of the box as a guide, mark off where you want to mount the back box (see the “Before You Begin” section of this chapter).

2. Using mounting hardware capable of supporting a fully loaded 4010

(approximately 50 lbs.), screw two screws into the wall where the top two teardrop holes of the back box are to be located. Tighten the screws leaving about a 1/8-inch gap from the seated position.

3. Carefully lift the back box and place the two teardrop holes over the mounting screws.

4. Screw two mounting screws into the two bottom back box holes and tighten all screws.

1. Remove the mounting knockouts from both sides of the back box. See

Figure 2-2 for their location.

2. Make the appropriate opening in the wall or wall board to accommodate the back box. Dimensions of the backbox are 22” (55.8 cm) W x 18 (45.7 cm)

H x 6 ¼ (15.8 cm) D.

3. Frame the opening to accommodate the back box. Fit the back box into the opening. Use wall stud guides to ensure free movement of the door.

4. Using mounting hardware capable of supporting a fully loaded 4010, screw or nail back box to the studs.

FRONT OF STUD FOR

1/2" WALLBOARD

FRONT OF STUD FOR

5/8" WALLBOARD

6 1/4"

5 3/8"

DOOR

WALL STUD GUIDES

(1/2" WALL BD)

WALL STUD GUIDES

(5/8" WALL BD)

KNOCKOUT

SCREW/NAIL HOLES

(FOR SEMI

FLUSH MOUNT.)

SIDE VIEW

Figure 2-2. Wall Stud Guides


2-4


Re-install the Chassis

Procedure Use the following steps to re-install the 4010 chassis containing the SFI/O and power supply into the back box.

1. Insert two mounting screws into the top two mounting holes for the chassis.

Tighten the screws leaving a 1/8-inch gap from the seated position.

Caution: When mounting the chassis, pay careful attention to any wiring inside the back box. Do not crimp any wiring behind the chassis when mounting.

2. Carefully hang the chassis on the two top mounting screws using the top teardrop holes on the chassis.

3. Insert two mounting screws into the bottom two teardrop chassis mounting holes and tighten all screws.

4. Re-hang the door on the back box hinges and re-attach the door grounding wire to the back box.

5. You can re-install the retainer now before wiring or later after wiring is complete. Re-install the retainer by guiding the top lip of the retainer under the top lip of the back box and carefully sliding the bottom of the retainer into place.

WARNING: DO NOT APPLY POWER TO THE 4010 AT THIS TIME!

DO NOT connect the quick-disconnect AC connector to the chassis. Refer to the “Power-Up and Checkout”

section of this publication for more information.

2-5


This is blank


Overview

In this Chapter

Chapter 3

Wiring

This chapter contains instructions and guidelines for wiring the 4010 FACP.

This chapter describes how to wire the base 4010 FACP. Use the information in this chapter, the 526-407 and 526-408 labels located on the inside door of the

FACP, and the 842-058 Field Wiring Diagram to wire the base panel.

Refer to the publications listed in Chapter 1 to wire all optional modules.


Topic See Page #

Overview 3-2

NAC Wiring

IDNet Wiring

AC Power and Battery Wiring

3-4

3-5

3-6

Auxiliary Relays

System Power Up and Checkout

Periodic Testing and Maintenance

3-9

3-10

3-13

3-1


Overview

Power Limited Versus Non-

Power Limited Systems

The 4010 system can be wired as either a Power Limited or Non-Power Limited system. Adhere to the following guidelines and consult the NEC for specifics.

• When installing the 4010 as a Power Limited system, you must observe the following guidelines: or Battery wiring.

- Run AC Power wiring in a separate conduit that enters the back box in the upper or lower right corner.

-

Route AC Power, battery wiring, city circuit connections, and non-

Power Limited Relay wiring only through the shaded areas shown in

8 1/2"

Figure 3-1. Do not route Power Limited wiring through the shaded areas shown in the figure.

• The 4010 FACP can be reclassified as a non-Power Limited system when installed in accordance with the latest version of NEC 760. In this case, all references to Power Limited must be removed from the panel’s labels.

18"

DISCARD

AFTER

SHIPPING

22"

14.5"

AC POWER

HARNESS

BATTERY AREA

NO CONDUIT ENTRY OR

WIRING IN THIS AREA

FRONT VIEW

AC TERMINAL

BLOCK

SHADED AREA

IS FOR NON-POWER

LIMITED WIRING ONLY

Figure 3-1. Location of Non-Power Limited Wiring Area

3-2


Overview,

Continued

Locations of Terminal

Connections

Figure 3-2 shows the location of all terminal connections for the system components. Refer to the appropriate section later in this chapter for specific information on wiring a component.

4010-9806

Class A

Module

(565-789)

4010-9806

Class A

Module

(565-789)

Pot for LCD Adjustment

4010-9809

City Module

4010-9820

Battery Meter

Module

4010-9813

Expansion Power

Supply (565-792) or

4010-9814

Supression Power

Supply (565-793)

WARNING: PTCs MUST NOT TOUCH EACH OTHER OR

ANY OTHER METAL SURFACE!

Figure 3-2. Base Panel Wiring

3-3


NAC Wiring

Overview

Terminal Connections

The 4010 provides four NACs for notification appliances such as horns and strobes. These NACs are standard Class B (Style Y). Optional Class A (Style

Z) operation can be achieved using an adapter. Refer to the 4010-9806 Class A

Module - Installation Instructions, Part No. 574-055 for information on the Class

A NAC adapter.

The NACs supervise for short or open circuit troubles. In the event of a short, the NAC does not energize. Each NAC is rated at 2A. Up to 4A of NAC power is available from the base unit. If more power is needed, NAC 3 and NAC 4 can be connected to an expansion power supply.

An auxiliary (AUX) power connection (rated at 1/2A, 24VDC) is provided at

TB5 located to the left of the auxiliary (AUX) relay terminal blocks at the bottom center of the SFI/O. Current drawn from TB5 must be deducted from the

4A total NAC power.

Each NAC can be configured as “On until Silence” or “On until Reset” and can be coded or non-coded (refer to “Chapter 6 - Configuring Points” for more information). The 4010 can disconnect each NAC individually to aid in locating earth faults.

The NAC’s wiring connects to TB1 and TB2 as shown in Figure 3-3. These terminal blocks are barrier strip type that can accommodate 12-18 AWG wires.

TB1 and TB2 are located in the upper left corner of the SFI/O. Refer to the 842-

058 wiring diagram for Alarm Current, Wiring Distance, and Line Resistance values.

TB1-1: NAC 1 + Alarm

TB1-2: NAC 1 - Alarm







NAC 1 NAC 2 NAC 3 NAC 4

Alm+ Alm- Alm+ Alm- Alm+ Alm- Alm+ Alm-

TB1 TB2

1 2 3 4 1 2 3 4

Figure 3-3. NAC Wiring

3-4


IDNet Wiring

Overview

Terminal Connections

The 4010 uses addressable IDNet devices (smoke and heat detectors/sensors and pull stations, 4009 IDNet NAC Extender, etc.). The 4010 supports 250 devices on a single pair of wires on a single channel.

The IDNet channel supports Style 4 and 6 as part of the base system. Refer to the 4010 Field Wiring Diagram (842-058) for all wiring information.

IDNet communication also supports the detection of duplicate devices. IDNet detects if two devices are set to the same address. This function is activated from the front panel (see IDNet Diagnostics in the Diagnostic/Troubleshooting section of this publication).

Use the information below to wire the IDNet communication lines (14-18 AWG) to TB4 located in the upper right corner of the SFI/O.

• To connect Class A wiring, wire the “B” terminals (TB4-1 and -2) to each device in succession without T-taps (observe polarity). At the last device in the loop, return the B+ wire to the A+ terminal (TB4-4) and the B- wire to the A- terminal (TB4-5).

• To connect Class B wiring, jumper B+ to A+ and B- to A- using 14-18

AWG insulated wire (T-taps are allowed). Connect B+ to all devices

(positive connection) and connect B- to all devices (negative connection).

IDNet Comms

A- A+ SHLD B- B+

TB4

6 5 4 3 2 1

Figure 3-4. IDNet Connections

3-5


AC Power and Battery Wiring

AC Power

1. Match incoming Neutral and Hot wires to their corresponding wires leading from the terminal block located in the lower right corner of the back box to the Quick-Disconnect harness and screw into place.

2. The safety ground wire from the AC source must be connected to the ground stud located below the terminal block. Do the following to connect the ground wire to the stud:

WIRE

GUIDES

When the 4010 FACP is installed as a Power-Limited system, AC power lines must be run in a separate conduit, and should enter the back box in the lower right corner. Use the shaded area of Figure 3-5 only for routing of AC power wiring. All wiring must be neatly dressed within the back box. Use the wiring guides inside the back box when possible.

• The FACP requires connection to a separate dedicated AC fire alarm circuit, which must be labeled “Fire Alarm.”

• The AC power circuit must connect to the line side of the main power feed of the protected premises.

• No other equipment can be powered from the fire alarm circuit.

• The AC power circuit wiring must run continuously, without any disconnect devices, from the power source to the FACP.

• Over-current protection for this circuit must comply with Article 760 of the

National Electric Code as well as local codes.

• Use 12AWG wire with 600-volt insulation for this circuit.

AC POWER

HARNESS a) Run the ground wire to the stud and cut it, leaving a little slack for adjustment. b) Crimp a spade terminal (Part No.

474-144 or -015) onto the ground wire.

14.5"

BATTERY AREA

NO CONDUIT ENTRY OR

WIRING IN THIS AREA

AC TERMINAL

BLOCK c) Place a lock washer on the stud, followed by the terminal and then another lock washer. d) Securely fashion a nut (Part No.

322-128) onto the stud.

SHADED AREA

IS FOR NON-POWER

LIMITED WIRING ONLY

Figure 3-5. AC Power Wiring


3-6


AC Power and Battery Wiring,

Continued

Installing and Connecting

Batteries

The base 4010 FACP accommodates (and charges) up to 25 Ah capacity batteries. The following is a list of compatible batteries.

• 2081-9272, 6.2 Ah

• 2081-9274, 10 Ah

• 2081-9275, 18 Ah

• 2081-9288, 12.7 Ah

• 2081-9287, 25 Ah

Install the batteries in the area shown on the label located in the bottom of the back box. Use the following steps, Part No. 733-945 battery harness (733-903 for Canadian systems), and Figure 3-6 to connect the batteries to TB8 located in the lower left corner of the SFI/O.

Domestic systems should use the following procedure.

1. Using the short white wire crimped at both ends, jumper one positive (+) terminal of one battery to the negative (-) terminal of the other battery.

2. Take the non-crimped end of the red wire from the harness and connect this to the + side of TB8. Connect the Fast-on connector on the other end of the

Red wire to the Positive terminal of one of the batteries.

3. Take the non-crimped end of the black wire from the harness and connect this to the - side of TB8. Connect the Fast-on connector on the other end of the Black wire to the Negative terminal of one of the batteries.

TB8

−

BATTERY

+

Figure 3-6. Battery Connections – Domestic System

Canadian systems should use Figure 3-7 as an installation guide.

WARNING: DO NOT APPLY BATTERY POWER TO THE 4010 AT

THIS TIME! DO NOT connect crimped ends of the red and black wires to the battery. Refer to the “Power-Up and Checkout” section of this publication for more

information.


3-7


AC Power and Battery Wiring,

Continued

Installing and Connecting

Batteries (continued)

CANADIAN LOW BATTERY MODULE

P4

SF I/O BD

565-738

TB8

BTRY

BATTERY HARNESS

733-903

RED

6

4

2

BLK

RELAY

5

3

1

RED

RED

BATTERY BATTERY

Figure 3-7. Canadian Battery Wiring

WARNING: DO NOT APPLY BATTERY POWER TO THE 4010 AT

THIS TIME! DO NOT connect crimped ends of the red and black wires to the battery. Refer to the “Power-Up and Checkout” section of this publication for more

information.

3-8


Auxiliary Relays

Auxiliary Relays The 4010 provides two auxiliary (AUX) relay circuit connections; one at TB6 and the other at TB7. Each circuit provides one form “C” contact (normally open or normally closed) rated at 2A (24VDC), or 0.5A (120 VAC) with optional 120 Volt auxiliary relay kit.

The default operation for AUX1 is an Alarm Relay and AUX2 is a Trouble

Relay. The AUX relay circuits can also be programmed for other desired operations using the front panel (see “Chapter 6 - Configuring Points”).

Use Figure 3-8 to wire the AUX relay circuits. TB6 and TB7 are located at the bottom of the SFI/O near the center.

When power for the AUX relay contacts is from TB5 (AUX Power), 4010-9813, or 4010-9814 expansion power supplies, the circuit is power-limited. When power for the AUX relay contacts IS NOT from the sources listed above, use an in-line fuse (Part No. 208-165). If power source is non-power-limited, wiring must be routed through the non-power-limited spaces shown in Figure 3-1 and

“power-limited” markings must be obliterated.

TB6 TB7

NO C NC NC C NO

Bottom of the SFI/O AUX1 AUX2

Figure 3-8. AUX Relay Connections

3-9


System Power-Up and Checkout

Connect AC & Battery Power Use the following steps to apply AC and battery power to the 4010 FACP.

1. Re-connect the AC power harness removed in previous steps

2. Connect the crimped ends of the 733-945 battery harness (733-903 for

Canadian systems) to the batteries. Observe polarity (red to +, black to -) when connecting batteries.

WARNING: Battery contains sulfuric acid which can cause severe burns to the skin and eyes, and can destroy fabrics.

Replace any leaking or damaged battery. If contact is made with sulfuric acid, immediately flush skin or eyes with water for 15 minutes and seek immediate medical attention.

Power-Up and Checkout Caution: Notify fire, central station, and/or building personnel before testing the system.

Power-Up

After applying power to the system, use the following list to check the 4010 for proper operation.

• Check that the green AC Power LED is ON.

• Check that all yellow and red LEDs are OFF.

• Use the Lamp Test procedure in “Chapter 11 - Operation” of this publication to verify that all 4010 LEDs and LCD segments work properly.

On power-up, the 4010 performs the following:

• Displays revision of boot-loader software

• Self Test - CPU Hardware Checkout

• Linkscan - Checking for a Programmer Unit Connection

• Memory Scan - Checking for Incorrect Application

• Start up - 4010 FACP Startup

Start up

Figure 3-9. 4010 Start Up Screen


3-10


System Power-Up and Checkout, Continued

Power-Up and Checkout

(continued)

If the 4010 passes its start up self-test, the FACP starts and the system is normal, the High-Level Status screen shown in Figure 3-10 displays. If troubles exist in the system, Figure 3-11 displays after pressing <ACK>.

Note: The High-Level Status screen is the first screen shown on a 4010 whether in a normal or a trouble/supervisory/fire alarm state before any keys are pressed.

SYSTEM IS NORMAL

10:09:33am Wed 27-Aug-97

Figure 3-10. System Normal (High Level Status) Screen

Custom Label

Point Type

FIRE=0 SUPERVISORY=0 TROUBLE=3

[TrueAlarm] Add 1/130

FIRST FLOOR EAST WING ROOM 12

Smoke Detector Trouble 1/3

Device Condition

Figure 3-11. System Trouble Screen

Note: If the self-test fails, the 4010 displays the error code and waits 45 seconds before attempting a restart. Refer to Chapter 10 for a list of error codes.

Checkout

Caution: Before proceeding with the acceptance test procedures, do the following:

• Notify the fire department and the central alarm receiving station if transmitting alarm conditions.

• Notify building personnel of the test so that alarm sounding devices are disregarded during the test session.

• When necessary, disable activation of alarm notification appliances and speakers to prevent their sounding.


First of

Three

Troubles

3-11


System Power-Up and Checkout,

Continued

Acceptance Test When finished with the original installation and all modifications, conduct a complete operational test on the entire installation to verify compliance with applicable NFPA standards. Testing should be conducted by a Simplex-trained technical representative in the presence of a representative of the Authority

Having Jurisdiction, and the customer’s representative. Follow the procedures outlined in Chapter 7 “Inspection, Testing, and Maintenance” of NFPA Standard

72-1996 and the following steps.

1. Activate an initiating device (smoke, pull, etc.) and check that all active notification appliances (strobes, horns, etc.) function. Reset the alarm initiating device, the FACP, and any other associated equipment. Repeat this step for each initiating device.

2. Remove AC power, activate an initiating device, and check that active notification appliances sound, and alarm indicators illuminate. Measure the battery voltage with notification appliances active. Replace any battery with a voltage of less than 24VDC and reapply AC power.

Note: Step 2 requires fully charged batteries. If batteries are new or discharged due to a recent power outage, allow the batteries to charge for 48 hours before testing. Refer to “Periodic Testing and

Maintenance” section for more information on testing batteries.

3. Reapply AC power and check that all yellow and red LEDs are OFF and the green AC Power LED is ON.

Caution: Notify fire, central station, and/or building personnel when you finish testing the system.

3-12


Periodic Testing and Maintenance

Overview

Battery Testing Information

Periodic testing and maintenance of the FACP, all initiating and notification devices, and any other associated equipment is essential to ensure proper and reliable operation. Test and maintain the FACP according to the schedules and procedures outlined in the following publications:

• NFPA Standard 72-1996, Chapter 7, “Inspection, Testing, and

Maintenance.”

• Installation Instructions for the peripheral devices installed in your system.

Correct any trouble condition or malfunction immediately.

Periodic testing and maintenance of the system batteries must be done to ensure proper and reliable back-up operation. Test and maintain the system batteries using the following information.

All sealed lead-acid batteries in fire alarm service should be tested annually.

Replace all sealed lead-acid batteries that have been in service for four or more years.

It is recommended that a battery tester made specifically for checking sealed lead-acid batteries be used. Such a tester is available under Service Part No.

553-602.

If a battery tester is unavailable, the “voltage response test” described in the following information can be used to detect batteries with very low capacity or shorted cells.

Caution: A defective battery charger circuit can cause battery failure.

Check the condition of the battery charger when either a battery tester or a voltage response test reveals weakened batteries.

Voltage Response Test

1. Disconnect battery from system.

2. Connect a digital voltmeter across the battery.

3. Connect the appropriate sized resistor(s) (see Table 3-1) across the battery’s terminals for the listed test time.

Caution: Resistors will get hot during test! Use 12AWG wire for battery-to-resistor hookup.

4. Record the end voltage reading.

5. Treat the battery as described in Table 3-2.


3-13


Periodic Testing and Maintenance,

Continued

Battery Testing Information

(continued) Table 3-1. Battery Testing

Watts Part No. and Description Test Time

(Ohms)

12

12

12

12

8

10

18

25

4.5

4.0

2.0

1.5

50

50

100

100

380-031 (adj to 4.5 Ohm) 2 Seconds

380-031 (adj to 4 Ohm) 2 Seconds

380-031 (3 in parallel)


2 Seconds

2 Seconds

12

6*

33

50

1.0

1.0

150

150



2 Seconds

4 Seconds

12 110 1.0 150 382-090 (3 in parallel) 4 Seconds

*Test 2 batteries in series for 12V

Table 3-2. Battery Readings and Instructions

If end voltage reading of battery is: Instructions

11.8V or more Put in Service

11.7V to 11.0V Charge Battery*

10.9V or less Discard Battery

*Retest battery after charging

Discard battery after four or more years of service. Dispose of according to manufacturer’s guidelines.

3-14


Overview

Cautions and Warnings

In this Chapter

Chapter 4

Quick CFIG

The Quick CFIG option provides you with the ability to quickly and automatically program the components and features of the 4010. Quick CFIG is especially useful for programming basic system components following a new installation, and for adding components to an existing installation.

Quick CFIG functions include the following:

• Reconfigure All Hardware

• Autodetect all new hardware added since CFIG was last saved

• Restore the Factory CFIG

• Accept default settings for system options

• Edit settings of system options

Be alert to the following when using Quick CFIG:

• WARNING: The 4010 System will NOT continue to operate as a Fire

Alarm System during the programming of Quick CFIG operations.

• Quick CFIG performs an IDNet duplicate address search, and terminates if duplicate addresses are found.

• Using the Quick CFIG options changes the 4010 configuration. When changing the configuration, information could be lost.

• Quick CFIG is not allowed if a DACT or Network card is installed. Use

Quick CFIG first, and then program the DACT or network card.

• Class A Adapters are not automatically detected by Quick CFIG. Refer to

Chapter 6 for information on programming a Class A NAC.

• TrueAlert Non-Addressable functions are not accessible through Quick

CFIG. You must manually program the appropriate NACs with the

TrueAlert point type to enable TrueAlert operation. Refer to Chapter 6 for information on manually programming a NAC’s point type.

• Quick CFIG automatically configures the hardware device type for a 4009

(4009A, R4009A, 4009A8, R4009A8). All 4009 NACs are set for Class B operation and assigned a point type of SSIGNAL.


Topic

Reconfigure All Hardware

Auto Detect New Hardware

Restore Factory CFIG

Accept Default Settings for System Options

Edit Settings for System Options

See Page #

4-2

4-3

4-4

4-5

4-6

4-1


Reconfigure ALL Hardware

Overview This option starts the 4010 with a new configuration. If a configuration already exists and this option is selected, it clears the current configuration and adds all currently connected devices to the CFIG.

Procedure then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.

Please Wait . . .

Fire Alarm Operation Suspended

HARDWARE> is displayed and then press <ENTER>. A warning appears, indicating that this will delete the current configuration.

WARNING <Enter> to Continue WARNING

This will DELETE current configuration need to press <ENTER> to confirm the deletion.


Press <Enter> to confirm deletion

A message appears indicating that Quick CFIG is reconfiguring the hardware.

This message is followed by another, which indicates that Quick CFIG is scanning for IDNET devices. The Reconfigure ALL Hardware function is complete when a message similar to the following appears.

** Automatic Hardware Detection Completed **

Total IDNet Devices Added: 128

Refer to “Save CFIG Option” at the end of this chapter for information on saving the CFIG once you have reconfigured the hardware.

4-2


Auto Detect NEW Hardware

Overview This option adds new hardware that is not currently in the CFIG. All existing hardware and programming remains the same.




HARDWARE> is displayed and then press <ENTER>. A warning appears, indicating that this will change the current configuration.


This will CHANGE current configuration need to press <ENTER> to confirm the hardware detection operation.


Press <Enter> to confirm Detect NEW

A message appears indicating that Quick CFIG is reconfiguring the hardware.

This message is followed by another, which indicates that Quick CFIG is scanning for IDNET devices. The Auto Detect NEW Hardware function is complete when a message similar to the following appears.

** Automatic Hardware Detection Completed **

Total IDNet Devices Added: 128

Refer to “Save CFIG Option” at the end of this chapter for information on saving the CFIG once you have reconfigured the hardware.

4-3


Restore Factory CFIG

Overview This option restores the 4010 to its original (factory default) CFIG. All pseudo points (Analog and Digital) are cleared, Custom Control is erased, etc.




CONFIG.> is displayed and then press <ENTER>. A warning appears, indicating that this will delete the current configuration.


This will DELETE current configuration that the system is restoring the factory default configuration.

** Restoring Factory Default Panel **

This message is followed by a series of internal test messages. The High-Level

Status screen appears when the operation is complete.

4-4


Accept Default Settings for System Options

Procedure then press <ENTER>. A warning appears, indicating that the that the 4010 is no longer in the Fire Alarm Operation mode.



OPTIONS> is displayed and then press <ENTER>. A warning appears, indicating that this operation may change current settings.


This may CHANGE current setting that the system is restoring the default settings for system options.

** Default Settings Restored **

4-5


Edit Settings for System Options

Overview Once this action is selected from the Quick CFIG menu, you can set these options by scrolling through the choices shown in Table 4-1 and selecting the appropriate settings for each. For timer options, selecting “0”initiates the action immediately.



Fire Alarm Operation Suspended displayed and then press <ENTER>.

5. Use the <NEXT> and <PREVIOUS> keys to scroll through the system options. Edit each of the system options as necessary, using the information in Table 4-1. Refer to Chapter 7 for specific information on system options.

Table 4-1. System Options and Available Settings

System Option Settings

Time/Date Format

Active Status Reminder

Alarm Silence/Reset Inhibit

Alarm Cut-out Timer

Door Drop on Alarm

Door Drop on AC Power Loss

Audible NAC Operation

Choose 12 or 24-Hour Format

Choose:

• On/Off; default Off

• Set Reminder Interval (1-12 Hours); default = 8

• Signal Duration (0-60 Secs.) 0=ON til clear default = 5

Choose a timer range from 0 - 60 Mins; default = 0


Choose a timer range from 0 - 60 Secs; default = 0


Choose:

• Audible NACs: Steady

• Audible NACs: Slow March

• Audible NACs: Fast March

• Audible NACs: Temporal (default)


4-6


Edit Settings for System Options,

Continued

Procedure (continued)

System Option

Table 4-1. System Options and Available Settings (continued)

Settings

Visual NAC Operation

TrueAlert Non-Addressable

NAC Horn Operation

Depleted Battery Cutout

Choose:

• Visual NACs: Steady

• Visual NACs: Slow March

• Visual NACs: Fast March

• Visual NACs: Temporal

• Visual NACs: Synchronous (default)

Choose:

• Temporal (default)

• Steady

• Slow March

Choose ON or OFF; default = OFF. Note: Set Depleted

Battery Cutout to ON for suppression release systems.

Choose a timer range from 0 - 60 Secs; default = 30

Choose ON or OFF; default = OFF

Stagger Start AHU

Enable City Circuit

Expansion Power

Suppression Release

(refer to “Chapter 7 - System

Options” for more information)

Choose ON or OFF; default = OFF

Choose:

• ON or OFF (default = OFF)

• Dual Detector (default = OFF)

• Detector Delay (default = 60)

• Manual Delay (default = 30)

Change Passcode Designations Edit Passcodes*

Logical Zone Labels* Apply Zone Labels

*Available under Quick-CFIG System Options Menu Only.

4-7


Save CFIG Option

Overview Depending on whether or not you will be doing additional programming (such as changing hardware and point types, etc.), you may want to save the CFIG following the Quick CFIG operation.

The Save CFIG option saves all information to the 4010 configuration after or

during programming. Choose this option if you wish to save all of your edits and modifications you made during your programming session to the 4010 configuration. You can Save CFIG by choosing the menu option or pressing

Exit/Clear to back out of Programming mode and then choosing the Save CFIG option from the 4010 prompts.

When exiting the programming mode, your 4010 re-boots and becomes operational as a fire alarm system.

4-8


Overview

In this Chapter

Chapter 5

Configuring Cards

The 4010 allows you to manually configure each option card in the system. This chapter describes how to add, delete, or modify optional cards in the 4010

FACP.

Note: The system must be powered down before cards are added to the system.


Topic

Card Addresses

Adding, Deleting, or Modifying 4010 Cards

See Page #

5-2

5-3

5-1


Card Addresses

Card Addresses All card addresses (whether hardware or logical cards) are shown in Table 5-1.

Table 5-1. 4010 Card Addresses

Card Address Reserved Cards

4

5 - 7

8

9 - 14

15 - 16

17

18

19

20

21

22

23

Dual RS232 or Service Modem

Unused

4120 Network or DACT cards

N2 Slaves (24-Point I/O or LCD Annunciator)

Unused

4009 IDNet NAC Extender

System Digital Pseudo Points

User Digital Pseudo Points

System Analog Pseudo Points

User Analog Pseudo Points

System List Pseudo Points

User List Pseudo Points

5-2


Adding, Deleting, or Modifying 4010 Cards

Overview This section describes how to add, delete, or modify cards in a 4010 FACP. Be aware of the following configuration rules when adding, deleting, or modifying cards.

• Cards 1 through 3 and 17 through 23 cannot be deleted.

• Certain cards are mutually exclusive. For example:

-

One 4120 Network Card or One DACT is allowed.

-

One Dual RS232 Card or One RS232/Modem is allowed.

• The City Circuit card and Expansion Power Supply are enabled via the

System Options menu. Refer to Chapter 7 for information on doing this.

• The DACT and Network cards are programmed and added to the 4010

FACP via the 4010 PC Programming tool.

Adding a Card Use the following steps to add a card to the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.



6. Press <NEXT> or <PREVIOUS> to scroll through the choices listed below.

• RS232 Card (Card Address 4)

• Modem Card (Card Address 4)

• 24IO Card (Card Address 9 through 14)

• LCD (Card Address 9 through 14)

7. Once the desired card is displayed, press Enter. The RS232 and Modem cards are automatically set to card address 4. Follow the prompts to confirm this action.


5-3


Adding, Deleting, or Modifying 4010 Cards,

Continued

Adding a Card (continued) 8. When first adding a 24-Point I/O or LCD Annuciator cards to the 4010, you must choose an available address of 9 through 14. (The system automatically picks the next available address.) When selecting 24IO or

LCD and then pressing Enter, the following figure appears.

Card=[09]

Card Type=LCD Card

Deleting a Card select the appropriate address for your card, and then press Enter. Follow the prompts to confirm this action.

Use the following steps to delete a card from the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.



Caution: Deleting 4010 Cards also deletes any modes and SMPL

(Custom Control) programming associated with that

card.

5. After selecting Delete a 4010 Card as your option under the Configure

Cards menu, press <NEXT> or <PREVIOUS> to scroll through the cards configured in the 4010 FACP.

6. When the card you wish to delete is displayed, press Enter.

7. Follow the prompts to confirm this action.


5-4



Continued

Modifying a Card Use the following steps to Modify a card in the 4010 FACP. The only cards you can modify from this menu are the Dual RS232, Modem/RS232, and LCD

Annunciator cards. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.


Fire Alarm Operation Suspended displayed and then press <ENTER>. displayed. the 4010 FACP.

7. When the card you wish to modify is displayed, press Enter. The available modifications you can make per card are shown in Table 5-2. The 4010 prompts you on which keys to press to execute different options.


5-5



Continued

Modifying a Card (continued)

4010 Card

RS232 Card

Port A and Port B

Modem Card

Port A and Port B

LCD Card

Table 5-2. Modification Options for 4010 Cards

Modifications

Device: PRT40U (unsupervised 40-Column printer)

PRT40S (supervised 40-Column printer

PRT80U (unsupervised 80-Column printer)

PRT80S (supervised 80-Column printer)

UNUSED

COMMAND (For use with a CRT on Port B Only)

Baud Rates: 1200, 2400, 4800, 9600, 19200, 38400

Parity: NONE, EVEN, ODD

Note: To print 4010 reports, you must have an 80-column printer.

Device: PRT40U (unsupervised 40-Column printer)

PRT40S (supervised 40-Column printer

PRT80U (unsupervised 80-Column printer)

PRT80S (supervised 80-Column printer)

UNUSED

COMMAND (For use with a CRT on Port B Only)

Baud Rates: 1200, 2400, 4800, 9600, 19200, 38400

Parity: NONE, EVEN, ODD

Enter selects ALL events to report to the LCD, Default Key Operation, and Default Overrides.

Pressing Next allows you to choose Yes or No for the following:

EVENTS: Fire, Supervisory, Trouble, Reset/Silence, Test,

KEY OPERATION: Fire Ack, Supv Ack, Trouble Ack, System Reset,

OVERRIDE ON ALARM: Fire Ack, Supv Ack, Trouble Ack, System

Reset, Alarm Silence

5-6


Overview

In this Chapter

Chapter 6

Configuring Points

The 4010 allows you to manually program each point in the system. This chapter describes how to add, delete, edit, etc., points in the 4010 FACP. The following information assumes you have all cards properly installed. If your cards are not installed properly or need modification, refer to “Chapter 5 -

Configuring Cards.”



Overview 6-1

Configure Points Menu

Configuring TrueAlarm Points

Configuring ZAM/IAM/RIAM Points

Configuring Relay and NAC Points

Configuring Digital and Analog Pseudo Points

Configuring 24-Point I/O Points

6-2

6-3

6-6

6-9

6-11

6-14

Configuring List Points

Configuring User-Defined SW/LED Points

6-18

6-21

6-1


Configure Points Menu

Configuring Points Menu All options for configuring 4010 points are located in the Configure Points menu. Figure 6-1 shows the structure of this menu.

Save CFIG

Programming Menus

Configure Configure

Points Cards

• TrueAlarm

• ZAMs/IAMs/RIAMs

• Relay

• NACs

• Digital Pseudos

• Analog Pseudos

• 24-I/O Outputs

• 24-I/O Inputs

• Lists

• User Defined SW/LED

Figure 6-1. Configure Points Menu

6-2


Configuring TrueAlarm Points

Overview This section describes how to Add an IDNet Point, Edit a TrueAlarm Point, and

Delete a TrueAlarm Point.

Add IDNet Point Use the following steps to Add an IDNet point to the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.



Edit TrueAlarm Point displayed and then press <ENTER>.

<TRUEALARM> is displayed and then press <ENTER>.

IDNet Point> is displayed and then press Enter.

7. The first unused point in the system (for example, M1-1) is displayed. Press

<NEXT> or <PREVIOUS> to scroll through your list of unused points until the desired point is displayed and then press Enter.


Note: If there are 250 devices present in the 4010 (maximum allowed), the system informs you that the IDNet channel is full and does not allow you to add any more points.

Use the following steps to Edit a TrueAlarm point in the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.





6-3


Configuring TrueAlarm Points,

Continued

Edit TrueAlarm Point

(continued) IDNet Point> is displayed and then press Enter.

Delete TrueAlarm Point points until the desired point is displayed and then press Enter. the desired option is displayed and then press Enter. Your choices are shown in Table 6-1.

Table 6-1. TrueAlarm Configuration Choices

Function Description

Edit Device Type

(See Note 1)

Changes the Hardware Device Type of the Point

Edit Point Type

(See Notes 1 and 2)

Changes the Software Point Type of the Point

Edit Point Label

(See Note 2)

Clear Point Label

(See Note 2)

Changes the 40-Character Label of the Point

Blanks the 40-Character Label of the Point

Edit Mode

(See Note 1)

Changes the Mode of Operation for the Point

Notes:

1. For a complete list of your choices for these edit functions, refer to “Appendix A. Device and Point Types.”

2. To complete these functions, refer to their appropriate section in this publication.

Use the following steps to delete a TrueAlarm point from the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.




6-4


Configuring TrueAlarm Points,

Continued

Delete TrueAlarm Point

(continued) displayed and then press <ENTER>.


6. Use <NEXT> or <PREVIOUS> to scroll through your choices until

<DELETE IDNet POINT> is displayed and then press Enter. points until the desired point is displayed and then press Enter.


Caution: Any Custom Control equations and LED/Switch Modes referencing the deleted point are also deleted.

6-5


Configuring ZAM/IAM/RIAM Points

Overview This section describes how to Add, Edit, and Delete an ZAM/IAM/RIAM point.

Adding ZAM/IAM/RIAM Point Use the following steps to add a ZAM/IAM/RIAM point to the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.



Editing a ZAM/IAM/RIAM Point

<ZAMs/IAMs/RIAMs> is displayed and then press <ENTER>.

IDNet Point> is displayed and then press Enter.

7. The first unused point in the system (for example, M1-1) is displayed. Press

<NEXT> or <PREVIOUS> to scroll through your list of unused points until the desired point is displayed and then press Enter.


Note: If there are 250 devices present in the 4010 (maximum allowed), the system informs you that the IDNet channel is full and does not allow you to add any more points.

Use the following steps to edit a ZAM/IAM/RIAM point in the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.





6-6


Configuring ZAM/IAM/RIAM Points,

Continued

Editing a ZAM/IAM/RIAM Point

(continued) IDNet Point> is displayed and then press Enter.

ZAM/IAM/RIAM points until the desired point is displayed and then press

Enter. the desired option is displayed and then press Enter. Your choices are shown in Table 6-2.

Table 6-2. ZAM/IAM/RIAM Configuration Choices


Edit Device Type

(See Notes 2 and 3)


Edit Point Type

(See Notes 2 and 3)


Changes the 40-Character Label of the Point Edit Point Label

(See Note 3)

Clear Point Label

(See Note 3)


Edit Mode

(See Note 1)


Notes:

1. This function not allowed for ZAM/IAM/RIAM points.




6-7


Configuring ZAM/IAM/RIAM Points,

Continued

Deleting ZAM/IAM/RIAM IDNet

Point

Use the following steps to delete a ZAM/IAM/RIAM point from the 4010

FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.




6. Use <NEXT> or <PREVIOUS> to scroll through your choices until

<DELETE IDNet POINT> is displayed and then press Enter. points until the desired point is displayed and then press Enter.


Caution: Any Custom Control equations and LED/Switch Modes referencing the deleted point are also deleted.

6-8


Configuring Relay and NAC Points

Overview This section describes how to configure a Relay, NAC, or User-Defined

SW/LED point. The following assumes that you have chosen Relay, NAC, or

User-Defined SW/LED as your option after entering the Configure Points menu.

Procedure Use the following steps to configure a Relay or NAC point in the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.



<RELAY> or <NAC> is displayed and then press <ENTER>. points until the desired point is displayed and then press Enter. the desired option is displayed and then press Enter. Your choices are shown in Table 6-3.


6-9


Configuring Relay and NAC Points,

Continued

Procedure (continued)

Table 6-3. Relay and NAC Point Configuration Choices


Edit Device Type

(See Note 2)


Edit Point Type

(See Notes 2 and 3)



(See Note 3)

Clear Point Label

(See Note 3)


Edit Mode

(See Notes 1 and 2)


Notes:

1. This function not allowed for NAC and Relay points.



6-10


Configuring Digital and Analog Pseudo Points

Overview This section describes how to configure Digital and Analog Pseudo Points.

Configuring Digital Pseudo

Points

This section describes how to configure digital pseudo points P76 through P150.

P1 through P75 are system points and cannot be edited. Use the following information to configure digital pseudo points in a 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.



<DIGITAL PSEUDOS> is displayed and then press <ENTER>. desired point (P76 through P150) is displayed and then press Enter. the desired option is displayed and then press Enter. Your choices are shown in Table 6-4.


6-11


Configuring Digital and Analog Pseudo Points,

Continued

Configuring Digital Pseudo

Points (continued) Table 6-4. Digital Pseudo Point Configuration Choices


Edit Device Type

(See Note 1)

Edit Point Type

(See Notes 2)


Changes the Software Point Type of the Point.

Your choices are:

• Utility Point

• Fire Point

• Trouble Point

• Supervisory


(See Note 2)

Clear Point Label

(See Note 2)


Edit Mode

(See Note 1)


Notes:

1. This function not allowed for Digital Pseudo points.


Configuring Analog Pseudo

Points

This section describes how to configure analog pseudo points A27 through A50.

A1 through A26 are system points and cannot be edited. Use the following information to configure analog pseudo points in a 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.




6-12


Configuring Digital and Analog Pseudo Points,

Continued

Configuring Analog Pseudo

Points (continued) displayed and then press <ENTER>.

<ANALOG PSEUDOS> is displayed and then press <ENTER>. desired point (A27 through A50) is displayed and then press Enter. the desired option is displayed and then press Enter. Your choices are shown in Table 6-5.

Table 6-5. Analog Pseudo Point Configuration Choices


Edit Device Type

(See Note 1)


Edit Point Type

(See Notes 2 and 3)

Edit Point Label

(See Note 3)

Changes the Software Point Type of the Point.

Your choices are:

• Analog

• Timer

• Counter


Clear Point Label

(See Note 3)


Edit Mode

(See Note 1)


Notes:

1. This function not allowed for Analog Pseudo points.

2. For a complete list of your choices for these edit functions, refer to “Appendix B. Hardware and Pseudo Points.”


6-13


Configuring 24-Point I/O Points

Overview The 4010 allows you to use the 4605 24-Point I/O card to monitor input points

(switches) and control output points (Lamps, Tone-alerts, and Relays).

Configuring 24-Point Input

Points

Use the following steps to configure input points on the 24-Point I/O card. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.



IO INPUTS> is displayed and then press <ENTER>. desired point is displayed and then press Enter. the desired option is displayed and then press Enter. Your options are shown in Table 6-6.

6-14


Configuring 24-Point I/O Points,

Continued

Configuring 24-Point Input

Points (continued)

Table 6-6. 24-Point Input Points Configuration Choices


Edit Device Type

Edit Point Type

Changes the Hardware Device Type of the Point.

Choose Input or Output

Changes the Software Point Type of the Point. Your choices for Input points are:

• USWITCH (2-position unsupervised switch)

• OSWITCH (2-position Open supervised switch)

• SSWITCH (2-position Open/Short supervised

Switch)

• TSWITCH (3-position supervised switch)

Changes the 40-Character Label of the Point Edit Point Label*

Clear Point Label* Blanks the 40-Character Label of the Point

Edit Mode Changes the Mode of Operation for the Point. Your choices for modes are:

• SMPL (SMPL controlled)

• Ack (Acknowledge)

• Fire Ack (Fire alarm acknowledge)

• Supv. Ack (Supervisory alarm acknowledge)

• Trouble Ack (Trouble acknowledge)

• Reset (System reset)

• LTEST (Lamp test)

• ONOFF (On/Off switch)

• TOF (Toggle On Off switch)

• PBT (Push button track)

• PBH (Push button hold)

• DE (Disable/enable)

• TDE (Toggle disable/enable)

*This function not allowed for 24-Point Input points.


6-15



Continued

Configuring 24-Point Output

Points

Use the following steps to configure output points on the 24-Point I/O card. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.



IO OUTPUTS> is displayed and then press <ENTER>. desired point is displayed and then press Enter. the desired option is displayed and then press Enter. Your options are shown in Table 6-7.


6-16



Continued

Configuring 24-Point Output

Points (continued) Table 6-7. 24-Point Output Point Configuration Choices


Edit Device Type Changes the Hardware Device Type of the Point.

Choose Input or Output

Edit Point Type Changes the Software Point Type of the Point. Your choices for Output points are:

• LAMP (Lamp or LED output)

• PIEZO (Piezo output)

• RELAY (Generic relay)

• RRELAY (Relay on ‘til reset)

Changes the 40-Character Label of the Point Edit Point Label*

Clear Point Label* Blanks the 40-Character Label of the Point

Edit Mode Changes the Mode of Operation for the Point. Your choices for modes are:

• SMPL (SMPL controlled)

• Fire (Fire alarm LED)

• Supervisory (Supervisory LED)

• Trouble (Trouble LED)

• Disable (Disable LED)

• On (ON LED)

• Off (OFF LED)

• LF (Local fire acknowledge)

• LS (Local supervisory acknowledge)

• LT (Local trouble acknowledge)

*This function not allowed for 24-Point Output points.

6-17


Configuring List Points

Overview

Configure a List

This section describes how to configure a List.

Use the following steps to configure a List in the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.



<LIST> is displayed and then press <ENTER>. desired list is displayed and then press Enter. the desired option is displayed and then press Enter. Your choices are shown in Table 6-8.

Table 6-8. List Configuration Choices


Add Point (See Note 2)

Delete Point

Allows you to add specific point(s) to a List

Allows you to delete specific point(s) from a List

Delete ALL Points Allows you to delete all points from a List

Edit Point Label (See Notes 1 and 3) Allows you to change the 40-Character label of the List

Clear Point Label (See Notes 1 and 3)

Blanks the 40-Character Label of the List

Edit Point Type (See Notes 1, 2, and 3) Changes the Point Type for the List

Notes:

1. This function not allowed for all Lists.

2. For a complete list of your choices for these edit functions, refer to “Appendix B. Hardware and Pseudo Points.”



6-18


Configuring List Points,

Continued

Add a Point to a List Use the following steps to Add a point to a List on the 4010 FACP. A

TrueAlarm point is used as an example in the following steps.

1. After selecting Lists as your option under the Configure Points menu, use

<NEXT> or <PREVIOUS> to scroll through your lists until the desired list is displayed and then press <FUNCTION>.

Device Type press Enter (Figure 6-2 is displayed).

IDNet Device: 3-1


Figure 6-2. Add a Point to a List Screen in the focus brackets ([ ]) until the desired device type is displayed (in this example, TrueAlarm).

4. Press the Right Arrow to move the focus brackets ([ ]) to the Add option.

Delete a Point from a List add to the list.

6. Once the correct point is displayed, press Enter to add that point to the list.

Repeat Steps 5 and 6 to Add all desired points to your chosen List.

Use the following steps to Delete a point from a List on the 4010 FACP. A

TrueAlarm point is used as an example in the following steps.


<NEXT> or <PREVIOUS> to scroll through your lists until the desired list is displayed and then press Enter. displayed and then press Enter. press Enter.



6-19


Configuring List Points,

Continued

Delete ALL Points from a List Use the following steps to Delete ALL points from a List on the 4010 FACP.


<NEXT> or <PREVIOUS> to scroll through your lists until the desired list is displayed and then press <FUNCTION>. then press Enter.


6-20


Configuring User-Defined SW/LED

Overview This section describes how to configure a User-Defined Switches and LEDs.

The following assumes that you have chosen User Defined SW/LED as your option after entering the Configure Points menu.

Configure a User-Defined

Switch or LED

Use the following steps to configure a User-Defined Switch or LED in the 4010

FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.



<USER DEFINED SW/LED> is displayed and then press <ENTER>. below. Once your choice is displayed, press Enter.

-

User LED 1

-

User LED 2

-

User LED 3

-

User Defined Key 1

-

User Defined Key 2 the desired option is displayed and then press Enter. Your choices are shown in Table 6-9.


6-21


Configuring User-Defined SW/LED,

Continued

Configure a User-Defined

Switch or LED (continued)

Edit a Mode of a User-Defined

SW/LED

Table 6-9. User-Defined SW/LED Configuration Choices


Edit Device Type

(See Notes 1 and 2)


Changes the Software Point Type of the Point Edit Point Type

(See Note 2)

Edit Point Label

(See Note 1)

Clear Point Label

(See Note 1)



Edit Mode Changes the Mode of Operation for the Point

Notes:

1. This function not allowed for User-Defined SW/LED.

2. Your Point Type choices for LEDs are Yellow LED or NON-

Yellow LED. The switches default to USWITCH point type and is not editable.

This section describes how to edit the mode of a User-Defined SW/LED. Use the following steps to edit the mode of a User-Defined Switch or LED in the

4010 FACP.

1. After selecting User Defined SW/LED as your option under the Configure

Points menu, press <NEXT> or <PREVIOUS> to scroll through the choices listed below. Once your choice is displayed, press Enter.

• User LED 1

• User LED 2

• User LED 3

• User Defined Key 1

• User Defined Key 2

Edit Mode is displayed and then press Enter. Your modes for Switches and

LEDs are shown in Table 6-10.


6-22


Configuring User-Defined SW/LED,

Continued

Edit a Mode of a User-Defined

SW/LED (continued) Table 6-10. User-Defined SW/LED Modes

User-Defined SW/LED Modes

Switch Modes

LED Modes

• SMPL

• Ack

• Fire Ack

• Supv. Ack

• Trouble Ack

• Reset

• Silence

• LTEST

• ON-OFF

• TOF

• PBT

• PBH

• DE

• TDE

• SMPL

• Fire

• Supervisory

• Trouble

• Disable

• On

• Off

• LF

• LS

• LT

3. Select the appropriate mode and then press Enter.


6-23


This is blank


Overview

In this Chapter

Chapter 7

System Options

This chapter describes how to set system options such as Time/Date Format,

Active Status Reminder, etc. These options are custom functions for the 4010.

The System Options (shown in Figure 7-1) can also be set from the Quick-CFIG menus.


Topic

System Options Menu

Time/Date Format

Active Status Reminder

Silence/Reset Inhibit

Alarm Cut-Out Timer

Door Drop on Alarm

Door Drop on AC Loss

Audible and Visual NAC Operation

TrueAlert Non-Addressable Horn Operation

Depleted Battery Cut-Out

Stagger Start AHUs

Enable City Circuit

Expansion Power

Single Station

Suppression Release

See Page #

7-7

7-8

7-9

7-10

7-11

7-12

7-13

7-2

7-3

7-4

7-5

7-6

7-14

7-15

7-16

7-1


System Options Menu

Introduction All 4010 system options are accessed via the System Options menu choice, which is located in the Programming menu tree. Figure 7-1 shows the structure of the System Options menu.

Configure

Programming Menus

System Custom

Cards Options Control

• Time/Date Format

• Active Status

Reminder

• Silent/Reset

Inhibit

• Alarm Cut-Out Timer

• Door Drop on Alarm

• Door Drop on AC

Loss

• Audible NAC

Operation

• Visual NAC

Operation

• Depleted Batt.

Cutout

• Stagger Start AHUs

• Enable City Circuit

• Expansion Power

• Single Station

• Suppression Release

• TrueAlert Horn

Operation

Figure 7-1. System Options Menu

7-2


Time/Date Format

Overview

Setting the Time Format

When setting the Time/Date Format, you are only setting the Time format in 12 or 24-hour format. That is, the time is displayed in 12-hour format with the AM

(morning) or PM (afternoon) indications or in 24-hour (military style) format.

The date is always displayed in the following format and cannot be changed:

Wed 27-Aug-97

Day of week, date, month, year

The Time format directly affects how time is displayed on the 4010 not only at the high-level status screen but in the Historical Logs.

Use the following steps to set the Time format on the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode. displayed and then press <ENTER>.

<TIME/DATE FORMAT> is displayed and then press <ENTER>.

Hour or 24 Hour is displayed and then press Enter.


7-3


Active Status Reminder

Overview The Active Status Reminder option allows you to set an interval and duration in which the 4010 reminds operators of the FACP that a FIRE, SUPV, or TBL condition still exists in the panel. Your choices are as follows:

• ON/OFF Status (turn the option ON or OFF). A setting of ON activates the option with a default Reminder Interval of 8 hours with a 5-second

Acknowledge Option signal duration.

• Reminder Interval (set a reminder interval from 1-12 hours).

• Acknowledge Option (set a signal duration of 1-60 seconds). A setting of 0 seconds has the following effect:

-

For a Trouble condition, the signal sounds until the condition is acknowledged at the front panel.

-

For an Alarm (FIRE) condition, the signal sounds until the alarm condition is cleared.

Setting the Active Status

Reminder

Use the following steps to set the Active Status Reminder on the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode. displayed and then press <ENTER>.

<ACTIVE STATUS REMINDER> is displayed and then press <ENTER>.

Status is displayed and then press Enter.

Enter. Follow the prompts to confirm this action.

Reminder Interval is displayed and then press Enter. then press Enter. Follow the prompts to confirm this action.

10. Press <NEXT> or <PREVIOUS> to scroll through the options until

Acknowledge Option is displayed and then press Enter.

11. Press <NEXT> or <PREVIOUS> to select an signal duration from 0-60 seconds and then press Enter. Follow the prompts to confirm this action.

7-4


Silence/Reset Inhibit

Overview

Setting the Silence/Reset

Inhibit

You can inhibit the Alarm Silence/System Reset on a 4010 FACP for a set duration. The range for the Silence/Reset Inhibit timer is 0-60 minutes with zero

(No Inhibit) being the default setting.

Use the following steps to set the Silence/Reset Inhibit timer on the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode. displayed and then press <ENTER>.

<SILENCE/RESET INHIBIT> is displayed and then press <ENTER>. then press Enter.


7-5


Alarm Cut-Out Timer

Overview

Setting the Alarm Cut-Out

Timer

The Alarm Signal Cut-Out Timer allows you to set a duration for how long signals sound after an alarm. In other words, when an alarm condition exists, the signals sound until silenced. With this option set at two minutes, building signals sound on alarm for two minutes and then automatically stop sounding.

However, the alarm condition does remain active in the panel. The default setting for this option is No Cutout (meaning a manual Alarm Silence is required to shut off signals).

Use the following steps to set the Alarm Signal Cut-Out timer on the 4010

FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode. displayed and then press <ENTER>.

<ALARM CUT-OUT TIMER> is displayed and then press <ENTER>. then press Enter.


7-6


Door Drop on Alarm

Overview

Setting the Door Drop on

Alarm Timer

The Door Holder - Alarm Door Drop Timer allows the 4010 to hold doors open for a set duration during an alarm condition. After that duration has expired, the

4010 shuts off the door holder relays and the doors close. The range for the timer is 0-60 seconds with a default setting of zero seconds. To have door holders drop the doors immediately, leave the timer set to zero seconds.

Use the following steps to set the Door Holder Alarm Door Drop timer on the

4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode. displayed and then press <ENTER>.

<DOOR DROP ON ALARM > is displayed and then press <ENTER>. then press Enter.


7-7


Door Drop on AC Loss

Overview

Setting the Door Drop on AC

Loss Timer

The Door Holder - AC Fail Door Drop Timer allows the 4010 to hold doors open for a set duration during an AC power loss condition. After that duration has expired, the 4010 shuts off the door holder devices and the doors close. The range for the timer is 0-60 minutes, with a default setting of 5 minutes. To have door holders drop the doors immediately upon AC power loss, set the timer to zero minutes.

Use the following steps to set the Door Holder AC Fail Door Drop timer on the


<DOOR DROP ON AC LOSS> is displayed and then press <ENTER>. then press Enter.


7-8


Audible and Visible NAC Operation

Overview The Audible and Visible ON ‘til Silence Notification Appliance Circuits (NACs) can be set to the choices shown in Table 7-1. The default setting for the Audible

NACs is Temporal coding and the default setting for the Visible NACs is Steady.

Refer to “Appendix C - Glossary of Terms” for more information on the types of coding.

Setting the Audible or Visual

NAC Operation

Use the following steps to set the Audible and/or Visual NAC operation on the


<AUDIBLE NAC OPERATION> or <VISUAL NAC OPERATION> is displayed and then press <ENTER>.

7-1.

Table 7-1. Audible and Visual NAC Operation Settings

System Option Choices

Audible NAC Operation Choose:

• Audible NACs: Temporal*

• Audible NACs: Steady

• Audible NACs: Slow March

• Audible NACs: Fast March

Visual NAC Operation Choose:

• Visual NACs: Steady*

• Visual NACs: Slow March

• Visual NACs: Fast March

• Visual NACs: Temporal

• Visual NACs: Synchronous

* Default Settings

Follow the prompts to confirm this action.

7-9


TrueAlert Non-Addressable Horn Operation

Introduction The TrueAlert Non-Addressable Horn Operation option defines the way in which

TrueAlert Horns function when activated. The default function is Temporal.

Setting the TrueAlert Non-

Addressable Horn Option

Use the following steps to set the TrueAlert Non-Addressable Horn system option. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode. displayed and then press <ENTER>.

<QALERT HORN OPERATION> is displayed and then press <ENTER>.

7-2.

Table 7-2. Audible and Visual NAC Operation Settings

System Option Choices

TrueAlert Non-Addressable

Horn Operation

Choose:

• Temporal*

• Steady

• Slow March

* Default Settings


7-10


Depleted Battery Cut-Out

Overview This option selects the mode of operation for the 4010 FACP if an alarm occurs during an AC power loss while a Depleted Battery trouble exists. The specific operation of this option differs slightly, depending on whether you have a domestic or Canadian system.

Domestic Operation. The default setting for the option is OFF and the threshold voltage is 19.4 VDC

± 5%. Operation of this option for a domestic system is as follows:

• If the system is in alarm and a depleted battery condition occurs, any NACs that are active remain active.

• If the system in not in alarm and a depleted battery condition occurs, the

NACs are prevented from activating.

Canadian Operation. The default setting for the option is OFF and the threshold voltage is 19.4 VDC

± 5%. Operation of this option for a Canadian system is as follows:

• When a depleted battery condition occurs, power is turned off to the 4010.

AC power must be restored to re-activate the 4010.

Setting the Depleted Battery

Cut-Out

Use the following steps to set the Depleted Battery Cut-Out on the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode. displayed and then press <ENTER>.

<DEPLETED BATT. CUTOUT> is displayed and then press <ENTER>. press Enter.


7-11


Stagger Start AHUs

Overview

Setting the Stagger Start AHU

Delay Timer

This option allows you to set the 4010 to stagger start any Air Handling Units

(AHUs) control points (point types AHUR, AHUO, and AHUF) in the 4010

FACP . This option protects against power spikes that may cause the circuit breakers to trip when AHUs start simultaneously. The range for stagger starting the AHUs is 0-60 seconds. The default setting for this option is 30 seconds. A setting of zero allows the AHUs to start immediately.

The 4010 displays an AHU Stagger Start message when the sequence starts and an

AHU Stagger Start Complete message when the sequence ends.

Use the following steps to set the Stagger Start AHUs timer on the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode. displayed and then press <ENTER>.

<STAGGER START AHUS> is displayed and then press <ENTER>. then press Enter.


7-12


Enable City Circuit

Overview

Setting the Enable City Circuit

Option

You must enable the City Circuit via the 4010 System Options menu when installing the city circuit card. The default setting for the city circuit is OFF.

Use the following steps to set the Enable City Circuit option on the 4010 FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode. displayed and then press <ENTER>.

<ENABLE CITY CIRCUIT > is displayed and then press <ENTER>. press Enter.


7-13


Expansion Power

Overview

Setting the Expansion Power

Option

You must enable the Expansion Power Supply via the 4010 System Options menu when installing the expansion power supply. The default setting for the expansion power supply is OFF.

Use the following steps to set the Expansion Power Supply option on the 4010

FACP. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode. displayed and then press <ENTER>.

<EXPANSION POWER> is displayed and then press <ENTER>. press Enter.


7-14


Single-Station

Overview

Enabling Single-Station

Single station has the following effect.

• Sounder activates when the associated sensor is above its alarm threshold.

• Sounder silences when sensor is below its alarm threshold.

• Alarm remains at panel until reset is performed.

Use the following steps to set the Single-Station option on the 4010 FACP. The default setting for this option is ON. and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode. displayed and then press <ENTER>.

<SINGLE STATION OVERRIDE> is displayed and then press

<ENTER>. press Enter.


7-15


Suppression Release

Overview

Example

In order for the Suppression Release function of the 4010 to work correctly you must follow certain steps.

Step Description

1 Assign the appropriate point types to your Suppression Release monitoring devices.

2

3

Add the points in Step 1 to the appropriate Suppression Release lists.

Assign the appropriate point types to your Suppression Release NACs.

4 Add the NACs in Step 3 to the appropriate Suppression Release output list.

Use the following information to program the 4010 for Suppression Release functions. After you are finished programming for suppression release, the 4010 is set up for the default values for delay and dual detector operation. In the following example, a TrueAlarm point is used.

Note 1. Do not use the PC Programmer to change the point type of a suppression release point; doing this causes the PC Programmer to change the point type back to its default setting. To change the point type of a suppression release point, you must use the front panel programmer.

Note 2. Set the Depleted Battery Cutout (discussed earlier in this chapter) to

ON for suppression release systems.

In the following example, the list definitions are as follows. Refer to Appendix

B for specific List definitions.

-

L9 Automatic Suppression Release Points

-

L10 Suppression Manual Release Points

-

L11 Suppression Release Abort Points

-

L12 Suppression Release Output Points

For example: any points in L9 have a default delay of 60 seconds before L12 activates, any points in L10 have a default delay of 30 seconds before L12 activates. Once points in L10 are activated, L12 activates after the default 30second delay regardless of the state of abort switches in L11. When Dual

Detector operation is ON, this requires two points in L9 to activate before suppression release operation is initiated.

WARNING: When any points in L11 are activated during the cycling of a delay function, the delay timers continue to count down to zero. If you release the abort switch that is in L11 after the timer has reached zero,

points in L12 activate immediately.


7-16


Suppression Release,

Continued

Step 1. Turn ON Suppression

Release Press <ENTER> in response to the prompts to access the Programming menu.

Press <ENTER> when System Options is displayed.

Step 2. Assign Suppression

Monitor Point Types to

Suppression Release Monitor

Points

Step 3. Create Suppression

Release Monitor Lists

<ENTER> when <SUPPRESSION RELEASE> is displayed.

4. At the On/Off Status screen press Enter. Press Next to select ON and then press Enter. Follow the prompts to activate this function.

5. Press Exit/Clear until the System Options choice is shown.

1. Press Next until the Configure Points choice is shown and then press Enter.

2. Press Next until the TrueAlarm choice is shown and then press Enter.

3. Press Next until Edit TrueAlarm Point is displayed and then press Enter.

4. Press Enter to select the first device shown [3-1]. Press Next until Edit

Point Type is displayed and press Enter.

5. Press Next to scroll through the point types to find the appropriate point type for your device. The following are monitor point types for suppression release functions.

• SUPDET

Suppression Release detector zone

• SUPABRT Suppression Release abort zone

• SUPDUMP Suppression Release manual dump

• SUPPRES

Suppression Release pressure monitor

Once the appropriate point type is displayed, press Enter to assign that point type to the device at address [3-1]. Follow the prompts to confirm this selection.

6. Press Exit/Clear until Configure Point: TrueAlarm is displayed.

This section describes adding Suppression Release monitor points to a

Suppression Release list.

1. Press Next until Lists is displayed and then press Enter.

2. Press Next until the desired list is displayed. The following are the choices for your suppression release lists. L9 through L11 are your suppression initiating device lists.

-

L9 Automatic Suppression Release Points

-

L10 Suppression Manual Release Points

-

L11 Suppression Release Abort Points

-

L12 Suppression Release Output Points

Once the appropriate list is displayed, press Function.


7-17


Suppression Release,

Continued


Release Monitor Lists

(continued)

3. Press Next until Add Point is displayed and press Enter.

4. Press Next to scroll through the points you wish to add to the list. In this case [3-1].

5. Press the Right Arrow to move the focus brackets ([ ]) to the Add option and then press Enter.

6. Press Exit/Clear until Lists is displayed.

Step 4. Assign Point Types to

Suppression Outputs

1. Press Next until NACs is displayed and then press Enter.

2. Press Next until the appropriate NAC is displayed (SIG 1) and then press

Enter.

3. Press Next until Edit Point Type is displayed and then press Enter.

4. Press Next until the appropriate point type is displayed (SUPREL,

Suppression agent discharge release output) and press Enter. Follow the prompts to confirm this action.

5. Press Exit/Clear until Configure Points is displayed and then press Enter.


Release Output Lists

This section describes adding Suppression Release points to the Suppression

Release Output list.

1. Press Next until Lists is displayed and then press Enter.

2. Press Next until the desired list is displayed. L12 is your suppression NAC list. Once the appropriate list is displayed, press Function.

3. Press Next until Add Point is displayed and press Enter.

4. Press Next to scroll through the points you wish to add to the list (in this case SIG 1).

5. Press the Right Arrow to move the focus brackets ([ ]) to the Add option and then press Enter.

6. Press Exit/Clear until the Restore CFIG / Save CFIG options are displayed.

Press the arrow to move the focus brackets to Save CFIG and press Enter.


The 4010 now restarts and saves all programming information to the configuration.

7-18


Introduction

In this Chapter

Chapter 8

Custom Control

This chapter provides an overview of the Simplex Multi-functional Programming

Language (SMPL), which is also known as Custom Control (both terms are equivalents and are used interchangeably throughout this publication).



Overview 8-2

SMPL Opcodes and Operators

Custom Control Equation

Custom Control Programming

Application-Specific Examples

8-3

8-6

8-7

8-26

8-1


Overview

Introduction Custom Control is used for custom functions such as selective signaling/control, cross zoning pre-signal, and many other possible functions. Equations are written by the programmer to describe the various operations of the 4010 FACP.

SMPL programming can be used to customize the operation of various points while the remaining points operate as general alarm points. SMPL programming is programmed through the front panel interface or from the PC Programmer tool.

The 4010 base panel is configured (and shipped) as a general alarm system. You must program the Custom Control option when more sophisticated operations are required.

Custom Control equations are developed to define specified operations. Each equation contains interrelated statements, which consists of the INPUT SIDE and OUTPUT SIDE. Version 2.01 or later of the 4010 accepts up to 60 programming equations, each consisting of up to six statements total from the front panel. Older versions of the panel accept 40 equations.

Custom Control is used to customize the operation of an output, while the rest of the system continues to operate as a general alarm system. SMPL also allows the programmer to modify the operation of points to be used in non-alarm functions. A point can be selected as a non-alarm, tracking (non-latching) point.

The 4010 has resident editing capability. Once the programming mode is selected, the Custom Control is programmed through a series of menu options.

Once all the equations are entered, you can scroll through the Custom Control programming to review its contents. If errors are found, you can then insert new data or delete existing data. When you are satisfied with the program, you must exit the Custom Control mode to save all data to the 4010 CFIG chip.

Once programmed with Custom Control and back on line, the 4010 handles its inputs and outputs differently. The 4010 checks to see what inputs and outputs have been changed by the Custom Control programmed equations. Outputs not used in the Custom Control program remain general alarm outputs. Outputs which have new defined operations operate as specified in the Custom Control equations.

Caution: Once an output is used in a Custom Control equation, it

no longer responds to the general alarm monitor points.

8-2


SMPL Opcodes and Operators

Input Opcodes The following is a list of valid Input Opcodes, Input Operators, and Relational

Operators for the 4010 Custom Control option.

Table 8-1. Input Opcodes

Input Opcodes Description

FIRE DETECT Fire Detect State

FIRE ACK

SUPV ACK

Fire Acknowledge State (needs ACK)

Supervisory Acknowledge State

TBL ACK

PHY NORM

PHY ABN

PHY OPEN

PHY SHORT

ABN DET

OPEN DET

SHORT DET

CTRL ON

CTRL OFF

Trouble Acknowledge State

Physically Normal State

Physically Abnormal State

Physically Open State

Physically Short State

Abnormal Detect State

Open Detect State

Short Detect State

Control ON State

Control OFF State

CLASS A TROUBLE Class A Trouble State

ON/CODE On coding State

COMP CNST

COMP VAR

EMPTY

ANY

ALL

SAVE

RECALL

DELAY CNST

DELAY VAR

CYCLE CNST

CYCLE VAR

DIRTY

SMOKE LEV

Compare to a Constant Value

Compare to a Variable Value

Empty state of a list

Any number of elements in a list

All elements in a list

Save the state of an equation

Recall the state of an equation

Delay for a constant value

Delay for a variable value

Cycle for a constant value

Cycle for a variable value

Dirty detector state

A percentage smoke level


8-3


SMPL Opcodes and Operators,

Continued

Input and Relational

Operators

Table 8-2 lists the Input and Relational Operators.

Table 8-2. Input and Relational Operators

Input Operators • OR

• AND

• NOT

• SAVE

• RECALL

• DELAY (Constant and Variable)

• CYCLE (Constant and Variable)

Relational Operators • EQ (Equal To)

• (Not Equal To)

• (Greater Than)

• (Greater Than or Equal To)

• (Less Than)

• (Less Than or Equal To)


8-4


SMPL Opcodes and Operators,

Continued

Output Opcodes

Output Opcodes

SET ON

SET OFF

SET PRI

TRACK ON

TRACK OFF

TRACK PRI

HOLD ON

HOLD OFF

HOLD PRI

Table 8-3 lists Output Opcodes for the 4010 Custom Control option.

Table 8-3. Output Opcodes

Description

Set Point ON (refreshes continuously)

Set Point OFF (refreshes continuously)

Set Point’s priority (refreshes continuously)

Track Point ON

Track Point OFF

Track Point’s Priority

Hold Point ON

Hold Point OFF

Hold Point’s Priority

RESET Reset

LOAD CNST Load Analog Pseudo Point w/Constant Value

LOAD VAR Load Analog Pseudo Point w/Variable Value

PULSE CNST

PULSE VAR

LED OFF

LED ON

F FLASH

S FLASH

Pulse Analog Pseudo Point w/Constant Value

Pulse Analog Pseudo Point w/Variable Value

Turn LED/Lamp OFF

Turn LED/Lamp ON

Fast Flash Point (LED)

Slow Flash Point (LED)

S MARCH

F MARCH

TEMPORAL

CHAN CODE (IDNet)

Slow March Code the Point

Fast March Code the Point

Temporal Code the Point

Set up IDNet Channel Code (ON\Temporal\March Time)

DEV CODE (TrueAlarm sensor outputs) Device Code

ALARM THR

ROR HEAT

Set Alarm Threshold (sensitivity)

Rate-of-Rise Heat (set for sensitivity)

8-5


Custom Control Equation

Custom Control Example

Input Opcode

Input Operator

Output Opcode

The following is an example of a valid Custom Control equation.

FIRE DET 03-01

(Fire Detect state of M1-1 : IDNet Device: M1-1)

(or the Fire Detect state of M1-2 : IDNet Device: M1-2)

(or the Fire Detect state of M1-3 : IDNet Device: M1-3)

HOLD ON 01-01 Pri 9, 9

(Hold ON NAC Circuit: SIG 1 at a priority of 9, 9)

Input Statement 1



Output Statement

8-6


Custom Control Programming

To Start Custom Control

Programming

You must log in at the appropriate level and use the following steps to begin a

Custom Control session.

1. From the High-Level Status screen, press <MENU>. then press <ENTER>. Figure 8-1 appears briefly to warn you that the 4010 is no longer in the Fire Alarm Operation mode.

Please Wait. . .


Figure 8-1. Fire Alarm Operation Suspended Screen

3. A confirmation screen appears. Follow the prompts to enter programming.

Press <NEXT> or <PREVIOUS> to select [Custom Control] and then press <ENTER>.


8-7


Custom Control Programming,

Continued

Custom Control Menu

Navigation

Using <Next> and <Previous>, you can scroll through all the existing equations of the Custom Control program.

Note: All insertions are done above the current location.

If you wish to create a new equation before the first equation in the program, press <Next> to scroll to Equation 1 and then select Insert. When the new equation has been created and saved it will become Equation 1 and all other equations are incremented by 1.

If you wish to add a new equation to the end of the program, press <Next> or

<Previous> until ** End of Program ** is displayed on the screen. Select Insert from the menu to create a new equation at the end of the current equation list with the number of the last equation plus 1.

Note: Selecting Insert does NOT change the current focus. That is, if you insert at the end of program marker when the action is completed, the current focus is still at the ** End of Program ** marker. This facilitates sequentially entering a program when none is present or adding a sequence of equations within the existing program.

When you enter Custom Control programming you see one of the screens in

Figure 8-2. (A) in Figure 8-2 shows the active equation number and how many equations exist in the program. (B) in Figure 8-2 is displayed if no equations exist in the database or when you have scrolled past the last equation in the program.

Note:

You are required to select the Insert option to create a new equation. If you attempt to edit or delete the ** End of

Program ** marker, an error

message is displayed.

Equation 1 1/4

[Edit] Insert Delete

**End of Program**

[Edit] Insert Delete

Figure 8-2


8-8



Continued

Equation Level You enter the equation level by selecting an existing equation to edit or you elect to Insert a new equation. When creating a new equation, you are shown an empty equation with the active indicator (signified by a leading asterisk [

∗]) on the End of Input marker (remember all inserts go above the current focus). An empty equation consists of the “Input Side” header, the “End of Input” marker, and the “End of Output” marker (see A in Figure 8-3 below). If an equation exists, you are shown the first input statement in the equation (see B in Figure

8-3 below).

*1:End of Input

A.

B.

[Edit] Insert Delete Save Equation

*NOT FIRE 3-01

[Edit] Insert Delete Save Equation

Figure 8-3

Press <Next> and <Previous> to scroll through the statements of the selected equation.

When the active statement (indicated by the

∗) to be modified is displayed, you may enter the statement level by pressing <Enter> or by pressing <

▲ > or < ▼ > to move the focus brackets ( [ ] ) to select another menu option and then pressing

<Enter>.

The menu options are…

• Edit: To change the current statement.

• Insert: To create a new statement ABOVE the current statement.

• Delete: To remove the current statement from the equation.

• Save Equation: To update the program with the new equation and return to the program level.

Custom Control Level After entering the statement level you can work on the individual parts of a

Custom Control statement. The display shows the current statement on the top line with the current “field” of the statement marked with focus brackets ( [ ] ).

The current option selection is shown in focus brackets on the lower line of the display. Use <

ì> or <ö> to move between the statement fields on the top line and <Next> and <Previous> to scroll through the options for the current field

(and display the new selection) on the lower line. Press <Enter> to move the new option from the lower line to the selected field in the top line. This also moves the field focus to the next field.


8-9



Continued

Equations Version 2.01 or later of the 4010 system supports up to 60 Custom Control equations. A Custom Control equation consists of up to six statements. Each equation consists of two sides: an INPUT SIDE and an OUTPUT SIDE. An equation can be better understood as an “IF/THEN” command. “IF” the INPUT

SIDE is true, “THEN” execute the OUTPUT SIDE.

Each equation is made up of one or more input statement and one or more output statement (for a total of six statements). The equation in Figure 8-4 has four statements: two input statements and two output statements.

Equation

Input Statement

Input Statement

End of Inputs



End of Outputs

Figure 8-4

Input Side (IF)

FIRST

STATEMENT

Each input statement is made up of four fields.

Field 1 Field 2 Field 3 Field 4

[ ] [ NOT ] [FIRE] [3-01]

Empty field starts a Custom

Control equation input

Optional NOT operator

Condition qualifier for field 4

Point

Figure 8-5

Field 1 Field 1 is always empty in the first statement of any Custom Control equation.

In subsequent statements, Field 1 will contain one of the two Link operators:

• AND  which links the statement in “Series” with all previous statements

• OR which links the statement in “Parallel” with all previous statements.


8-10



Continued

Field 1 (continued)

FIRST

STATEMENT

SECOND

STATEMENT

AND

The AND Link operator links the current statement in Series with all previous statements in an equation (see Figure 8-6).


[ ] [ ] [FIRE] [3-01]

[AND] [ ] [FIRE] [3-02]

Figure 8-6

In Figure 8-6, IF the condition of 3-01 is Fire AND the condition of 3-02 is Fire, then the INPUT SIDE is true. Another way to look at this equation is shown in

Figure 8-7. In order to cross from the INPUT SIDE of the equation to the

OUTPUT SIDE, both of the statements must be true.

INPUT SIDE

(Statements 1 & 2)

OUTPUT SIDE

Points 3-01 and 3-

02 in Series.

Both statements must be true in order to go from the INPUT to the

OUTPUT.

Figure 8-7


8-11



Continued


FIRST

STATEMENT

SECOND

STATEMENT

OR

The OR Link operator links the current statement in Parallel with all previous statements in an equation (see Figure 8-8).


[ ] [ ] [FIRE] [3-01]

[OR] [ ] [FIRE] [3-02]

Figure 8-8

In Figure 8-8, IF the condition of 3-01 is Fire OR the condition of 3-02 is Fire, then the INPUT SIDE is true. Another way to look at this equation is shown in

Figure 8-9. In order to cross from the INPUT SIDE of the equation to the

OUTPUT SIDE, one of the statements (3-01 or 3-02) must be true.

INPUT SIDE


OUTPUT SIDE

3-02

03-02

Figure 8-9

Points 3-01 and 3-02 in Parallel.

One statement or the other must be true in order for the output to have the chance to turn on.


8-12



Continued


FIRST

STATEMENT

SECOND

STATEMENT

THIRD

STATEMENT

AND (first) & OR (second)

In Figure 8-10 the first and second statements are linked in Series and the third statement is linked in Parallel with the first and second statements. Remember, a

Link operator links that statement with all previous statements, not just the statement before it.


[ ] [ ] [FIRE] [3-01]

[AND] [ ] [FIRE] [3-02]

[OR] [ ] [FIRE] [3-03]

Figure 8-10

In Figure 8-10, IF the condition of 3-01 is Fire AND the condition of 3-02 is

Fire, OR the condition of 3-03 is Fire, then the INPUT SIDE is true. Another way to look at this equation is shown in Figure 8-11. In order to cross from the

INPUT SIDE of the equation to the OUTPUT SIDE, the first and second statements (together) or the third statement must be true.

Points 3-01 and 3-02 (in Series) are Parallel with 3-03.

3-01 & 3-02 must be true

(together) or 3-03 must be true in order to go from the INPUT to the OUTPUT.

INPUT SIDE

(Statements 1,2, & 3)

OUTPUT SIDE

Figure 8-11


8-13



Continued


FIRST

STATEMENT

SECOND

STATEMENT

THIRD

STATEMENT

OR (first) & AND (second)

In Figure 8-12 the first and second statements are linked in Parallel and the third statement is linked in Series with the first and second statements. Remember, a

Link operator links that statement with all previous statements, not just the statement before it.


[ ] [ ] [FIRE] [3-01]

[OR] [ ] [FIRE] [3-02]

[AND] [ ] [FIRE] [3-03]

Figure 8-12

In Figure 8-12, IF the condition of 3-01 is Fire OR the condition of 3-02 is Fire,

AND the condition of 3-03 is Fire, then the INPUT SIDE is true. Another way to look at this equation is shown in Figure 8-13. In order to cross from the

INPUT SIDE of the equation to the OUTPUT SIDE, the first or second statements and the third statement must be true.

INPUT SIDE

(Statements 1, 2, & 3)

Figure 8-13

OUTPUT SIDE

Points 3-01 or 3-02 (in

Parallel) are in Series with

3-03. 3-01 or 3-02 must be true and 3-03 must be true in order to go from the INPUT to the OUTPUT.


8-14



Continued

Field 2 Field 2 can be empty or contain the negative operator NOT. NOT is used in

Figure 8-14 to state IF point 3-01 is NOT in a FIRE condition, THEN that statement is true.

AND & NOT

The AND Link operator links the current statement in Series with all previous statements in an equation (see Figure 8-14).

FIRST

STATEMENT


[ ] [ ] [FIRE] [3-01]

SECOND

STATEMENT

[AND] [NOT] [FIRE]

Figure 8-14

In Figure 8-14, if the condition of 3-01 is Fire AND the condition of 3-02 is

NOT Fire then the INPUT SIDE is true. Another way to look at this equation is shown in Figure 8-15. In order to cross from the INPUT SIDE of the equation to the OUTPUT SIDE, the first and second statements must be true.

Note: The NOT gate is shown as a normally closed contact. This statement is true because there is a path from the Input to the

Output.

INPUT SIDE


OUTPUT SIDE

Figure 8-15

This statement is true because

M1-01 is in the FIRE condition and M1-02 is NOT in the FIRE condition.


8-15



Continued


FIRST

STATEMENT

OR & NOT

The OR Link operator links the current statement in Parallel with all previous statements in an equation (see Figure 8-16).


[ ] [ ] [FIRE] [3-01]

SECOND

STATEMENT

[NOT] [FIRE]

Figure 8-16

In Figure 8-16, if the condition of 3-01 is Fire OR the condition of 3-02 is NOT

Fire then the INPUT SIDE is true.

Another way to look at this equation is shown in Figure 8-17. In order to cross from the INPUT SIDE of the equation to the OUTPUT SIDE, the first or the second statement must be true.

Note: The NOT gate is shown as a normally closed contact. This statement is true because there is a path from the Input to the

Output .

Fields 3 & 4

INPUT SIDE


OUTPUT SIDE

This statement is true because

M1-01 is not in the FIRE condition and M1-02 is not in the FIRE condition.

Figure 8-17

Field 3 contains the condition qualifier for the point listed in Field 4 (refer to

Table 8-1 for all INPUT SIDE condition qualifiers). Field 4 options change per

Condition Qualifier selected.


8-16



Continued

Fields 3 & 4 (continued)

FIRST

STATEMENT

SECOND

STATEMENT

FIRE

When using the input condition qualifier FIRE, a statement is true when the point indicated in Field 4 is in the FIRE state. Field 4 Choices for the FIRE qualifier are:

• System Card Points

• Digital Pseudo Points

Note: The statement holds true until the system is no longer in the

FIRE state.

When the condition of 3-01 is FIRE, the input is true, and the output is executed.

If the system is not reset, and the condition of 3-02 becomes FIRE after 3-01, the system outputs ignore 3-02. In other words, if the output executes from the

FIRE condition of 3-01, the output will not re-execute from the FIRE condition of 3-02.


[ ] [ ] [FIRE] [3-01]

[OR] [ ] [FIRE] [3-02]

Figure 8-19

Example: The condition of 3-01 is FIRE. The 4010 is reset from the

Fire Alarm Control Panel (FACP). After the system is reset (and there are no alarms) the condition of 3-02 is FIRE. The appropriate notification appliances

now activate for the FIRE condition of 3-02.

FIRE DET

When using the input condition qualifier FIRE DET (Fire Detect), a statement is true when the point indicated in Field 4 is activated. Field 4 Choices for the

FIRE DET qualifier are:

•

IDNet Points

•

Digital Pseudo Points

Note: When using the FIRE DET qualifier, the statement holds true for one 4010 polling cycle (typically less than one second). This allows the output to re-execute after a signal silence.


8-17



Continued

Fields 3 & 4 (Continued)

FIRST

STATEMENT

When the condition of 3-01 is FIRE DET, the input is true for one 4010 polling cycle which can vary depending upon your application, and the output is executed. If the condition of 3-02 becomes FIRE DET after 3-01, the system reexecutes the output. In other words, if the output executes from the FIRE DET condition of 3-01, the output will re-execute from the FIRE DET condition of 3-

02.


[ ] [ ] [FIRE DET] [3-01]

SECOND

STATEMENT

[OR] [ ] [FIRE DET] [3-02]

Figure 8-20

Example: The condition of 3-01 is FIRE DET. The appropriate notification appliances are silenced from the FACP. After the notification appliances are silenced the condition of 3-02 is FIRE DET. The notification appliances now resound for the FIRE DET condition of 3-02.

FIRE ACK

When using the input condition qualifier FIRE ACK (Fire Acknowledge), a statement is true when the point indicated in Field 4 is activated. Field 4

Choices for the FIRE ACK qualifier are:

• IDNet Points


Note: The statement holds true until the point indicated in Field 4 is

Acknowledged.


FIRST

STATEMENT

[ ] [ ] [FIRE ACK] [3-01]

SECOND

STATEMENT

[OR] [ ] [FIRE ACK] [3-02]

Figure 8-21

Example: The condition of 3-01 is FIRE ACK. The input of the equation remains true until the point indicated in Field 4 is acknowledged. The same holds true for 3-02.


8-18



Continued


FIRST

STATEMENT

FIRST

STATEMENT

SUPV

When using the input condition qualifier SUPV (Supervisory), a statement is true when the point indicated in Field 4 is activated. Field 4 Choices for the SUPV qualifier are:



Note: The statement holds true until the point indicated in Field 4 clears.


[ ] [ ] [SUPV] [3-01]

Figure 8-22

Example: The condition of 3-01 is SUPV. The input of the equation

remains true until the point indicated in Field 4 is cleared.

SUPV ACK

When using the input condition qualifier SUPV ACK (Supervisory

Acknowledge), a statement is true when the point indicated in Field 4 is activated. Field 4 choices for the SUPV ACK qualifier are:




Acknowledged.


[ ] [ ] [SUPV ACK] [3-01]

Figure 8-23

Example: The condition of 3-01 is SUPV ACK. The input of the equation remains true until the point indicated in Field 4 is

acknowledged from the FACP.


8-19



Continued

Fields 3 & 4 (Continued) TBL

When using the input condition qualifier TBL (Trouble), a statement is true when the point indicated in Field 4 is in trouble. Field 4 choices for the TBL qualifier are:

• CPU Card Points


• Power Supply Points


Note: The statement holds true until the point indicated in Field 4 not in trouble.

Field 1 Field 2 Field 3

Field 4

FIRST

STATEMENT [ ] [ ] [TBL] [3-01]

FIRST

STATEMENT

Figure 8-24

Example: The condition of 3-01 is TBL. The input of the equation remains

true until the point indicated in Field 4 is not in trouble.

TBL ACK

When using the input condition qualifier TBL ACK (Trouble Acknowledge), a statement is true when the point indicated in Field 4 is in trouble and requires an acknowledge. Field 4 choices for the TBL ACK qualifier are:

• CPU Card Points




Note: The statement holds true until the point indicated in Field 4 (in trouble) is Acknowledged.


[ ] [ ] [TBL ACK] [3-01]

Figure 8-25

Example: The condition of 3-01 is TBL ACK. The input of the equation remains true until the point indicated in Field 4 is acknowledged.


8-20



Continued


FIRST

STATEMENT

FIRST

STATEMENT

ON/CODE and OFF

When using the input condition qualifier ON/CODE (On Coding), a statement is true when the point indicated in Field 4 is On or Coding. Field 4 choices for the

ON/CODE qualifier are:

• CPU Card Points




• Analog Pseudo Points


OFF.


[ ] [ ] [ON/CODE] [3-01]

Figure 8-26

Example: The condition of 3-01 is ON/CODE. The input of the equation

remains true until the point indicated in Field 4 is OFF.

When using the input condition qualifier OFF, a statement is true when the point indicated in Field 4 is OFF. Field 4 choices for the OFF qualifier are:

• CPU Card Points




• Analog Pseudo Points

Note: The statement holds true until the point indicated in Field 4 is ON or Coding.


[ ] [ ] [OFF] [3-01]

Figure 8-27

Example: The condition of 3-01 is OFF. The input of the equation remains true until the point indicated in Field 4 is ON or Coding.


8-21



Continued


SECOND

STAGE FIELDS

COMP CNST, ANY, ALL, & DELAY CNST

The COMP CNST (Compare Constant) ANY, ALL, and DELAY CNST input condition qualifiers are two-stage qualifiers. Additional programming is necessary in order for these qualifiers to work correctly. When selecting these qualifiers, you must press Enter to program the second stage. In this second stage there are four additional fields with the following choices: Analog Points, numbers, relational qualifiers, and Lists. The choices for the different fields are related directly to the qualifier selected.

COMP CNST

When using the input condition qualifier COMP CNST, a statement is true when the value of the Analog Pseudo point in Field B is the proper relationship (Field

C relational qualifier) to the number in Field D (see Figure 8-28). The choices for Fields B, C, and D are as follows:

• Field B Analog Pseudo points 21-01 through 21-25 (20-01 through

20-07 are system Analog Pseudo points)

• Field C Relational Qualifiers EQ (Equal), NE (Not Equal), GT

(Greater Than), LT (Less Than), GE (Greater Than or Equal), and LE

(Less Than or Equal)

• Field D Number Value (00000 to 65535)

Field A Field B Field C Field D

[COMP CNST] [20-01] [EQ] [00001]

Two-stage Input

Condition

Operator

Analog Pseudo

Point 20-01

Relational

Qualifier

Figure 8-28

Number

Example: When the value of the Analog Pseudo point equals 1, then execute the output.


8-22



Continued


SECOND

STAGE FIELDS

ANY

When using the input condition qualifier ANY, a statement is true when the specified number of points from Field B equals the number of points in the List identified in Field D that are in the condition specified by Field C. The choices for Fields B, C, and D are as follows:

• Field B Point number value 001 to 255

• Field C Conditions FIRE ACK, SUP ACK, TBL ACK, FIRE, SUP,

TBL, ON IN, ON CODE, PHY NRM, PHY ABN, PHY SHR, FIRE

DET, DISABLE, MAN

• Field D List Pseudo Points 23-01 through 23-25 are user points (List

Points 22-01 through 22-12 are system List Pseudo Points)

Field A Field B Field C Field D

[ANY] [001] [FIRE ACK] [23-01]

Two-stage Input

Condition

Specifier

Condition

Point Number

Value

List Point

Figure 8-29

Example: When any one (1) point’s condition in the List 22-01 is FIRE ACK,

then execute the output.

ALL

Note: When choosing the ALL condition qualifier, there are only three fields open for programming.

When using the input condition qualifier ALL, a statement is true when all points specified in Field C are in the condition specified in Field B. The choices for

Fields B and C are as follows:

• Field B Conditions FIRE ACK, SUP ACK, TBL ACK, FIRE, SUP,

TBL, ON IN, ON CODE, PHY NRM, PHY ABN, PHY SHR, FIRE

DET, DISABLE, MAN

• Field C List Points 23-01 through 23-25


8-23



Continued


SECOND

STAGE FIELDS

Field A Field B Field C

Two-stage Input

Condition

Specifier

Condition List Point

Figure 8-30

Example: When all points in List 23-01 are in the condition of FIRE

ACK, then execute the output.

DELAY CNST

When using the input condition qualifier DELAY CNST, and the input statement is true, the output action is delayed for a specified amount of time (in seconds).

Note: The input must be true for the entire delay time specified.

Field A Field B Field C

SECOND

STAGE FIELDS

[DELAY CNST] [21-05] [00020]

Two-stage Input

Condition

Specifier

Point

Figure 8-31

Specified

Delay Time

Output Side (THEN)

OUTPUT

STATEMENT

Each output statement is made up of three fields.


[Hold On] [21-02] [9,9]

Action

Specifier for

Field 2

Point Priority

Figure 8-32


8-24



Continued

Output Side (THEN)

(Continued)

OUTPUT

STATEMENT

FIELD 1

Field 1 contains the Action Operators listed in Table 8-3.

FIELD 2

When using any action operator, Field 2 choices are:

• CPU Card Points




• List Pseudo Points

FIELD 3

Field 3 contains the Set and Reset Priorities of control equipment (relays) and

Pseudo points. This eliminates confusion of when a point is under control of one statement and another statement tries to take control (see Figure 8-31).


[Hold On] [23-02] [9,9]

Action

Specifier for

Field 2

Point

Set Priority

Figure 8-33

In Figure 8-32, point 23-02 will HOLD ON (IF the Input is true) at a Set priority of 9. This Output statement will maintain control of this point until another output statement with an equal (9) or greater Set priority takes over. The possible ranges for a priority are from 1 to 15, 1 being the highest and 15 being the lowest priority. By default, the priority is 9. When changing a priority, press

Function and then press <

ö> to place the cursor under the Set priority. Use

<Next> and <Previous> to scroll through the priorities.

Press <

ö> to place the cursor under the Reset priority. Use <Next> and

<Previous> to scroll through the priorities and then press <Enter> to program the priorities selected.

Reset

Priority

8-25


Application-Specific Examples

Introduction The following examples detail the use of the 4010’s newer Custom Control features.

Day Night Programming

Example

M1-1 is a TrueAlarm Photo sensor. Customer wants normal 2.5% sensitivity during working hours (7am – 6pm) and higher sensitivity (1.0%) at night. (A11 is current hour analog pseudo point.)

Equation 1:

IN:

A11 GREATER THAN 7 (7 is 7am)

OUT:

SET THRESHOLD M1-1 LEVEL 5 (level 5 is

2.5% obscuration)

END:

Equation 2:

IN:

A11 GREATER THAN 18 (18 is 6pm)

OUT:

SET THRESHOLD M1-1 LEVEL 2 (level 2 is 1.0%

obscuration)

END:

TrueAlarm Heat Utility

Monitoring Example

A customer wants a supervisory alert when an impending freeze is detected by a

TrueAlarm heat sensor. M1-1 is a HEAT sensor programmed with the

UTILITY point type. P75 is a user defined digital point with the

SUPERVISORY point type.

IN:

M1-1 LESS THAN 38 (38 is degrees F)

OUT:

TRACK ON P75 PRI=9,9

END:

City Circuit Alarm-Output

Programming Example

A customer only wants the city circuit’s alarm output to activate when a waterflow alarm occurs. In this example, L25 is a user-created list of all

Waterflow monitor points.

IN:

L25 ALARM

OUT:

TRACK ON P60 PRI=7,7 (Use priority greater than

9 to control this point)

END:


8-26


Application-Specific Examples,

Continued

AHJ City Circuit Reset

Operation Example

This example shows how to program the panel or AHJ City Reset operation.

IN:

A4 ON

OUT:

HOLD ON P16 PRI=9,9

END:

8-27


This is blank


Introduction

In this Chapter

Chapter 9

Saving a CFIG

The 4010 FACP provides the ability to continue making edits, save or discard changes that you make to the panel’s programming.


Topic

Viewing CFIG Properties

Continue, Restore CFIG, and Save CFIG

See Page #

9-2

9-3

9-1


Viewing CFIG Properties

Introduction CFIG properties include information such as the System Revision, the job name and its revision, and the system’s current time and date.

Procedure The Software Revision menu allows access to the CFIG properties. It is located at the topmost level of the 4010 menu structure.

Historical

Logs

Software

Revision

Diagnostics

SOFTWARE REVISION is displayed and then press <ENTER>. revision number and Job Rev. that you see depends on the revision level of the software installed on your 4010.

Sys Rev 2.00.06 4010 System

JOB REV: 1 12:00:00 am Wed 27-Aug-97

Figure 9-1. CFIG Properties

9-2


Continue, Restore CFIG, and Save CFIG

Continue The Continue option allows you continue an edit session without saving or restoring the information stored in the Edit Buffer to the CFIG. This option appears when you use the Exit/Clear button to back out of programming mode.

Restore CFIG The Restore CFIG option restores all information to the 4010 configuration prior to any programming modifications. Select this option if you do not wish to save any edits or modifications you made during your programming session to the

4010 configuration.

You can restore a CFIG by choosing the menu option as described below or by pressing Exit/Clear to back out of Programming mode and then choosing the

Restore CFIG option from the 4010 prompts. In both cases, your 4010 re-boots and becomes operational as a fire alarm system.

To access the Restore CFIG menu option, follow these steps: and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode.

Save CFIG and then press <ENTER>.

The Save CFIG option saves all information to the 4010 configuration after or

during programming. Choose this option if you wish to save all of your edits and modifications you made during your programming session to the 4010 configuration.

You can save CFIG by choosing the menu option as described below or by pressing Exit/Clear to back out of Programming mode and then choosing the

Save CFIG option from the 4010 prompts. In both cases, your 4010 re-boots and becomes operational as a fire alarm system.

To access the Restore CFIG menu option, follow these steps: and then press <ENTER>. A warning appears, indicating that the 4010 is no longer in the Fire Alarm Operation mode. then press <ENTER>.

When exiting the programming mode, your 4010 re-boots and becomes operational as a fire alarm system.

9-3


This is blank


Overview

Chapter 10

Diagnostics and Troubleshooting

Before Calling Tech Support

This chapter describes the diagnostic tools provided with the 4010 FACP and describes some simple techniques used to help you troubleshoot the 4010 before calling Simplex Technical Support.

DID YOU…

• Verify all system wiring?

• Test all power circuits (AC and Batteries) and fuses for opens?

• Ensure that all IDNet devices are correctly addressed?

• Verify that all hardware has been added to the system either individually or via the Quick CFIG option?

• Verify that all switches and adjustable potentiometers are correctly set, and

End-of-Line Devices are in place (refer to “Chapter 1 - Overview, Default

Settings and End-of-Line Devices” for correct settings)?

WHEN YOU CALL, HAVE THE FOLLOWING AT HAND…

• Any error messages from the front panel.

• History Logs for all Alarm, Trouble, and Supervisory information.

• Revision Level of your system as well as any option cards.

Note: An accurate time and date are essential for the proper operation of the

4010 FACP. Make sure to check the time and date at least once a month, and reset it if necessary. Changing the time and date are described in Chapter 11 of this manual.

10-1


Diagnostics

Overview

Running Diagnostics

The 4010 has the capability to run diagnostics of the N2 communication lines, the IDNet channel, the Network communication lines, and to locate an Earth

Fault between IDNet devices. This section shows how to run the diagnostic utility on the 4010.

Running diagnostics is the easiest way to ensure proper communication between the FACP and its various devices. To use the Diagnostics, you must be logged in at a Level 4. Follow Steps 1 through 3 to run diagnostics on the 4010.

1. From the High-Level Status screen, press <MENU>. press <ENTER>. and then press <ENTER>.

The Diagnostic options are shown in Figure 10-1.

Top Level Menus

Software

Revision

Diagnostics

Set Time and Date

• N2 Communications

• IDNet Earth Fault Search

• IDNet Diagnostics

• Network

Figure 10-1. Diagnostic Options


10-2


Diagnostics,

Continued

Diagnostic Options Once a diagnostic option is selected, you can set the options by pressing

<NEXT> or <PREVIOUS> to scroll through the choices shown in Table 10-1.

Table 10-1. Diagnostic Options

Diagnostic Option Settings

N2 Comm Choose On or Off

IDNet Earth Fault Search Choose On or Off

IDNet Diagnostics Choose:

• IDNet Weak Answer (On/Off)

• IDNet Duplicate Device (On/Off)

Network Choose:

• Node Number (displays the current node number for the

4010)

• Topology

• Attendance

N2 Comm Diagnostics

Card Address

Test Message Counts

Use the N2 Comms Diagnostics to check for noisy N2 comm lines and other N2 comm errors. The screen in Figure 10-2 shows a typical N2 Communication

Diagnostic screen. This screen informs you of the amount of messages sent, the amount of message retries and the amount of card failures. Note that these tallies are only kept while diagnostics are active.

4010 Card 1, 4010 NAC/Relay Card

Msgs Sent=0 Retries=0 Fails=0

Figure 10-2. N2 Communication Diagnostic Screen

Pressing <NEXT> or <PREVIOUS>scrolls through the available cards that are communicating on the N2 lines and displays that card’s N2 diagnostic information.

Pressing <ENTER> (while a particular card’s information is displayed) prompts you to press <ENTER> again to clear the message counts for that card.

IDNet Diagnostics Duplicate Devices

To detect devices set to the same address you can activate the IDNet Diagnostics

- Duplicate Device option. Once activated, there is a trouble in the panel indicating that you have activated the option. The two devices set to the same address then come in as a duplicate device trouble for that address.

Acknowledge the trouble and view the point information to determine the address that the devices are set to and correct the problem.


10-3


Diagnostics,

Continued

IDNet Diagnostics (continued)

IDNet Earth Fault Search

Diagnostics

Network Diagnostics

M = Monitor Node

L = LEFT End Node

R = RIGHT End Node

(_) = This Node

❚

= Missing Node

Weak Answer Devices

When receiving a Weak Answer Trouble you can determine which device is causing the trouble by activating the IDNet Diagnostics - Weak Answer option.

When activated there is a trouble in the panel informing you that the option is active. Acknowledge the trouble and wait. Any device which is weak will then report NO ANSWER when the Weak Answer Diagnostic is run.

Use the IDNet Earth Fault Search Diagnostics to locate an “earth” between the panel and the first IDNet isolator device or to another isolator device. Note that the 4010 FACP does not function as a fire panel for the duration of an Earth

Fault search.

If an “earth” cannot be isolated or there are no isolators configured on the system, the 4010 returns a “Unable to Isolate Earth Fault” message.

If the “earth” is isolated between the first isolator and the FACP, the 4010 returns a “Earth Fault Between Panel and 1 st

Device” message.

If the “earth” is isolated to any other device, the 4010 returns a “Earth Fault

Isolated to Device M1-X” where X is the isolator address.

Once the 4010 is “networked” to other panels using the PC Programmer (see

4010 Fire Alarm - PC Programming Instructions, Part No. 574-187) you can check the node number of the 4010, network topology, and network attendance.

Figure 10-3 shows a typical Network Topology screen. Topology information shows how the network is physically wired and whether there are any breaks in the network loop.

M2 4 (1) L5

❚ 6 7 R9

Figure 10-3. Network Topology Screen


10-4


Diagnostics,

Continued

Network Diagnostics

(continued)

Attendance information shows if the network nodes are configured. Each position on the 4010’s LCD represents a node’s address for a maximum of 80 nodes (only 80 nodes can be displayed because there are only 80 positions on the

2 by 40 character LCD). Each node can only be represented by one character.

Figure 10-4 is NOT a typical Attendance screen, it is shown for reference only.

1 = Node Number 1

M = Monitor Node (Node Number 2)

. = No node configured at this address


L = Node Number 5 (fifth position on the

❚ screen) and it is the Left End Node.

= Missing Node


R = Node Number 9 (ninth position on the screen and it is the Right End Node.

2 = Node Number 22 (twenty-second position on the screen)

1M.4L

❚7.R0...........2..................

..3...................................9.

Figure 10-4. Network Attendance Screen

3 = Node Number 43 (forty-third position on the

screen)

9 = Node Number 79 (seventy-ninth position on

10-5


Walk Test

Overview

Using Walk Test

Walk Test allows one person to test the functionality of the 4010. Once the panel is placed into Walk Test mode, any device can be tested in any order. For each device, you should simulate both an alarm and trouble. If an audible or visible indication is used, wait for the indication before moving on to the next device. Walk Test options are viewed by selecting the WalkTest entry at the main menu. The Walk Test screens allow you to customize the Walk Test operation. The signals (if enabled) annunciate device coding for Walk Test. Earth

Faults are signaled during Walk Test on both the front panel display/tone-alert and by activating audible and visible notification circuits for 4 seconds. Suppression release outputs are NOT activated by Walk Test.

Walk Test automatically aborts after eight hours and restores the panel to normal operation.

To activate Walk Test, follow Steps 1 through 5.

1. From the High-Level Status screen, press <MENU>. press <ENTER>.

3. Press

ì> or <ö> to move the focus brackets to the desired option.

• On/Off  Walk Test mode.

• Log/No Log  allows events to be recorded to the Historical Logs.

• Signal/Silent  activate/deactivate Signals.


10-6


Walk Test,

Continued

Using Walk Test (continued)

Focus Brackets

The Walk Test options are shown in Figure 10-5.

Top Level Menus

Set Time and Date

Walk Test TrueTest

• On/Off

• Log/NoLog

• Silent/Signal

Figure 10-5. Walk Test Options

Figure 10-6 shows an example of the Walk Test screen with the default values.

<ENTER> to Accept <ARROW KEYS> to Change

[Off] Log Silent

Figure 10-6. Walk Test Screen

10-7


TrueTest

Overview The TrueTest feature provides a simple method of testing the application specific software in the FACP without the need to manually activate the initiating device circuits. In other words, TrueTest provides an easy method of testing the Input/Output programming to verify that the programming is written as the customer specified.

Once the panel is in TrueTest mode, you can modify a point’s status by selecting the desired point at the front panel and pressing <NEXT> or <PREVIOUS> until the TrueTest screen is displayed. The point’s custom label and device address are displayed along with an option select box allowing you to select the desired TrueTest physical state.

The choices for the TrueTest state depend on the currently selected point’s attributes. For monitor hardware device type points, the options are NORMAL,

ABNORMAL, OPEN, and SHORT. For TrueAlarm sensors, the sensitivity threshold possibilities available for the selected device are presented (see

Appendix A for sensitivities and levels). Press <NEXT> or <PREVIOUS> to scroll through the possible choices for that point type.

Once you have selected the desired state, pressing <ENTER> forces the state change as a TrueTest simulated event. Pressing <EXIT/CLR> exits the

TrueTest menu without making any changes.

When a TrueTest simulated event occurs, the system responds as if that point had actually entered the specified state up to the point of activating control outputs if NoCTRL is selected. If CTRL is selected, selected outputs activate.

Any control point activation, DACT reporting, printing, and logging is selected in the TrueTest menu (refer to Table 10-2 for options). Any LEDs programmed to track any point also operate (there is no way to disable this).

Table 10-2. TrueTest Menu Options

TrueTest Option Description

On/Off

Log/NoLog

Print/NoPrint

DACT/NoDACT

NoCTRL/CTRL

Activates or deactivates TrueTest.

Determines whether the TrueTest events are sent to the logs.

Determines whether the TrueTest events are sent to a printer.

Determines whether any events occurring in

TrueTest are reported to the DACT.

By default no control circuits of any kind are activated during the test. If desired, all control points may be activated during the test by selecting CTRL.

This category includes all control points (audibles, visibles, and any other control points).


10-8


TrueTest,

Continued

Using TrueTest

Focus Brackets

Use Steps 1 through 5 and Figures 10-7 and 10-8 to activate TrueTest.

1. From the High-Level Status screen, press <MENU>. press <ENTER>.

3. Press

ì> or <ö> to move the focus brackets to the desired option.

5. Once all options are set, press <ENTER> to activate TrueTest.

Top Level Menus

Walk Test TrueTest Quick CFIG

• On/Off

• Log/NoLog

• Print/NoPrint

• DACT/NoDACT

• NoCTRL/CTRL

Figure 10-7. TrueTest Options

Figure 10-8 shows an example of the TrueTest screen with the default values.

<ENTER> to Accept <ARROW KEYS> to Change

[Off] Log Print NoDACT NoCTRL

Figure 10-8. TrueTest Screen

10-9


Crash Codes

Table 10-3. Crash Codes

Code Meaning Cause

3

4

5

0

1

Illegal Crash Code Erroneous call to crash handler.

RAM Memory Fail RAM memory failed pattern check or the newly calculated checksum did not restore correctly.

Stack Not used – erroneous call to crash handler.

Fail

ROM Memory Fail ROM memory failed its CRC check, either BOOT or

Application.

Code not supported by

4010

Replace hardware


4010

Bad Message Index Call to get message string with illegal value. Reload application

Bad Switch Value Default for switch when illegal value cannot be defaulted. Reload application

Reload application

Replace Hardware

Reload application

Replace Hardware Fail

7 Unexpected

Interrupt

8 Unexpected

Function object.

An interrupt vector was executed when that interrupt was not enabled.

The 4010 application called a BOOT function that does not exist.

Reload application

Replace Hardware

Reload application

Replace Hardware

9

A

Internal RAM Fail The on-chip RAM failed integrity check during startup.

Keypad Missing The 4010 keypad is missing.

F

10

Mismatch

Opcode

Address

Number

A database routine failed trying to access an illegal point number.

I/O Scan Time-Out Not used – erroneous call to crash handler.

Invalid Get Status

Indicates a mismatch between the EXEC and programmer software. For example, using a version 1 EXEC with a version 2 programmer.

The SMPL interpreter failed trying to execute a corrupt program.

A database routine failed trying to access an illegal card number.

The application tried to get a type of data that is not associated with the data point it was intended for. This can be caused by using the PC programmer to assign a point type of “unavailable” to a NAC or 24 PT I/O

Replace hardware

Check keypad connections

/ Replace hardware

Upgrade EXEC and programmer software to same revision.

Reload job. Check versions of tools and panel




4010.


11

12

13

14

Invalid Put Status

Flash Erase Failure

Flash Write Failure

The application tried to save a type of data that is not associated with the data point it was intended for.

The Flash chip erase function returned an error.

The Flash chip write function returned an error.

Empty Mail Event The OS signaled a mail event but had no mail for the process.

Memory

The system was unable to allocate a required communication buffer.


Replace hardware

Replace hardware

Reload application

Reduce cards/reload job


10-10


Crash Codes,

Continued

Table 10-3. Crash Codes (continued)

Code Meaning

16

18

Bad Card State

Cause

The state index for a card was invalid for the card’s type Reload BIN File

*

SMPL

Restoring Not Used. Erroneous call to the crash handler

Unable to Restore

CFIG

The flash chip copy to RAM function returned an error Replace Hardware

19

1A

1B

1C

1D

1E

1F

20

Task 1 Stopped

Task 2 Stopped

Task 3 Stopped

Task 4 Stopped

Task5 Stopped

Supervisor task watchdog timer has expired.

Front panel task watchdog timer has expired.

System operation task watchdog timer has expired

Communication task watchdog timer has expired

Serial port task watchdog timer has expired.

*

Reload CFIG. Check versions of panel and tools.




*

*

Reload BIN file.

21

22

23

Task 6 Stopped

Task 7 Stopped

Common Overrun Execution across the common code area boundary was detected.

Bank 0 Overrun Execution across the code bank 0 area boundary was detected.

Bank 1 Overrun

Not used. Erroneous call to the crash handler.


Bank 2 Overrun

Execution across the code bank 1 area boundary was detected.


Reload BIN file.

Reload BIN file.

Reload BIN file.

24 Bank 3 Overrun Reload BIN file.

25

26

27

28

29

2A

2B

2C

2D

2E

2F

30

31

Bank 4 Overrun

Bank 5 Overrun

Bank 6 Overrun

Bank 7 Overrun

Bank 8 Overrun

Bank 9 Overrun

Bank 10 Overrun

Bank 11 Overrun

Bank 12Overrun

Bank 13 Overrun

Bank 14 Overrun

Bank 15 Overrun

Bank 16 Overrun















Reload BIN file.

Reload BIN file.

Reload BIN file.

Reload BIN file.

Reload BIN file.

Reload BIN file.

Reload BIN file.

*

*

*

*

*

*


10-11


Crash Codes,

Continued

Code Meaning

33

34

35

36

37

38

Table 10-3. Crash Codes (continued)

Cause

The network card local port buffer handler lost a buffer

Error

Bad Mapnet Packet

Bad Parameter

Out of Memory

CFIG Consistency

The mapnet card received a packet that failed its consistency check.

An LCD function was passed an illegal or impossible value.

The LCD processing failed to allocate a global memory buffer

The RAM CFIG area failed its CRC calculation during a background check.

Bad String Length The system called the string format function (sprintf) with a format string greater than 59 characters.

Reload Job / Check versions of tools and panel

/ reload BIN File


/ reload BIN File


/ reload BIN File


/ reload BIN File


/ reload BIN File


/ reload BIN File

* Illegal Crash Code Erroneous call to the crash handler.

* denotes a code that should never appear.

10-12


Overview

In this Chapter

Chapter 11

Operation

This chapter describes common tasks that need to be performed following installation and programming of the 4010 FACP.

An operator logged into the system at Level 1 can perform all tasks described in this chapter.


Topic

Handling Abnormal Conditions

Viewing and Clearing Historical Logs

Viewing and Controlling Points

Editing Custom Labels

User Control Functions

Setting the Time and Date

See Page #

11-2

11-5

11-7

11-10

11-12

11-14

11-1


Handling Abnormal Conditions

Normal Operation The 4010 shows the following under normal conditions:

• Green AC power LED ON (indicating that AC power is applied)

• All other panel indicator LEDs OFF

• System Information on the LCD (SYSTEM NORMAL with the current time and date)

Abnormal Conditions Abnormal conditions are indicated on the 4010 by flashing the alarm, supervisory, or trouble LED and sounding the tone-alert. The display provides information as to the point status (alarm, supervisory, and trouble), time, date, type of device (smoke detector, pull station, etc.), number of abnormal conditions in the system, and a custom description of the abnormal condition causing the alarm. Alarm, supervisory, and trouble conditions each have their respective acknowledge key. Pressing the appropriate acknowledge key silences the tone-alert. However, the LED indicator remains ON until all initiating devices are restored to normal.

Custom Label

Point Type

FIRE=0 SUPERVISORY=0 TROUBLE=3


FIRST FLOOR EAST WING ROOM 12

Smoke Detector Trouble 1/3

First of Three

Troubles

Device Condition

Figure 11-1. Example Abnormal Condition Screens

When the 4010 senses an Alarm Condition, the tone-alert sounds at a march time rate, and the FIRE ALARM LED turns ON and flashes, indicating that an alarm condition is present. In addition, the appropriate indications are shown on the display.

When the 4010 senses a Supervisory Condition, the tone-alert sounds steady, the

SYSTEM SUPERVISORY LED turns ON and flashes, and various programmed events occur.

When the 4010 senses a malfunction within the system (loss of power, hardware failure, etc.), a Trouble Condition is announced by the system. The tone-alert sounds steady, the SYSTEM TROUBLE LED flashes, and various programmed events occur.

The tone-alert may be programmed to sound at specified time intervals to serve as a reminder that any active status condition still exists within the system

(Active Status Reminder).


11-2


Handling Abnormal Conditions,

Continued

Acknowledging an Alarm,

Trouble, or Supervisory

Condition

The 4010 is a Global Acknowledge System which means ONE (1) press of an

<ACK> key globally acknowledges every abnormal point in the system in that category. When acknowledged, an appropriate message is displayed.

When a point is acknowledged, the appropriate LED remains ON and the tonealert is silenced. The total number of alarm, trouble, and supervisory conditions is shown in an alternating sequence on the display along with a prompt to the press <ACK> for point review. Pressing <ACK> scrolls through the selected list in chronological order. Each list is different and contains information concerning a particular abnormal condition. In some cases, additional information is available on the condition by pressing <ENTER>.

Silencing Alarms When an alarm condition exists, various signals, auxiliary relays, the city connection, and the tone-alert may activate, depending on the system configuration and the stage of the alarm condition. Turning signals, tone alerts, etc. off is known as Alarm Silencing.

An important feature to be aware of when silencing alarms on the 4010 is its “resound” capability. If, after silencing the signals, the 4010 detects another abnormal condition, the zone with the abnormal condition is indicated on the panel display, the appropriate indicator again flashes, and the signals sound again.

Caution: Pressing the Alarm Silence key causes fire alarm evacuation signals to turn OFF. Follow local procedures to silence alarm evacuation signals.

To silence an alarm, press the <ALARM SILENCE> key. Two actions occur when you do this:

• The <ALARM SILENCE> key, when pressed, turns OFF all circuits programmed to follow the Alarm Silence key.

• The ALARM SILENCED LED turns ON and remains ON.

Note: If Waterflow/Sprinkler Devices are activated, notification appliances may or may not be silenced (depending on local code requirements). Usually, a dedicated bell continues to sound to indicate waterflow.


11-3


Handling Abnormal Conditions,

Continued

Resetting the System The <SYSTEM RESET> key is used to return the system to its normal state after an alarm condition has been cleared. When the <SYSTEM RESET> key is pressed, it causes any latched circuits to reset automatically. Also reset are initiating devices, relays (including the city relay), notification appliances, and all LEDs and indicators which are programmed to reset with the

<SYSTEM RESET> key. The message, SYSTEM RESET IN PROGRESS, is displayed when the key is pressed.

To reset the system, perform the following steps:

1. Restore/replace all affected devices in accordance with the instructions provided with each device.

2. Press the <SYSTEM RESET> key.

If a device stays in alarm during the reset period, the system reset is aborted, and the system remains in an alarm state. The display indicates the total number of alarms present in the system along with a prompt to use the <ACK> key to review the points. These points do not require acknowledgment. The alarm

LED remains ON to indicate that a device is still in an alarm condition.

If the system does not reset, and the display still shows an alarm, read the display to determine the type of device and the address of the device still in alarm.

Follow local procedures to investigate the area of the building with the alarm.

Look for devices still in alarm. Most devices latch until they are reset, either by the system or manually.

11-4


Viewing and Clearing Historical Logs

Overview This section describes how to view and clear the Historical Logs on the 4010.

The 4010 has three logs; Alarm, Supervisory, and Trouble. The logs can be viewed separately, or they can be viewed in chronological sequence as a single

Combined log. Each log records information about the event and the time the event occurred. Table 11-1 describes the different logs and their stored events.

Table 11-1. Historical Logs and Events

Historical Log Stored Events

ALOG

Alarm Log (up to 100 entries)

SLOG

• Alarms

• Alarm Ack (global only)

• Log cleared

• Alarm Silence

• System Reset

• Supervisory conditions

• Supervisory Ack (global only)

• Log cleared

Supervisory Log (up to 50 entries)

TLOG

Trouble Log (up to 300 entries)

CLOG

• All card and system troubles

• Login/Logout for Level 2 or higher

• Log cleared

• Walk Test events (abnormal and trouble)

• TrueAlarm peak values (if selected)

• All Events in chronological order

Combined Log (all entries)

One of 34 Alarm Log

Entries

Figure 11-2 shows an example of an Alarm Log.

ALOG: 1/34

Time and Date of Event

10:09:01 am Wed 14-May-97

Fire Alarm

Figure 11-2. Sample Alarm Log Screen


11-5


Viewing and Clearing Historical Logs,

Continued

Using the Historical Logs To view the Historical Logs, follow Steps 1 through 4.

1. From the High-Level Status screen, press <MENU>. then press <ENTER>.

<ENTER>.

To clear the log you are viewing, press <ENTER> and follow the prompts to confirm this action.

The Historical Log options are shown in Figure 11-3.

Top Level Menus

Login/

Logout

Historical

Logs

Software

Revision

• Alarm

• Supervisory

• Trouble

• Combined

Figure 11-3. Historical Log Options

11-6


Viewing and Controlling Points

Overview The 4010 allows you to view each configured point in the system and, depending on your access level, control and disable/enable the point you are viewing. This section describes how to view, control, and enable/disable points.

Controlling/Viewing Points Use the Steps 1 through 5 and Figure 11-4 to Control/View Points in a 4010. A

TrueAlarm device type and point are used as an example in this section.

1. From the High-Level Status screen, press <MENU>. and then press <ENTER>. desired device type is displayed [TrueAlarm] and then press <ENTER>. point you wish to view/control is displayed and then press <ENTER>. information about that point. Press <NEXT> or <PREVIOUS> to scroll through the allowable functions for the point you are viewing.

Panel

Restart

Top Level Menus

Control/

View Points

Login/

Logout

TrueAlarm

• View Additional Info

• Control Points

• Enable/Disable

Figure 11-4. Control/View Points Menu


11-7


Viewing and Controlling Points,

Continued

Controlling/Viewing Points

(continued)

The control functions for each point type is listed in Table 11-2.

Table 11-2. Device Type and Control Functions

Control Functions View Functions Device Type

TrueAlarm Control:

• Clear Verification Tally

• Force on Device LED

• Change Sensitivity

• Clear Peak Value

• Change TrueTest State

• Manually Control Sounder, Relay or

Isolator

View:

• Address

• Device Type

• Point Type

• Sensitivity

View:

• Address

• Device Type

• Point Type

Same as ZAMS/IAMS

ZAMS/IAMs Control:

• Clear Verification Tally

• Force on Device LED

• Change TrueTest State

Relay/RIAMs Control:

• ON/OFF/Auto/Change Priority

NACs Control:


Digital Pseudos Control:

• ON/OFF/Change Priority

Analog Pseudos SET analog value for the point (Range - 0 to

65535)

Lists

Control: ON/OFF/Auto

View:

• List Counts

• List Contents

24-I/O Inputs Turn on Card LED

24-I/O Outputs

System Points

Control:


VIEW ONLY, NO CONTROL ALLOWED

Same as ZAMS/IAMS

Same as ZAMS/IAMS

Same as ZAMS/IAMS

Same as ZAMS/IAMS

Same as ZAMS/IAMS

Same as ZAMS/IAMS

Same as ZAMS/IAMS


11-8


Viewing and Controlling Points,

Continued

How to Disable/Enable Points Use Steps 1 through 6 to disable/enable points in a 4010. A TrueAlarm device type and point are used as an example in this section.

1. From the High-Level Status screen, press <MENU>.

How to Disable Points in

Alarm and then press <ENTER>. desired device type is displayed [TrueAlarm] and then press <ENTER>. point you wish to disable/enable is displayed and then press

<Disable/Enable>. press <ENTER>.

A Disable Trouble sounds at the FACP when disabling points. NACs are isolated when disabled. The 4010 preserves the disable state of a point on a warm start.

When a disabled monitor point is enabled, the 4010 displays a 30 second count down, displaying the time until the point is enabled. When enabling a point that is still in an alarm state, the FACP warns you that the point is in alarm. The FACP gives you 30 seconds that allows you to abort the enabling of that point.

Use the Steps 1 through 3 to disable/enable points in alarm on a 4010. You must be logged in at the appropriate level to disable/enable points.

1. From the High-Level Status screen, press <Alarm ACK>.

2. Continue to press <Alarm ACK> until the desired point is displayed and then press <Disable/Enable>.

11-9


Editing Custom Labels

How to Edit a Custom Label To Edit a Custom Label of a point, use Steps 1 through 11. As an example, editing the label of a TrueAlarm point is used in the following steps and in

Figure 11-5. Once in the Programming Mode, the 4010 is OFF-LINE.

1. Login to the 4010 at the appropriate level.

3. Press

óNEXT> or < PREVIOUS> to scroll through the menu until

[Programming] is displayed and then press <ENTER>.

4. Press

óNEXT> or < PREVIOUS> to scroll through the menus until

[Configure Points] is displayed and then press <ENTER>.

5. Press

óNEXT> or < PREVIOUS> to scroll through the menus until the type of point you wish to configure is displayed [TrueAlarm] and then press

<ENTER>.

6. Press


[Edit TrueAlarm Point] is displayed and then press <ENTER>.

7. Press

óNEXT> or < PREVIOUS> to scroll through the TrueAlarm points until the point you wish to edit is displayed and then press

<ENTER>.

8. Press


[Edit Point Label] is displayed and then press <ENTER>.

Top Level Menus

Quick CFIG Programming Upload/

Download

Configure

Points

TrueAlarm

Edit

TrueAlarm

Point

Figure 11-5. Editing a Custom Label Menu Structure

Edit Point

Label


11-10


Editing Custom Labels,

Continued

How to Edit a Custom Label

(continued)

An edit point label screen appears (Figure 11-6) with the first character of the existing label underlined.

Point Label

Fire Monitor Zone

Figure 11-6. Edit Point Label Screen

9. Press óNEXT> or < PREVIOUS> to scroll through the character set.

Use <

ö> or <ì> to move to the next character in the label. The

<Disable/Enable> key overwrites characters with a space.

Pick a label that best suits the location of the device. The 4010 provides up to 40 characters per line (including spaces). The available characters are as follows:

 Digits 0-9

 Alpha A-Z (only capital letters are available)

 Punctuation comma space & ( ) * + - period

/ : ‘ # ! @ $ % ^ = ? ;

10. Press <ENTER> once the label reads correctly. Press <ENTER> again to confirm the change to the label. For changes to take effect, press

<EXIT/CLEAR> until a confirmation screen appears.

11. Once you complete the editing, the 4010 prompts you to save the new information to the CFIG. Press <

ö> or <ì> to select [Save CFIG] and press <ENTER> to save the information.

11-11


User Control Functions

Overview

Using the Function Options

User control functions, such as Manual Evac, City Disconnect, Control Point

Bypass and Elevator Recall Bypass, are available from the High Level Status screen by pressing <FUNCTION>. Pressing <FUNCTION> also accesses operations including latching earth faults, displaying the current time and date when the system is abnormal, and performing lamp test.

In addition to the pre-defined functions listed above, the 4010 supports two

“User-Defined” function keys. The two user-defined key choices in the function menu are “User Defined 1” and “User Defined 2.” These user-defined keys may be programmed to perform often used functions. A 40-character custom label may be assigned to these user-defined keys.

Use Steps 1 through 3 to access the Function Control menu.

1. From the High-Level Status screen, press <Function>.

(see Table 11-3) until the desired option is displayed and then press

<ENTER>. then press <ENTER>.


11-12


User Control Functions,

Continued

Using the Function Options

(continued)

Table 11-3 lists the function options and their descriptions.

Table 11-3. Function Menu Options and Descriptions

Function Option Description

Manual Evacuation Activates the Manual Evacuation operation

(NACs activate and Fire Alarm LED flashes until Ack’d).

City Circuit Disconnect* Disconnects the City Circuit.

Control Point Bypass*

Elevator Bypass*

Bypasses the following Control Points:

• On until Silence signals signals

• AHU

Bypasses the Elevator Recall.

Doorholder Bypass*

Lamp Test

Earth Fault Latch

Bypasses Doorholder operation.

Illuminates all LEDs and all LCD segments on the display.

Latches intermittent Earth Fault Troubles into the 4010.

One of two user-defined function keys. User Defined Key 1

User Defined Key 2 One of two user-defined function keys.

Display Current Time Displays current time during abnormal conditions.

*Activation of these options causes a trouble at the FACP.

11-13


Setting the Time and Date

Use Steps 1 through 5 and Figures 11-6 to set the time and date.

An accurate time and date setting is essential to the proper operation of the 4010 system. The time and date should be checked at least once a month and reset, as described below, if necessary.

1. From the High-Level Status screen, press <MENU>. then press <ENTER>.

3. Press

ì> or <ö> to move the focus brackets to the desired field (hours, minutes, date, month, year).

5. Once all fields are set, press <ENTER> to set the time and date.

Top Level Menus

Diagnostics Set

Time/Date

Walk Test

• Hours

• Minutes

• Date

• Month

• Year

Figure 11-7. Set Date/Time

11-14


Overview

In this Chapter

Appendix A

Device and Point Types

Each point in the 4010 has both a hardware device type and a software point type. The hardware device type is determined by the hardware used. This is used to determine what physical states exist for the point. The hardware device type also determines the valid software point types that can be assigned to a point.

The software point type defines which "banner" and "status" is used in displaying a point when it changes state on the display or is logged to the historical log. The software point type, especially for output points, also defines the default application programming. For example a NAC with a point type of

SSIGNAL indicates that the signal circuit activates on alarm until silence.

This chapter describes the Hardware Device and Software Point Types available with the 4010. For more information on Analog, Digital, List, and 24-Point I/O point types, refer to “Appendix B. Hardware and Pseudo Points” in this publication.



Overview A-1

Hardware Device Types

Software Point Types

A-2

A-5

A-1


Hardware Device Types

Overview

TrueAlarm Hardware Device

Types

Device Type

IION

HEAT

SHEAT

RHEAT

IHEAT

OHEAT

SOHEAT

ROHEAT

IOHEAT

PHOTO

SPHOTO

RPHOTO

IPHOTO

XPHOTO

XSPHOTO

XRPHOTO

XIPHOTO

ION

SION

TION

RION

The 4010 supports IDNet devices as Fire Alarm input and output, as well as four hardwired output points, and two auxiliary relay output points.

Table A-1 lists the TrueAlarm Hardware Device Types available with the 4010

FACP.

Table A-1. TrueAlarm Hardware Device Types

Description

TrueAlarm photoelectric sensor

TrueAlarm photoelectric sensor with sounder base

TrueAlarm photoelectric sensor with relay base

TrueAlarm photoelectric sensor with isolator base

TrueAlarm extra-sensitive photoelectric sensor

TrueAlarm extra-sensitive photoelectric sensor with sounder base

TrueAlarm extra-sensitive photoelectric sensor with relay base

TrueAlarm extra-sensitive photoelectric sensor with isolator base

TrueAlarm ionization sensor

TrueAlarm ionization sensor with sounder base

True Alarm single station ionization sensor

TrueAlarm ionization sensor with relay base

TrueAlarm ionization sensor with isolator base

TrueAlarm fixed temperature heat sensor

TrueAlarm fixed temperature heat sensor with sounder base

TrueAlarm fixed temperature heat sensor with relay base

TrueAlarm fixed temperature heat sensor with isolator base

TrueAlarm fixed temperature and rate of rise heat sensor

TrueAlarm fixed temperature and rate of rise heat sensor with sounder base

TrueAlarm fixed temperature and rate of rise heat sensor with relay base

TrueAlarm fixed temperature and rate of rise heat sensor with isolator base


A-2


Hardware Device Types,

Continued

TrueAlarm Levels and

Sensitivities

Sensitivities and corresponding levels are shown in Table A-2 for TrueAlarm types.

Table A-2. TrueAlarm Levels and Sensitivities

Levels Sensitivities

Monitor Hardware Device

Types

Level 1

Level 2

Level 3

Level 4

Level 5

Level 6

Level 7

0.5% °F (X°C)

0.9% °F (57°C)

1.3% °F (68°C)

1.7% °F (68°C)

1.7% °F (68°C)

1.7% °F (68°C)

1.7% °F (68°C)

Table A-3 lists the Monitor Hardware Device Types for the 4010.

Table A-3. Monitor Hardware Device Types

Device Type Description

MAZAM

MBZAM

ADRPUL

SIAM

CANPUL

KACPUL

Class A Monitor ZAM (T-sense)

Class B Monitor ZAM (T-sense)

Addressable Pull Station

Supervised IAM (T-sense)

Canadian 2-stage Pull Station

International KAC Pull Station


A-3


Hardware Device Types,

Continued

4009A Hardware Device Types Table A-4 lists the 4009A hardware device types. (Note: Each 4009A is located at “virtual card” address 17.)

Table A-4. 4009A Hardware Device Types

Device Type Description

R4009A

4009A8

R4009A8

4009A with repeater

4009A with four-NAC option board

4009A with four-NAC option board and repeater

A-4


Software Point Types

Monitor Point Types Table A-5 lists the monitor point types and their descriptions.

Table A-5. Monitor Point Types

Point Type Description

FIRE Fire alarm (generic)

PULL

VSMOKE

ABORT

SFIRE

VSFIRE

SPULL

VSPULL

SGENMON

FPUMP

SFPUMP

S2STAGE

SO

WSO

SDUCT

SUPDET

SUPABRT

SUPDUMP

SUPPRES

Pull station - manual

Verified smoke zone

Abort Zone (pre-signal)

Combination Smoke/Fire zone

Verified Combination Smoke/Fire zone

Combination Smoke/Pull zone

Verified Combination Smoke/Pull zone

Supervisory generator monitor

Fire pump monitor

Supervisory fire pump monitor

2-stage monitor (abn=pre-signal, short=alarm)

Sprinkler supervision (normally open)

Waterflow/sprinkler supervision (normally open)

Supervisory Duct Detector

Suppression Release detector zone

Suppression Release abort zone

Suppression Release manual dump

Suppression Release pressure monitor

DAMPER

STYLEC

GVMON

Damper Monitor (open/closed)

Current limit = fire alarm, short/open = trouble

Generic verified monitor


A-5


Software Point Types,

Continued

Signal Point Types Every 4010 has four Notification Appliance (signal) points. The default configuration is SIG1 & SIG2 “on ‘til silence” (point type = SSIGNAL) and

SIG3 & SIG4 “on ‘til reset” (point type = RSIGNAL).

Table A-6 lists the signal point types and their descriptions.

Table A-6. Signal Point Types


SIGNAL

SSIGNAL

RSIGNAL

SVISUAL

RVISUAL

SWATER

RWATER

SUPV

SUPREL

PRIMARY

ALTERN

AHUR

AHUO

AHUF

Generic signal (no default operation)

Alarm signal - on ’til silence (temporal coded)

Alarm signal - on ’til reset

Visual - on ’til silence

Visual - on ’til reset

Waterflow signal - on ’til silence

Waterflow signal - on ’til reset

Sprinkler supervisory signal - on ’til ack

Suppression (agent discharge) release output

Elevator capture - primary

Elevator capture - alternate

AHU on/off relay - single relay control

AHU on relay - dual relay control

AHU off relay - dual relay control

TSIGNAL

BSIGNAL

Trouble/supervisory signal - on ’til clear

Trouble/supervisory "bell" signal - on ’til acknowledged


A-6



Continued

Relay Point Types The 4010 includes two AUX relay points configured as AUX1 and AUX2. The default point type settings for AUX1 set as an Alarm relay on until reset (point type = RRELAY) and AUX2 set as a Trouble/Supervisory relay on until clear

(point type = TRELAY).

Table A-7 lists the Relay point types and their descriptions.

Table A-7. Relay Point Types


PRIMARY Elevator Capture - primary

ALTERN Elevator Capture - alternate

AHUR

AHUO

AHUF

SRELAY

RRELAY

TRELAY

BRELAY

AHU on/off relay - single relay control

AHU on relay - dual relay control

AHU off relay - dual relay control

Alarm Relay - on ‘til silence

Alarm relay - on 'til reset

Trouble relay - on til clear

Trouble relay - on til acknowledge

SWATER

RWATER

Waterflow relay - on ‘til silence

Waterflow relay - on ‘til reset

SVISUAL

RVISUAL

SUPREL

SIGNAL

Visual - on ‘til silence

Visual - on ‘til reset

Suppression (agent discharge) release output

Generic Signal (no default operation)


A-7



Continued

TrueAlert Non-Addressable

Point Types

TrueAlert Non-Addressable operation for a particular NAC is enabled by selecting the QALERT software point types. Two types of points exist – one under system control and one with no system mode, which allows you to use

Custom Control to perform selective signaling.

Table A-8. TrueAlert Non-Addressable Point Types


QALERT This point type has no automatic operation.

All operations for this point type must be programmed using Custom Control.

SQALERT When the SQALERT point type is selected, the system does the following:

-

Automatically turns ON the designated circuit on alarm detect.

-

Issues the Horn Silence command upon

Alarm Silence.

-

Turns OFF the circuit at the completion of

System Reset.

Any point programmed with this point type will not be available for Custom Control programming.

A-8


Overview

In this Chapter

Appendix B

Hardware and Pseudo Points

This chapter describes the points that may exist in all 4010 systems. The points are broken up into two major groups, hardware points and pseudo points.

Furthermore, each of these groups is broken down by card.



Overview B-1

Hardware Points B-2

Pseudo Points B-14

B-1


Hardware Points

Introduction

General Card Status Point

Information

Master Controller Card

Master Controller Card Status

Points

Master Controller Points

There are many different types of hardware points that exist in the 4010 system.

They include system points that are read only to the user, points on the IDNet channel, points on optional cards, public 4120 network points, and card status points. Many of these points may be referenced in Custom Control in both the input and output sides of an equation, depending on the Custom Control operation, and the type of point (refer to “Chapter 8 - Custom Control and

Restoring/Saving CFIG” for more information). The following sections will describe each hardware point for each card in the system, both default and optional.

This section describes attributes that apply to all card status points in the 4010.

Card status points are used to indicate card troubles in the system. Card status points may only be viewed from the Active Trouble List, the Historical Logs, or on a RS232 port (if available). When viewing a card status point, a banner will be displayed that will indicate that the trouble is a card status trouble, and which card the point is associated with. A card status point label will also be displayed to indicate the type of card status trouble it is.

Note: A card status point cannot be used in Custom Control or with

LED mode programming.

The Master Controller Card resides at Card Address 0 and contains 13 hardware points. The Master Controller Card is required in all 4010 configurations.

The Master Controller Card does not have any card status points associated with it.

The Master Controller Card has 13 hardware points associated with it. Of the 13 hardware points, eight are system points which are not editable by the user. The other five master points can be configured by the user. Table B-1 shows a list of the Master Controller points. The type field denotes which class the point falls into (R=System point that is Read Only to user, U=User Configurable Points).


B-2


Hardware Points,

Continued

Master Controller Points

(continued)

Table B-1. Master Controller Points

Point Type

0-1 R

Label

Front Panel Piezo

Description

Indicates the status of the Piezo Sounder on the 4010

Master.

0-2 R External N2 Disconnect

Relay

Indicates the status of the External N2 Disconnect

Relay. Turns on when no slaves are communicating; turns off on System Reset.

0-3

0-4

0-5

0-6

R

R

R

R

Fire LED

Supervisory LED

Trouble LED

Alarm Silence LED

Status of the front panel Alarm LED.

Status of the front panel Supervisory LED.

Status of the front panel Trouble LED.

Status of the front panel Alarm Silence LED.

0-7

0-8

R

U

AC Power LED

User LED 1

0-9

0-10

0-11

0-12

0-13

U

U

U

U

R

User LED 2

User LED 3

User Defined Key 1

User Defined Key 2

LCD Backlight

Status of the front panel AC Power LED.

This point indicates the status and configuration of the first user programmable LED on the front panel.

This point indicates the status and configuration of the second user programmable LED on the front panel.

This point indicates the status and configuration of the third user programmable LED on the front panel.

This point indicates the status and configuration of the first user programmable key (in the function menu).

This point indicates the status and configuration of the second user programmable key (in the function menu).

Indicates the status of the LCD backlight on the front panel.

NAC Card The NAC (Notification Appliance Circuit) Card is required for all 4010 configurations, and is located at Card Address 1. There are seven hardware points and eight card status points associated with the NAC card.

NAC Card Status Points The NAC Card has eight card status points associated with it. Table B-2 describes the card status points for the NAC card.


B-3



Continued

NAC Card Status Points

(continued)

Table B-2. Card Status Points for NAC Card

Point Label

1-CS 1 Missing Card

Description

This trouble indicates that the NAC card is not communicating with the master.

1-CS2 Wrong Card This trouble indicates that the card returned a card type as something other than a NAC card type.

1-CS3 NACs 1 & 2 Class A

1-CS4

1 -CS5

1-CS6

NACs 3 & 4 Class A

NAC 1 Signal Power

NAC 2 Signal Power

NAC 1 and 2 Class A card not inserted trouble. Only occurs if circuits are configured with NACA device type.

NAC 3 and 4 Class A card not inserted trouble. Only occurs if circuits are configured with NACA device type.

Indicates a signal power trouble for NAC 1.

Indicates a signal power trouble for NAC2.

1-CS7

1-CS8

NAC 3 Signal Power

NAC 4 Signal Power



NAC Card Points The NAC has seven hardware points associated with it. Of the seven hardware points, six are points which may be programmed by the user. The other point is the City Circuit point which is not available for programming or viewing by the user. The following table is a list of the points on the NAC card. The type field denotes which class the point falls into (S=System point that is not available to the user for viewing or programming, U=User Configurable Points).

Table B-3. System and User Points of NAC Card

Point Type Label

1-1 U NAC Circuit: SIG 1

Description

NAC card Signal 1 status and configuration.

1-2

1-3

1-4

1-5

1-6

1-7

U

U

U

U

U

S

NAC Circuit: SIG 2

NAC Circuit: SIG 3

NAC Circuit: SIG 4

AUX Circuit: AUX 1

AUX Circuit: AUX 2

City Circuit




NAC card Relay 1 status and configuration.

NAC card Relay 2 status and configuration.

Interface 4010 City Module.


B-4



Continued

Power Supply Card

Power Supply Card Status

Points

The Power Card has two card status points associated with it. The following table describes the card status points for the Power Supply card.

Table B-4. Card Status Points for Power Supply Card

Point Label

2-CS1 Missing Card

Description

This trouble indicates that the Power Supply card is not communicating with the master.

2-CS2 Wrong Card This trouble indicates that the card returned a card type as something other than a Power Supply card type.

Power Supply Points

The Power Supply Card is required for all 4010 configurations, and is located at

Card Address 2. There are nine hardware points and two card status points associated with the Power Supply card.

The Power Supply card has nine hardware points associated with it. All of the

Power Supply points are system points that cannot be modified by the user.

Table B-5 displays a list of the points on the Power Supply card.


B-5



Continued

Power Supply Points

(continued)

Table B-5. Points on the Power Supply Card

Point Label

2-1 AC Power

Description

This trouble point will indicate that the AC line voltage is too low for proper system operation.

2-2

2-3

2-4

Positive Earth Ground

Negative Earth Ground

This trouble point indicates that there is a fault condition between

+24V and Earth.

This trouble point indicates that there is a fault condition between 0V and Earth.

Expansion Power Supply This trouble point indicates Expansion Power Supply trouble. Only occurs if expansion supply is configured.

2-5

2-6

2-7

2-8

Expansion Power Supply

Battery

Battery Low

Battery Depleted or

Disconnected

Battery Low Cutout

This trouble point indicates Expansion Power Supply AUX Battery

Power trouble. Only occurs if expansion supply is configured.

This trouble point indicates that the battery has a voltage less than

22.8V.

This trouble point indicates that the battery has a voltage less than

19.5V.

This trouble point indicates that AC Power has been lost and the batteries have reached a depleted state, the system shuts off.

2-9 Battery Charger This utility point indicates the status of the battery charger (on/off).

IDNet Card The IDNet Card is required for all 4010 configurations, and is located at Card

Address 3. The IDNet Card defaults to a configuration with no hardware points

(devices). However, up to 250 devices may be programmed for the IDNet Card.

The IDNet Card also includes eight card status points.

IDNet Card Status Points The IDNet Card has eight card status points associated with it. Table B-6 describes the card status points for the IDNet card.


B-6



Continued

IDNet Card Status Points

(continued)

Table B-6 Card Status Points for the IDNet Card.

Point Label

3-CS1 Missing Card

Description

This trouble indicates that the IDNet card is not communicating with the master.

3-CS2 Wrong Card

3-CS3

3-CS4

Channel Failure

Extra Device

This trouble indicates that the card returned a card type as something other than a IDNet card type.

This trouble indicates a channel failure on the IDNet line (no devices are communicating).

This trouble indicates that there is a device answering that is not included in the configuration (view the trouble log to determine the devices address).

3-CS5

3-CS6

Class A Status This trouble indicates a Class A trouble condition on the IDNet line.

This requires a System Reset to clear.

Power Supply Status This point indicates a power supply trouble on the IDNet card.

3-CS7

3-CS8

Short Status This trouble point indicates a short condition on the IDNet card.

Ground Fault Status This trouble indicates that there is a ground fault in the IDNet line.

IDNet Points

3-1

3-2

3-3

↓

↓

3-249

3-250

The IDNet card can have up to 250 devices configured. All of the IDNet devices can be modified by the user. How the point is configured (i.e. software point type) determines what action is taken (trouble, alarm, etc.) when the point changes state. The following table is a list of the points that may be included on the IDNet card. The labels indicated for the points are the default labels assigned when the point is added from the front panel.

Table B-7. Points That May Appear on a IDNet Card

IDNet Device: M1-1

IDNet Device: M1-2

IDNet Device: M1-3

Description

The point on the IDNet card configured for address 1.

The point on the IDNet card configure for address 2.


IDNet Device: M1-249

IDNet Device: M1-250




B-7



Continued

RS232/Modem Card Either an RS232 Card or Modem Card may be added to the 4010 system. Even though these cards are optional, if an RS232 or Modem card is configured, it must reside at Card Address 4. There are two hardware points and eight card status points associated with the both the RS232 card and Modem card.

RS232/Modem Card Status

Points

Both the RS232 Card and the Modem Card have eight card status points associated with them. The card status points described in this section apply to either card. The following table describes the card status points for both the

RS232 or Modem card.

Table B-8. Card Status Points for RS232 or Modem Card

Point Label

4-CS1

4-CS2

4-CS3

Missing Card

Wrong Card

Port A Disconnected

Description

This trouble indicates that the card is not communicating with the master.

This trouble indicates that the card returned a card type as something other than a RS232 or Modem card type (respectively).

If Port A is a supervised port, and disconnected, this point will indicate this with a trouble.

4-CS4 Port B Disconnected

4-CS5

4-CS6

4-CS7

4-CS8

Primary Telco

Secondary Telco

Port A Ground Fault

Port B Ground Fault

If Port B is a supervised port, and disconnected, this point will indicate this with a trouble.

This point indicates a trouble in the Primary Telco line (not presently supported).

This point indicates a trouble in the Secondary Telco line (not presently supported).

This point indicates a ground fault trouble on Port A (not presently supported).

This point indicates a ground fault trouble on Port B (not presently supported).

RS232/Modem Points The RS232 and Modem cards have two hardware points associated with them.

Both of the RS232/Modem points are user configurable. However, the points have no labels associated with them, because they cannot be viewed on the front panel. Table B-9 is a list of the points on the RS232/Modem cards.


B-8



Continued

RS232/Modem Points

(continued)

Table B-9. Points on the RS232/Modem Cards

Point Label Description

4-1 None Port A point. Default to unsupervised 80 character

Printer port.

4-2 None Port B point. Default to command line port.

DACT Card

DACT Card Status Points The DACT Card has seven card status points associated with it. The following table describes the card status points for the DACT card.

Table B-10. Card Status Points for SDACT Card

Point Label

8-CS1 Missing Card

Description


8-CS2 Wrong Card

8-CS3

8-CS4

Central Station

Phone Line 1

This trouble indicates that the card returned a card type as something other than an DACT card type.

This trouble indicates that communication was lost with the Central

Station.

This trouble indicates that Phone Line 1 has been disconnected.

8-CS5

8-CS6

Phone Line 2 This trouble indicates that Phone Line 2 has been disconnected.

Program Checksum This trouble indicates that the on board DACT card checksum test has failed.

Mismatch

This trouble indicates that the configuration loaded on the DACT card differs from the configuration on the master.

SDACT Points

The DACT card is an optional card that may be added to the 4010 system. The

DACT card is mutually exclusive with the Network card, and if configured, must reside at Card Address 8. There is one hardware point and seven card status points associated with the DACT card.

The SDACT card has one hardware point associated with it. The point does not have a label, because it cannot be viewed from the front panel. Table B-11 describes the point on the SDACT card.


B-9



Continued

SDACT Points (continued)

Table B-11. Point on the SDACT Card

Point Label

8-1 None SDACT Port.

Description

Network Card The Network card is an optional card that may be added to the 4010 system.

The Network card is mutually exclusive with the SDACT card, and if configured, must reside at Card Address 8. The network card allows the 4010 to serve as a network node for a 4120 network. Points on the 4010 may be declared public to the 4120 network. These points are the Network Status points, and will be described in this section. There are also seven card status points associated with the Network card.

Network Card Status Points The Network Card has seven card status points associated with it. The following table describes the card status points for the Network card.

Table B-12. Card Status Points for the Network Card

8-CS1*

8-CS2

Missing Card

Wrong Card


This trouble indicates that the card returned a card type as something other than a Network card type.

8-CS3 Version Mismatch This trouble indicates that the 4010’s current configuration differs from versions on other nodes.

8-CS4 Net Comm

Failure

This trouble indicates that communication was lost between the Network card and the 4120 network.

8-CS5

8-CS6

Ground Fault

Duplicate Node

This trouble indicates that there is a ground fault in the network line.

This trouble indicates that more than one node on the 4120 network is answering for the same address (not presently supported).

8-CS7 Network Miswire This trouble indicates that the port-to-port network wiring is incorrect (i.e. left-to-left or right-to-right).

* CS = Card Status

Network Points The Network card can have up to 511 network points configured. Table B-13 shows a list of the points that may be configured on the Network card. The

Common Trouble Point is the only default point for the Network card.


B-10



Continued

Network Points (continued)

Table B-13. Points That May Be Configured on Network Card

Point Label

NetPt1 None

Description

This point is the Network Common Trouble Point. This point is public on the network.

NetPt2 None

NetPt3 None

This point contains the Network Type, Class, Destination, and Reference for the second network public point.

This point contains the Network Type, Class, Destination, and Reference for the third network public point.

↓

↓

NetPt510 None

NetPt511 None

This point contains the Network Type, Class, Destination, and Reference for the

510th network public point.

This point contains the Network Type, Class, Destination, and Reference for the

511th network public point.

24I/O Card The 4010 can have up to six annunciator cards added to the system. One of these cards is the 24I/O card. The 24I/O card can reside at addresses 9 through

14. There are 24 hardware points and two card status points associated with the

24I/O card.

24I/O Card Status Points The 24I/O Card has two card status points associated with it. The following table describes the card status points for the 24I/O card.

Table B-14. Status Points on the 24I/O Card

Point Label

Card-CS1* Missing Card

Description


Card-CS2 Wrong Card This trouble indicates that the card returned a card type as something other than an 24I/O card type.

*CS = Card Status


B-11



Continued

24I/O Points Each 24I/O card has 24 hardware points associated with it. All hardware points on the 24I/O card can be programmed by the user. The functionality of the point depends on the device type (Input or Output), the point type, and modes programmed against it. The labels for the points on the 24I/O card are default labels, and cannot be changed by the user. The following table describes the organization of points on the 24I/O card.

Table B-15. Point Organization on the 24I/O Card

Point Label

Card-1 I/O Card #, Point 1

Description

The 1st point on the 24I/O card.



↓

↓



The 2nd point on the 24I/O card.

The 3rd point on the 24I/O card.

The 23rd point on the 24I/O card.

The 24th point on the 24I/O card.

LCD Card The 4010 can have up to six annunciator cards added to the system. One of these cards is the LCD card. The LCD card can reside at addresses 9 through

14. There are five hardware points and four card status points associated with the LCD card.

LCD Card Status Points The LCD Card has four card status points associated with it. The following table describes the card status points for the LCD card.

Table B-16. Card Status Points for the LCD Card

Point Label

Card-CS1* Missing Card

Description


Card-CS2 Wrong Card This trouble indicates that the card returned a card type as something other than an LCD card type.

Card-CS3 LCD Membrane This trouble indicates that there is a problem with the keypad on the LCD card.

Card-CS4 LCD Display This trouble indicates that there is a problem with the display on the LCD card.

* CS = Card Status


B-12



Continued

LCD Points The LCD card has five hardware points associated with it. Only the first three hardware points (user LEDs) on the LCD card can be programmed by the user.

The labels for the points on the LCD card are default labels, and cannot be changed by the user. The following table describes the points included on the

LCD card.

Table B-17. Points on the LCD Card

Point Label

Card-1 LCD Card #, Point 1

Description

The status of the First User LED on the LCD card. Programmable for color and mode.

Card-2 LCD Card #, Point 2

Card-3

Card-4

Card-5

LCD Card #, Point 3

LCD Card #, Point 4

LCD Card #, Point 5

The status of the Second User LED on the LCD card.

Programmable for color and mode.

The status of the Third User LED on the LCD card. Programmable for color and mode.

The status of the Alarm Silence LED on the LCD card.

The status of the Piezo Sounder on the LCD card.

B-13


Pseudo Points

Introduction

Digital Pseudo Points

Like the 4100 and 4005, there are three types of pseudo points that exist in every system. They include digital, analog, and list pseudos. Each of these types may be referenced in Custom Control in both the input and output sides of an equation. Reserved system pseudo points are used to indicate system trouble or alarm indications, control diagnostics or other system functions, and to communicate information between the 4010 Master and SMPL. Some pseudos are set by the system and are read only to the user. Other pseudos are either set from SMPL or from the front panel as a cue for the system to perform some operation. Pseudo cards contain no card status points.

Every 4010 system has two Digital Pseudo "cards" at addresses 18 and 19. The first card is reserved for system pseudo points while the second is available to the user. Each contains 75 digital pseudo points which may be programmed as shown in Table B-18.

Table B-18. Programming Digital Pseudo Points

Type Description

UTILITY Utility point (ON/OFF - no acknowledge required).

ALARM

SUPV

Fire alarm point.

Supervisory point.

TROUBLE Trouble point.

Each system digital pseudo point falls into one of the following three categories shown in Table B-19.

Table B-19. Categories for Digital Pseudo Points

Class

R

RW

W

Description

Point is controlled by the 4010 master and is read only to the end user.

Point is controlled by the 4010 master but may also be controlled by the end user (front panel or SMPL).

Point is controlled by the end user and is read by the 4010

Master in order to accomplish some function or operation.


B-14


Pseudo Points,

Continued

4010 System Digital Pseudos

Point Type

D1 R U

Label

Unacked Fire in System

D2 R U Unacked Supervisory in System

D3

D4

D5

D6

D7

D8

D9

D10

D11

D12

D13

R U

R T

R T

RW U

R T

R T

RW F

R T

R T

RW U

R T

The system digital pseudo card in the 4010 system is located at Card Address 18.

It contains a total of 75 reserved system pseudo points that cannot be edited.

The following table list the system pseudo points. The type field denotes which class (see above) the point falls into, and what its type is (U =UTIL, F=FIRE,

T=TROUBLE, S=SUPERVISORY).

Table B-20. System Pseudo Points

Unacked Trouble in System

Extra N2 Card

External N2 Trouble

User SMPL Program

Cold Start

Warm Start / Check Time and

Date

Manual Evacuation

System Time and Date

Simplex Service Mode

Keypad Inactivity Timer Disable

Active List Overflow

Description

On if unacked fire exists in system.

On if unacked supervisory exists in system.

On if unacked trouble exists in system.

Turned on at panel startup if an unprogrammed N2 slave card is detected.

Only clears on panel restart.

Turns on when panel is no longer communicating with ALL slave cards.

Turns off on a System Reset.

On when User SMPL program is active.

Indicates that panel has performed a cold start. Turns of when acknowledged.

Indicates that panel has performed a warm start. Turns off when acknowledged.

Turns on when Manual Evacuation is selected. Turns off on a System Reset.

Indicates that the time and date is incorrect. Turns off when time and date is updated.

Indicates that the panel is in Service

Mode. Turns off only on a panel restart.

Disables Keypad Inactivity timer.

Turns on when the number of alarms, supervisories, or troubles is greater than the system active list size (100 fires, 50 supv, 300 troubles). Turns off on a panel restart.


B-15


Pseudo Points,

Continued


(continued)

Table B-20. System Pseudo Points (Continued)

Point Type

D14

D15

D16

RW T

R T

-

Label

City Disconnect

City Circuit Trouble

AHJ City Reset Utility Point

D17

D18

D19

D20

RW T

RW T

RW T

RW T

Control Point Bypass

Elevator Bypass

Doorholder Bypass

Verification Tally Limit Exceeded

D21

D22

D23

D24

D25

D26

D27-D30

D31

D32- D35

D36

D37- D44

D45

D46

D47

R T

R U

R T

R T

RW U

RW U

-

R U

R U

-

RW T

-

R T

Walk Test Active in System

Earth Fault Latch

TrueTest Active in System

Programming Mode - System

Disabled

System Reset Activated

Alarm Silence Activated

Reserved System Pseudo Point

Network Running in Style 4


No CRT Connected


Duplicate IDNet Device Detection

Active

Weak Answer

Event Queue Overflow

Description

On if city circuit is disconnected.

On if city circuit is in trouble.

On if city circuit reset is enabled.

On if control points are bypassed.

On if elevator recall points are bypassed.

On if doorholder points are bypassed.

On when any verified points tally limit exceeds10. Off when all points tally limit is below 10.

On when Walk Test is active.

On when Earth Fault Latch diagnostic is active.

On when TrueTest is active.

On when Programming or Quick-CFIG is entered. Panel is no longer operational.

On when System Reset Starts.

On when Alarm Silence Starts.

Unused.

On if network is running in Style 4.

Unused.

On if no set-host session is active on network card.

Unused.

When on (either through front panel or

SMPL) it enables the duplicate device detection diagnostic on the IDNet card.

When on (either through front panel or

SMPL) it detects devices beyond specifications by reducing sensitivity of receiver.

On when the RS232/LCD annunciator event queue is overflowed and events have been missed. Panel restart clears the trouble.


B-16


Pseudo Points,

Continued


(continued)

Table B-20 System Pseudo Points (Continued)

Point Type

D48 W T

Label

LCD Annunciator Sounder Disable

Description

When on the panel tells all LCD

Annunciators to disable their local sounder. Turning pseudo off will enable the sounders. Controllable from front panel only- not SMPL.

D49

D50

W U

W U

IDNet Boost

Device Almost Dirty

D51

D52

W U

R U

TrueAlarm Peak Log Enable

RS232 Port A Disconnected

When on it boosts the IDNet levels.

When active it forces IDNet almost dirty troubles to report.

When on any peak value change recorded on IDNet devices is sent to the

Trouble Log.

On whenever nothing is connected to Port

A on the RS232 or RS232/Modem card.

D53

D54-D57

D58

D59

R U

-

R U

R U

D60 -

↓

↓

D75 -

RS232 Port B Disconnected


Network System Reset

Network Signal Silence

On whenever nothing is connected to Port

B on the RS232 or RS232/Modem card.

Unused.

Unused.

Unused.

4010 User Digital Pseudos The user digital pseudo card in the 4010 is at address 19. It has 75 points available for specialized applications programming. Any point may be programmed as one of the four types of digital pseudos (i.e. UTILITY, FIRE, etc.), and each may be assigned a 40 character custom label.

Note that any user pseudo points defined as FIRE type are not auto-generated in the General Alarm List (L1), and SUPERVISORY points are not generated into the Supervisory Monitor List (L8).


B-17


Pseudo Points,

Continued

Analog Pseudo Points

4010 System Analog Pseudos The 4010 system has one analog pseudo card reserved for system use at Card

Address 20. It contains a total of 25 points. At present, only the first seven are used but the remainder are reserved for future expansion.

Table B-21. 4010 System Analog Pseudos

Point Label

A1 Fire Count

Description

Number of fire alarms active in system.

A2

A3

Supervisory Count

Trouble Count

Number of supervisory alarms active in system.

Number of troubles active in system.

A4

A5

A6

A7

System Startup

Almost Dirty Device Count

Dirty Device Count

Excessively Dirty Device Count

Pulsed for one poll cycle during system startup.

Total number of devices that have an almost dirty status (not necessarily a trouble).

Total number of devices that are in Dirty Trouble.

Total number of devices that are in Excessively

Dirty Trouble.

A10 Current Day of Month

4010 User Analog Pseudos

Analog pseudo points exist as counters or timers in the 4010 system. SMPL delay and cycle equations may be written referencing the user Analog pseudo points on the output side (for delay/cycle operations). Each analog point may contain a value from 0-65,535 and the point is considered ON when the value is non-zero. For delay and cycle purposes, the maximum allowable value gives a real-time range of just over 18 hours. There are two analog pseudo cards in the

4010 system - one reserved for system analogs, and one reserved for user points.

The user analog pseudo card in the 4010 is at Card Address 21. It has 25 points available for specialized applications programming. The analog user pseudos can have custom labels assigned to them.


B-18


Pseudo Points,

Continued

List Pseudo Points

4010 System Lists

List pseudo points provide a convenient way to group points in any manner the user desires. The 4010 contains two list pseudo cards - one reserved for the system and one for the user. The status of the list is determined by counts which are maintained for the following states:

• Fire Count • Trouble Count

• Supervisory Count • Normal

• Open

• Fire Ack

• Supervisory Ack

• On/Input

• Short

• Limited

• Trouble Ack

• Disable

• Manual Control • On/Coding

The 4010 restricts the total number of points in any one list to 255. It also restricts the total number of points available on any one list card to 500 (the total number of points in all lists on one list card cannot exceed 500).

The 4010 system reserves one list card at address 22 for system use. Currently,

12 of the 25 system lists are used by the 4010 application. All of these lists control application specific operation of the 4010 panel. Some are auto-generated by the system as points are added and may not be edited, while the remainder are filled by the user to activate pre-defined applications. The system lists are shown in Table B-22.


B-19


Pseudo Points,

Continued

4010 System Lists (continued)

L1

L2

L3

L4

L5

L6

L7

L8

L9

L10

L11

L12

General Alarm Monitor Points

Waterflow Alarm Monitor Zones

Sprinkler Supervisory Monitor Zones

Primary Elevator Recall Monitors

Alternate Elevator Recall Monitors

Control Points, Off With Silence

Control Points, Off With Reset

Supervisory Monitor Points

Table B-22. 4010 System List

Automatic Suppression Release Points

Suppression Manual Release Points

Suppression Release Abort Points

Suppression Release Output Points

Auto-generated by the panel and not editable. Contains all fire-alarm monitor points in the system plus the

Manual Evac pseudo. User FIRE digital pseudos are not auto generated here.

Auto-generated by the panel and not editable. Contains all waterflow-type monitor points (WSO).

Auto-generated by the panel and not editable. Contains all sprinkler-type monitor points (SO).

Filled by the user. When in fire state, will activate the primary elevator recall function.

Filled by the user. When in fire state, will activate the alternate elevator recall function.

Filled by the user. Turns on when L1 is in FIRE detect, turns off with alarm silence.

Filled by the user. Turns on when L1 is in FIRE detect, turns off with completed system reset.

Auto-generated by the system - may be edited.

Contains all Supervisory type monitor points.

Filled by the user. When in fire state, causes L12 to activate after automatic release delay timer expires.

Filled by the user. When in the fire state, causes L 12 to activate after manual release delay timer expires.

Filled by the user. When in the supervisory state, causes the suppression release sequence to abort.

Filled by the user. Activated by the panel when the suppression release algorithm completes.

4010 User Lists The user list pseudo card in the 4010 is at Card Address 23. It has 25 points available that may be filled by the user for specialized applications. The user lists may have custom labels assigned to them.

B-20


Overview

Glossary

Appendix C

Glossary of Terms

This appendix contains a glossary of common terms used throughout the manual.

Alarm - A warning of fire danger.

Alarm Signal - A signal indicating an emergency requiring immediate action, such as a signal indicative of fire.

Alarm Verification - A feature to reduce unwanted alarms wherein smoke detectors must report alarm conditions for a minimum period of time, or confirm alarm conditions within a given time period, after being reset to be accepted as a valid alarm initiation signal.

Annunciator - A unit containing two or more indicating lamps, alpha-numeric displays, or other equivalent means in which each indication provides status information about a circuit, condition or location.

Authority Having Jurisdiction (AHJ) - The "authority having jurisdiction" is the organization, office or individual responsible for approving equipment, an installation or a procedure.

Class A - A four wire method of connecting IDC or NAC that guarantees operation with a single open conductor. See Style D (IDC) and Style Z (NAC).

Class B - A two wire method of connecting IDC or NAC that will cause a trouble indication with an open circuit. See Style B (IDC) and Style Y (NAC).

Current Limited IDC State - A "current limited" state exists when an initiating device shunts a resistor across the IDC.

Device Type - See Hardware Device Type.

Digital Alarm Communicator Transmitter (DACT) - A system component at the protected premises to which initiating devices or groups of devices are connected. The DACT will seize the connected telephone line, dial a preselected number to connect to a DACR, and transmit signals indicating a status change of the initiating device.

Display - The visual representation of output data other than printed copy.

Evacuation - The withdrawal of occupants from a building.


C-1


Glossary (continued) Evacuation Signal - A distinctive signal intended to be recognized by the occupants as requiring evacuation of the building.

FACP - Fire Alarm Control Panel. A system component that receives input from automatic and manual fire alarm devices and may supply power to detection devices and transponders or off-premises transmitters. The control panel may also provide transfer of power to the notification appliances and transfer of conditions to relays or devices connected to the control panel. The FACP can be a local fire alarm control panel or a master control panel.

Fire/Supervisory - An IDC point type that is zone selectable. This point type will initiate a "Supervisory Abnormal" condition at the FACP if a current limited state is detected.

Form C Contacts - A relay or switch configuration that provides access to both normally open and normally closed dry contacts.

Hardware Device Type - The Hardware Device Type is assigned to each point in an 4010 system. The Hardware Device was formerly known as Device Type. Valid

Hardware Device Types include the Addressable Detector Base, Line Powered

IAM, TrueAlarm Photoelectric Detector and other types of hardware that are assigned as points in the system. Each hardware device type is assigned a software point type (formerly point type) that defines system operation regarding that point.

There are specific software point types that can be assigned to each hardware device type in the system.

Heat Detector - A device that detects abnormally high temperature or rate of temperature rise.

Initiating Device - A system component that originates transmission of a change of state condition, such as a smoke detector, manual fire alarm box, supervisory switch etc.

Initiating Device Circuit (IDC) - A circuit to which automatic or manual initiating devices are connected where the signal received does not identify the individual device operated.

Labeled - Equipment or materials to which has been attached a label, symbol or other identifying mark of an organization acceptable to the "authority having jurisdiction" and concerned with product evaluation, that maintains periodic inspection of production of labeled equipment or materials and by whose labeling the manufacturer indicates compliance with appropriate standards or performance in a specified manner.


C-2


Glossary (continued) Listed - Equipment or materials included in a list published by an organization acceptable to the "authority having jurisdiction" and concerned with product evaluation, that maintains periodic inspection of production of listed equipment or materials and whose listing states either that the equipment or material meets appropriate standards or has been tested and found suitable for use in a specified manner.

Logical State - The state of a point seen by the end user that is determined by point type and physical state (alarm, trouble, etc.).

March Time Code - A notification code that consists of a 50% duty cycle pulse train. The march time rate is specified in beats per minute (BPM). A 20 BPM

March Time code consists of 20 on/off cycles in one minute.

Municipal Master Box - An initiating device intended to send an alarm condition to the public fire service communications center.

N2 COMMS - The communications protocol used by the 4010 to communicate from the CPU to “slaves” in the system.

Notification Appliance - A fire alarm system component such as a bell, horn, strobe, etc., which provides an audible or visible output, or both.

Notification Appliance Circuit (NAC) - A circuit or path directly connected to one or more notification appliances.

Open Circuit State (IDC) - An open circuit is defined as the absence of the end of line resistor, with or without a detector load.

Physical State - The control panels representation of the electrical state of a circuit or device (open, short, etc.).

Point Type - See Software Point Type.

Protected Premises - The physical location protected by a fire alarm system.

Remote Master Box - An initiating device intended to send alarm, supervisory and trouble signals to a remote location at which appropriate action is taken.

Smoke Detector - A device that detects visible or invisible particles of combustion.


C-3


Glossary (continued) Software Point Type - The software point type assigned to each hardware device in the system defines the software operation associated with that hardware device. This was formerly referred to as “point type.” The software point type assigned to each hardware device defines status reporting, including the default point banner that is displayed, printed or logged upon point status changes. The hardware device type defines allowable software point types. Examples of software point types include Smoke Detector, Verified Smoke Detector and Heat

Detector. The system will respond differently to certain status changes depending on the software point type assigned.

Style B - A method of connection for IDC that will provide a trouble indication in the event of an open circuit on the wiring loop. Also known as Class B.

Style C/Style E - An IDC point type. A trouble indication is provided if a short

(+ to -) or open circuit condition exists on the wiring loop. An alarm is initiated if a

"current limited" state exists. Style C is two wire, Style E is 4 wire.

Style D - A method of connecting initiating devices on IDCs that provides multiple signal paths so that circuit operation is maintained with a single open circuit connection. A trouble indication is provided in the event of an open circuit on the wiring loop. Also known as Class A.

Style Y - A method of connecting notification appliances on NACs that provides a trouble indication in the event of an open circuit on the wiring loop. Also known as

Class B.

Style Z - A method of connecting notification appliances on NACs that provides multiple signal paths so that circuit operation is maintained with a single open circuit connection. A trouble indication is provided in the event of an open circuit on the wiring loop. Also known as Class A.

Supervisory Signal - A signal indicating the need of action in connection with the fire suppression system or equipment or with the maintenance features of related systems. (See Fire/Supervisory point type.)

Temporal Code - A three pulse coding pattern adopted by NFPA as a standard evacuation pattern for audible notification. The pattern consists of three 1/2-second pulses, each pulse separated by 1/2-second silence. Each group of three pulses is separated by 1.5 seconds of silence.

VSMOKE - A point type that is selectable for an IDC. This point type will initiate an immediate alarm from a contact closure Pull Station or Heat Detector, but will initiate the Alarm Verification sequence (see definition above) for a current limited alarm. A point configured as VSMOKE must NOT have any devices other than smoke detectors that initiate a current limited alarm.

Zone - A defined area within the protected premises. A zone may define an area from which a signal can be received, an area to which a signal can be sent, or an area in which a form of control can be executed.

C-4


Index

set/reset priorities. see priority to start custom control programming, 8-7 custom labels editing, 11-10

24 point I/O, 1-7

A access levels, 1-12 acknowledging (ACK) alarms, troubles, supervisories, 11-3 active status reminder, 7-4 alarm ack key, 1-9 alarm cut-out timer, 7-6 alarm silence key, 1-10 arrow keys, 1-11

B back box, 2-1 bus bar mounting locations, 2-3 conduit entrances, 2-3 installation guidelines, 2-2 removing the chassis, 2-3 back box, semi-flush mount, 2-4 back box, surface mount, 2-4 base system module, 1-3 battery meter module, description, 1-6 baud rate, setting, 1-4

C cards adding, deleting, or modifying, 5-3 addresses, 5-2 configuring, 5-2 cards, description of city circuit card,, 1-5

Class A adapter, 1-5

DACTs, 1-6 dual RS232, 1-7 network, 1-7

RS232/service modem, 1-7

CFIG saving, 9-1 viewing properties of, 9-2 chassis reinstalling, 2-5 city circuit enabling, 7-13 city circuit reset, 1-5 compatible equipment, 1-8 conduit entrances, cutting, 2-3 control points, 11-7 custom control equation level, 8-9 equations, 8-10 menu navigation, 8-8 moving between levels, 8-9 sample equation, 8-6

IN-1


D

Device Types, A-2

Hardware, A-2

Monitor Hardware Device Types, A-3 diagnostics, 10-1 diagnostic options, 10-3 duplicate devices, 10-3

IDNet diagnostics, 10-3

IDNet Earth fault search, 10-4

N2 comm diagnostics, 10-3 network diagnostics, 10-4 running diagnostics, 10-2 disable/enable key, 1-10 door drop on AC loss, 7-8 on alarm, 7-7 duplicate devices, 10-3

E

Earth fault search, 10-4 enter key, 1-11 environmental. see specifications exit/clear key, 1-10 expansion power setting the expansion power option, 7-14 expansion power supply, description, 1-6

F function key, 1-10 function menu, 11-12 using function options, 11-12

G

Glossary, C-1

H

Hardware Points, B-2 historical logs, 11-5 using, 11-6

L

LCD adjustment, 1-4 lists. see points logging in and out, 1-12

M menu key, 1-10 menu structure, 1-14

N

NAC operation audible, 7-9 visible, 7-9 network. see diagnostics, network diagnostics non-power limited wiring, 3-2

O operation menu navigation key definitions, 1-10 operator key definitions, 1-9 overview, 11-1 optional system modules, 1-5

P passcodes, 1-12

Point Types, A-1

Monitor Software Point Types, A-5

Relay Software Point Types, A-7

Signal Software Point Types, A-6 points add IDNet point, 6-3 configure a list, 6-18

Configure Points menu, 6-2 configuring, 6-1 configuring 24-Point IO points, 6-14, 6-16 configuring digital and analog pseudo points, 6-11 configuring relay and NAC points, 6-9 configuring TrueAlarm, 6-3 configuring ZAM/IAM/RIAM points, 6-6 controlling and viewing, 11-7 delete TrueAlarm point, 6-4 disable/enable, 11-9 edit TrueAlarm point, 6-3 editing custom labels, 11-10 power see specifications power limited wiring, 3-2 power-up and checkout, 3-10 priority set/reset, 8-25 programming continue option, 9-3 custom control, 8-1

Quick CFIG, 4-1 pseudo points. see points

Pseudo Points, 1

R related documentation, 1-2 remote annunciator, 1-7 removing the chassis, 2-3 reset

IN-2


how to reset the system, 11-4 restore CFIG, 9-3

S save CFIG, 9-3

Saving a CFIG, 9-1

SFI/O, 1-3 silence/reset inhibit option, 7-5 silencing alarms, 11-3 single-station setting the single station option, 7-15

SMPL opcodes and operators, 8-3 specifications, 1-4 stagger start AHUs, 7-12 standards and codes, 2-2 suppression kit, description, 1-6 suppression release, 7-16 supv ack key, 1-9 system options, 7-1 system reset key, 1-10 system, unpacking, 2-2

T testing acceptance test, 3-12 periodic testing and maintenance, 3-13 time and date setting, 11-14 time/date format, 7-3 trouble ack key, 1-9

Troubleshooting, 10-1

TrueAlarm

Hardware Device Types, 2

Levels and Sensitivities, 3

TrueTest, 10-8 using TrueTest, 10-9

U user interface, 1-9 user-defined switch or LED configuring, 6-21

V view points, 11-7

W

Walk Test, 10-6 using Walk Test, 10-6 wiring, auxiliary relays, 3-9 non-power limited, 3-2, 3-6 power limited, 3-2 power-limited, 3-4 system, 3-2

INSIDE BACK COVER


Rev. F

Simplex Time Recorder Co., Westminster, Massachusetts 01441-0001 U.S.A.

574-052


• Mississauga, Ontario, Canada

Simplex 4010 Installing And Operating Insructions

Front Panel Installing, Operating, and

Programming Instructions

Copyright and Trademarks

Cautions and Warnings

Codes and Standards

Codes and Standards

(continued)

About this Manual

Table of Contents

Chapter 1. 4010 FACP Overview

Chapter 2. Back Box Installation

Chapter 3. Wiring

Chapter 4. Quick CFIG

Chapter 5. Configuring Cards

Chapter 6. Configuring Points

Chapter 7. System Options

Chapter 8. Custom Control

Chapter 9. Saving a CFIG

Chapter 10. Diagnostics and Troubleshooting

Chapter 11. Operation

Appendix A. Device and Point Types

Appendix B. Hardware and Pseudo Points

Appendix C. Glossary of Terms

Index ............................................................................... IN-1

Related Documentation

Base System Module

Base System Module,

Optional System Modules

Optional System Modules,

Optional System Modules,

Optional System Modules,

User Interface

10:09:33am Wed 27-Aug-97

User Interface,

User Interface,

t

u

þ

Passcodes, Access Levels, and Logging In and Out

Passcodes, Access Levels, and Logging In and Out,

Menu Structure

Before You Begin

Remove Chassis and Cut Conduit Openings

Mount the Backbox

Re-install the Chassis

Overview

Overview,

NAC Wiring

IDNet Wiring

AC Power and Battery Wiring

AC Power and Battery Wiring,

AC Power and Battery Wiring,

Auxiliary Relays

System Power-Up and Checkout

System Power-Up and Checkout, Continued

System Power-Up and Checkout,

Periodic Testing and Maintenance

Periodic Testing and Maintenance,

Reconfigure ALL Hardware

Auto Detect NEW Hardware

Restore Factory CFIG

Accept Default Settings for System Options

Edit Settings for System Options

Edit Settings for System Options,

Save CFIG Option

Card Addresses

Adding, Deleting, or Modifying 4010 Cards

Adding, Deleting, or Modifying 4010 Cards,

Adding, Deleting, or Modifying 4010 Cards,

Adding, Deleting, or Modifying 4010 Cards,

Configure Points Menu

Configuring TrueAlarm Points

Configuring TrueAlarm Points,

Configuring TrueAlarm Points,

Configuring ZAM/IAM/RIAM Points

Configuring ZAM/IAM/RIAM Points,

Configuring ZAM/IAM/RIAM Points,

Configuring Relay and NAC Points

Configuring Relay and NAC Points,