4010 Fire Alarm PC Programmer Installation and Programming Instructions

Transcription

1 4010 Fire Alarm PC Programmer Installation and Programming Instructions Rev. C

2 Copyright and Trademarks Copyright Simplex Time Recorder Co., 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. Cautions and Warnings SYSTEM REACCEPTANCE TEST AFTER SOFTWARE CHANGES - To ensure proper system operation, this product must be tested in accordance with NFPA , 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.

3 Codes and Standards The 4010 is listed for the following. 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 City Circuit Module. Remote Station - protected premise (formerly NFPA 72C). Requires City Circuit Module or the or DACT. Proprietary - protected premise (formerly NFPA 72D). Requires (with or ) or Network Interface Modules. Central Station - protected premise (formerly NFPA 71). Requires or DACT. Suppression Releasing Service. Requires 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. DACT requires the or Factory Mutual Approved: Same as UL above. Local Approvals: CSFM MEA

4 Codes and Standards (continued) 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 Sprinkler Systems 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 Ventilation Systems NFPA 90B Standard for the Installation of Warm Air Heating and Air Conditioning Systems NFPA 92A Recommended Practice for Smoke-Control Systems NFPA 92B Guide for Smoke Management Systems in Malls, Atria, and Large Areas 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 Fire Service Communication Systems About this Manual Before you start using the 4010 Fire Alarm Installing, Operating, and Programming Instructions, it s important to understand the conventions used in this publication. 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>. Italic type indicates important terms or titles of publications, such as the 4010 Fire Alarm - Programming Instructions. 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.

5 Table of Contents Chapter 1. Overview Overview Related Documents In this Chapter Programmer Overview Introduction Tabs Icons Menu Structure FACP Version 2.x Feature Enhancements Summary of Features Upgrade Compatibility Introduction Using the Version 2.x Programmer with Version 1.x Jobs Chapter 2. Installing/Upgrading PC Programmer Software Overview Before You Begin In this Chapter Before You Begin System Requirements Required Components Step 1. Install the Software Key Overview Installation Step 2. Create Floppy Disks (If Necessary) Overview Procedure Step 3. Install or Upgrade the PC Programmer Software Overview Procedure Chapter 3. Downloading a Bin File Overview Before You Begin In this Chapter Step 1. Connect Serial Cable and Set Serial Parameters Overview Step 1. Connect the Serial Cable Step 2. Set PC Programmer Communication Parameters Step 3. Set 4010 FACP Baud Rate v

6 Step 2. Enable Panel for Download Procedure Step 3. Upload and Archive Version 1.x Job Files Upload, Backup, and Archive Existing Version 1.x Job Step 4. Download BIN File Overview Step 1. Copy BIN File from Floppy to PC Programmer Computer Step 2. Start Download on PC Programmer Step 3. Warm Start the 4010 FACP Chapter 4. Getting Started Overview In this Chapter Using Quick CFIG to Autoconfigure a Panel Using Quick CFIG to Create a New Job Quick CFIG Reconfigure All Hardware Option Upload the Job from the Panel to the Laptop Starting the Programmer Using the Start Menu Creating a New Job Introduction Step 1. Invoke New System Dialog Step 2. Specify Job Number Step 3. Specify System Type Step 4. Specify Standalone or Network System Opening an Existing Job Stored on the PC Introduction Procedure Uploading a Job from the Panel Introduction Step 1. Set Panel and PC Baud Rates to 19, Step 2. Connect Serial Cable between PC and Panel Step 3. Enable Upload on Panel Step 4. Start Upload at PC Saving, Archiving, Backing Up, and Restoring Jobs Introduction Saving a Job Using Save As Archiving a Job Backing Up a Job Restoring a Backed Up or Archived Job Chapter 5. Setting General Information, System Options, Passcodes, and Access Levels Introduction In this Chapter Entering General Information Entering General Information vi

7 Enabling System Options Introduction Time Format Depleted Battery Alarm Silence / Inhibit Alarm Cutout Timer Door Drop on Alarm Door Drop on AC Fail Air Handling Units (AHU) Stagger Start Suppression Release Active Status Reminder Signal Operation Setting Passcodes and Access Levels Overview Setting Passcodes Setting Access Levels Chapter 6. Programming Cards Introduction In this Chapter Overview Card Tab Card Tab Screen Components Card Configuration Rules Using AutoFill Adding / Deleting Cards Introduction Adding Cards Deleting Cards Programming Master Controller (SFIO) Card Introduction Programming User-Defined LEDs Programming User-Defined Function Keys Programming the NAC Card Introduction Step 1. Open the NAC Card Step 2. Edit Device Types Step 3. Edit Point Types Step 4. Edit Custom Labels Programming the AUX Relay Card Introduction Step 1. Open the AUX Relay Card Step 2. Edit the Point Type Step 3. Edit Custom Label Programming the IDNet Card Introduction Step 1. Open the IDNet Card Step 2. Edit Each Point s Device Type Step 3. Edit Each Point s Point Type Step 4. Set Single Station Mode (Detectors with Sounder Bases Only) 6-15 Viewing and Programming Analog and Digital Pseudos Introduction vii

8 Viewing Card 18 Digital System Pseudos Card 19 User Digital Pseudos Card 20 Analog System Pseudos Card 21 Analog User Pseudos Card 22 System Defined List Pseudos Card 23 User Definable List Pseudos Programming a Dual RS-232 Card Introduction Step 1. Open the RS-232 Card Screen Step 2. Configure Communication Settings Step 3. Select Events Programming an RS-232 Service Modem Card Introduction Step 1. Open the RS-232 Service Modem Card Screen Step 2. Configure Communication Settings for Port B Step 3. Select Events to Forward to Remote System Service Modem Command Summary Programming a 4120 Network Card Introduction Step 1. Define Network Job Attributes (If Necessary) Step 2. Enter Description Step 3. Set Node / Loop Number and Comm Style Step 4. Select Port Media (Modular Card Only) Programming a 24 Point I/O Card Introduction Programming an Input Device (Two- or Three-Position Switch) Programming an Output Point Programming an LCD Annunciator Card Introduction Step 1. Open the LCD Annunciator Card Screen Step 2. Programming External Graphical LCD Annunciator Switches Step 3. Programming LEDs Programming Events Chapter 7. Programming Points Overview In this Chapter Overview Point Tab Introduction Splitter Bar Site, Card, and Point Views Sort Order Word Library AutoFill Custom Label Spell Check Programming a Point s Hardware Device Type Introduction Procedure Programming a Point s Software Point Type Introduction Procedure viii

9 Programming Custom Labels Introduction Procedure Chapter 8. Programming Lists Introduction In this Chapter Overview List Tab Accessing the List Tab Icons used within the Screen Sorting the Point Display Naming Lists and Adding/Deleting Points Naming a List Adding Points Deleting Points Chapter 9. Creating a Site Tree Introduction In this Chapter Overview Introduction Terms and Concepts The Site Tab Building a Site Tree Introduction Step 1. Add the Buildings Step 2. Add Floors Step 3. Add Floor Components Step 4. Add Points Chapter 10. Creating Custom Control Equations Introduction In this Chapter Overview CC Tab CC Tab Overview Components of a CC Equation Introduction Input Statements Output Statements Step 1. Add a New Equation to the User Program Procedure Step 2. Add Additional Inputs and Outputs to an Equation Introduction Adding Additional Inputs Adding Additional Outputs Step 3. Edit Each Input Statement s Properties Introduction ix

10 Associating Points with Input Statements Input Opcodes and Qualifiers Step 4. Edit Each Output Statement s Properties Procedure Associating Points with Output Statements Chapter 11. Building and Downloading a Job Introduction In this Chapter Building a Job Introduction Using Job Builder Downloading a CFG File to the Panel Introduction Step 1. Set Panel and PC Serial Communication Parameters Step 2. Connect Serial Cable between PC and Panel Step 3. Enable Download on Panel Step 4. Start Download at PC Appendix A. Hardware Device Types, Software Point Types, and Point Addresses Appendix B. Conversion Table Index x

11 Chapter 1 Overview Overview The 4010 is a single-channel, addressable, modular 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 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. This chapter provides an overview of the PC Programmer application and discusses 4010 FACP Version 2.x feature enhancements and Version 2.x upgrade requirements. The remainder of this publication discusses: Installing or upgrading the PC Programmer Using the PC Programmer to program a 4010 job Overview Related Documents Additional information related to 4010 Version 2.x includes the following: Installation, Operation, and Front Panel Programming Instructions SFIO Programmed IC Installation Instructions SFIO Board Installation Instructions IDNet NAC Extender Installation Instructions Fiber Optic Link Option Installation Instructions NAC Option Card Installation Instructions NAC Class A Adapter Option Card Installation Instructions In this Chapter Refer to the following page for specific information on a topic. Topic See Page # Programmer Overview FACP Version 2.x Feature Enhancements Upgrade Compatibility

12 Programmer Overview Introduction The Simplex Programmer application provides a graphical interface for programming the 4010 FACP. This application contains the following major components. A set of Tabs corresponding to the major programmable components of the 4010 system. Clicking on a tab gains access to a window that allows you to program a specific set of system attributes. Figure 1-1 shows the location of the tabs. Refer to Tabs later in this section for specific information. Icons that allow you to quickly perform routine tasks such as printing, saving a job, etc. Refer to Figure 1-2 for a quick reference on each icon s function. Menus containing groups of similar choices. All menu choices have a counterpart on the Icon Bar. Icons provide quick access to common tasks Menus group similar tasks Tabs access related programming options and choices Figure 1-1. Programmer Application, Showing Location of Tabs, Icons, and Menus 1-2

13 Programmer Overview, Continued Tabs Each tab contains a group of related programming functions, as follows: The Panel Tab allows you to do the following: - Edit general information such as network, panel, branch, and listing information - Select and program system options, such as Alarm Silence Inhibit, Alarm Cutout Timer, etc. - Define passcodes for access levels one through four - Set access levels for various system functions (Fire Alarm Acknowledge, etc.) The Card Tab allows you to do the following: - Add and delete cards - Program user-defined LEDs and function keys - Edit each point s hardware device type, point type, and custom label on a per-card basis The Site Tab provides a means of creating a two-dimensional representation of a job site. This involves creating and adding labels that represent the building components -- floors, offices, hallways, etc. -- to the site tree, and associating points with the correct label. (For example, if the site tree contains a label named LOBBY, you would associate the points located in the Lobby area with the LOBBY label.) Use the Point Tab to do the following: - List points - Edit each point s hardware device type, point type, or custom label - AutoFill a point s custom label field - Search for a point, based on its name, device type, point type, or label - Spell check custom labels The List Tab allows you to create and edit system lists. Custom Control Tab provides a graphical interface for creating Custom Control equations. A significant advantage of this interface is the ability to display all of an equation s operators and points. Overview 1-3

14 Programmer Overview, Continued Icons The Icon Bar contains a set of icons that allow you to quickly perform basic tasks, such as creating a new job or error checking a job. Figure 1-2 shows the location of the Icon Bar and identifies the function of each icon. Figure 1-2. Icon Bar Menu Structure Figure 1-3 shows the menu structure of the 4010 PC Programmer application. Note that some of the options contained in the menu structure are not available elsewhere in the application (i.e., there is no icon or tab for Preferences). 1-4

15 File Menu New Open Close Save Save As Print Report Edit Menu Undo Cut Copy Paste Preferences View Menu Panel Cards Site Points Lists Custom Control Build Menu Error Check Build Transfer Menu Settings Transfer Terminal Window Menu New Window Cascade Tile Arrange Icons Help Menu Help Topics About Preview Report Revision History Print Setup Flip View Archive Toolbar Backup Status Bar Restore Figure Programmer Menu Structure 1-5

16 4010 FACP Version 2.x Feature Enhancements Summary of Features Table 1-1 summarizes the Version 2.x feature enhancements. Refer to the next section of this manual for a list of the hardware and software components required to support these features. Table 1-1. Version 2.x Feature Enhancements Feature Support for 4009 IDNet NAC Extender TrueAlarm Utility Temperature Sensing Day/Night Programming 60 Equation Custom Control Capacity Discrete Battery Charger Trouble Faster Earth Fault Search Diagnostics Description Version 2.x provides the ability to connect the 4009 IDNet NAC Extender to the Key features of the new 4009 include: Standard unit provides four Class B NACs (rated 24 VDC), power supply (8A) and charger. IDNet Communication and Control. Provides status monitoring and individual NAC control using a single IDNet address. Option cards include: - Class A Adapter - Four-circuit NAC card provides four additional NACs, rated 24 VDC - IDNet Repeater permits additional 2500 cable run for IDNet applications - IDNet Fiber Optic receiver card accepts IDNet transmission from up to 3000 over fiber optic conductors. TrueAlarm utility temperature sensing achieved by assigning the UTILITY point type to a TrueAlarm heat sensor point allows you to create Custom Control equations that monitor the heat sensor and trigger output(s) when a threshold temperature is reached. The addition of Day/Night programming to Custom Control allows devices to be controlled differently at different times of the day. A common application for this type of programming is to decrease the sensitivity of a TrueAlarm Photo sensor during the day and increase its sensitivity at night. The number of Custom Control equations allowed by the 4010 has been increased from 40 to 60. A discrete Battery Charger Trouble was added to Version 2.x, providing more exact trouble reporting for charger-related problems. Version 1.x of the system reported only a common trouble. Version 2.x incorporates a revised polling sequence for Earth Fault Search Diagnostics, resulting in improved cycle times and faster location of Earth faults. 1-6

17 4010 FACP Version 2.x Feature Enhancements, Continued Summary of Features (continued) Feature Support for AHJ Alarm City Circuit Programming TrueAlert Non- Addressable Devices Table 1-1. Version 2.x Feature Enhancements Description Version 2.x adds the ability to reset a 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. Version 2.x includes support for TrueAlert Non-Addressable NAC devices. With these devices, horn control occurs over the same two wires that power and fire the strobe appliances, allowing horns and strobes to exist on the same NAC and still be controlled separately (i.e., horns on until silenced while strobes remain on until reset). Important points to remember about TrueAlert Non-Addressable NAC devices include: Hardware Device Type. TrueAlert Non-Addressable NACs use a hardware device type of either SIGA (Class A NAC) or SIGB (Class B NAC). Software Device Types. Two separate software point types support two distinct modes of operation: - QALERT device type has no automatic operation. All operations for this type of device type must be programmed with Custom Control. - SQALERT device type automatically turns on the designated circuit on alarm detect (general alarm), issues the horn silence command upon Alarm Silence, and turns off the circuit at the completion of System Reset. Any point programmed with the SQALERT point type is not available for use in Custom Control programming. Quick CFIG. TrueAlert Non-Addressable functionality is not supported by the front panel Quick CFIG option. You must manually program TrueAlert hardware and software device types, using either the front panel interface or the PC Programmer. Horn Operation. Operation of TrueAlert Non-Addressable Horns is through the new TrueAlert Horn Operation system option. Possible selections for this option are STEADY, TEMPORAL, and SLOW MARCH. Alarm Operation. In an alarm condition, any NAC programmed with the SQALERT device type automatically activates. Horns operate as defined by the TrueAlert Horn Operation system option, and strobes activate. Pressing Alarm Silence turns off the horns, leaving the strobes active. System reset automatically turns TrueAlert NACs off. SMPL Programming. The QALERT point type provides Custom Control capability for TrueAlert Non-Addressable devices. Existing opcodes such as ON, OFF, S MARCH, F MARCH, and TEMPORAL provide standard functionality, and a new opcode HORN OFF provides specific control of TrueAlert Non-Addressable horns. Overview 1-7

18 4010 Upgrade Compatibility Introduction Table 1-2 lists the 4010 FACP s features and indicates whether a specific hardware or software component is required to support a specific feature or set of features. Keep the following in mind when reviewing this table: 4010 Phase 1 features are compatible with any mix of SFIO card, SFIO firmware, BIN file, and programmer software (BIN and programmer software must be same revision level). The REV. C SFIO board provides improved overload protection for the U9 voltage regulator. TrueAlert Non-Addressable functionality for the 4010 SFIO s NACs requires the REV. C SFIO board, Version 2 SFIO firmware, and a Version 2 of the BIN file and programmer application. Discrete battery trouble reporting requires the REV. C SFIO board, Version 2 SFIO firmware, and a Version 2 of the BIN file and programmer application IDNet NACs require either the REV. B or REV. C SFIO board, Version 2 SFIO firmware, and Version 2 of the BIN file and programmer application. All other 4010 Version 2 features are supported by either version of the SFIO card and SFIO firmware, but you must have Version 2 of the BIN file and programmer application. Table 1-2. Compatibility Matrix for Versions 1 and 2 Feature Phase 1 Features IDNet U9 Overload Protection 4010 SFIO TrueAlert Non- Addressable NACs FM Battery Charger TBL 4009 IDNet Interface Other Version 2 Features SFIO Board Rev. B SFIO Board Rev. C SFIO FW Version SFIO FW Version Programmer and BIN File Version & 107 Programmer and BIN File Version & 107 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes 1-8

19 4010 Upgrade Compatibility, Continued Using the Version 2.x Programmer with Version 1.x Jobs Using the programmer to edit jobs on a panel containing older versions of the SFIO chip and board has the following effect: After saving the job, the panel tags the job as a Phase II job. Subsequent editing of the job cannot take advantage of the full set of Phase II features, despite the job s Phase II designation. Because this situation may become confusing, it is recommended that you upgrade the panel s SFIO card and SFIO firmware before editing its job with the Phase II programmer. Overview 1-9

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21 Chapter 2 Installing/Upgrading PC Programmer Software Overview Before You Begin This chapter lists the system requirements for the PC on which you intend to install the PC Programmer software and describes installing or upgrading the Version 2.x programmer software on your PC. Once you have done this, you must download the BIN file from the distribution floppy disk to the panel. Refer to Chapter 3 for information on downloading the Version 2.x BIN file to the 4010 FACP. Before getting started, make sure that you have the following: Software key (Simplex Part # ) Download cable (Simplex Part # ) Version 2.x PC Programmer CD-ROM (Simplex Part # ) Blank floppy disks (optional) Floppy disk with Version 2.x BIN file (Simplex Part # ) PC Programmer Software Installation/Upgrade In this Chapter Refer to the following page for specific information on a topic. Topic See Page # Before You Begin 2-2 Step 1. Install the Software Key 2-3 Step 2. Create Floppy Disks (If Necessary) 2-4 Step 3. Install or Upgrade the PC Programmer Software

22 Before You Begin System Requirements The Panel Programmer is a Microsoft Windows 95 application. To install and use the Panel Programmer, you must have the following: An IBM-compatible personal computer with a Pentium Processor and a free serial communications port Microsoft Windows 95 operating system software Mouse (with at least two buttons) 16 Mb RAM (32Mb recommended) 850 Mb (or greater) hard drive If a DACT is installed, you will need the SDACT Programmer software (Part No ) Required Components Other components that you may need include: A serial download cable A software key (see Field Service Bulletin FSB-549 for the ordering procedure) A CD-ROM, containing 4010 Programmer software If a DACT is installed, you will need the SDACT Programmer software (Part No ) 2-2

23 Step 1. Install the Software Key Overview The Software Key ( ) controls access to the Panel Programmer. When the Panel Programmer is started, the software reads the parallel port on the PC looking for a Software Key before the main programming window is displayed. If the correct key is not detected, a message box is displayed noting that there is either a missing or incorrect key and the Panel Programmer will terminate with no further action. Installation Use the following procedure to install the key: 1. Turn OFF power to your computer. 2. Remove your printer cable from your parallel port (if installed). Connect the software key to your parallel port and reconnect your printer cable to the software key. (See Figure 2-1.) 3. Turn ON power to your computer. PC Programmer Software Installation/Upgrade LAPTOP COMPUTER (REAR VIEW) PARALLEL PORT LPT SOFTWARE KEY PRINTER CABLE Figure 2-1. Software Key Installation 2-3

24 Step 2. Create Floppy Disks (If Necessary) Overview This section describes creating a set of floppy disks that contain the PC Programmer software. This step is only necessary if the PC on which you intend to install the PC Programmer does not contain a CD-ROM drive. Skip to Step 3. Install or Upgrade the PC Programmer Software, if the system on which you intend to install or upgrade the PC Programmer software contains a CD-ROM drive. Before creating disks, make sure you have the following: A PC containing a CD-ROM drive on which the diskettes can be made. Seven 3.5, high-density (1.44 MB) floppy diskettes. Ensure that the diskettes are blank and virus free before using them. Ensure that the software key is properly installed. The programmer software will not install if the key is not properly connected to the system. Procedure 1. Insert the CD-ROM ( ) in the drive of the PC on which the disks will be made. The initial screen shown in Figure 2-2 automatically appears after approximately 10 to 20 seconds. 2. Click on the DiskBuilder button. Figure 2-2. Initial Installation Screen A progress thermometer appears, showing the progress of the Install Wizard installation. The next screen, shown in Figure 2-3, cautions you to exit all Windows programs before continuing with the installation. 2-4

25 Step 2. Create Floppy Disks (If Necessary), Continued Procedure (continued) 3. Click Next to continue. Figure 2-3. Welcome Screen PC Programmer Software Installation/Upgrade The screen shown in Figure 2-4 appears, prompting you to insert a disk in Drive A:\. Figure 2-4. Prompt to Insert Disks 4. Insert a disk in Drive A:\ and click Next. 2-5

26 Step 2. Create Floppy Disks (If Necessary), Continued Procedure (continued) A progress thermometer appears, showing the progress of the file copy operation. A series of prompts, similar to the one shown in Figure 2-5 appear, prompting you to insert each additional disk. Figure 2-5. Prompt for Additional Disk Disk Builder is complete when the Finished dialog, shown in the next figure, appears. Figure 2-6. Finished Dialog 2-6

27 Step 3. Install or Upgrade the PC Programmer Software Overview This section describes installing Version 2.x of the PC Programmer software. If the PC on which you are installing the programmer already contains Version 1.x software, make sure to overwrite the Version 1.x software with the Version 2.x programmer software. Procedure 1. Do one of the following, depending on which type of media you are using: If installing from CD-ROM, do the following: a. Insert the CD in the drive. The initial screen shown in Figure 2-7 automatically appears after approximately 10 to 20 seconds. PC Programmer Software Installation/Upgrade Figure 2-7. Initial Installation Screen b. Click Simplex Programmer. The Welcome Screen, shown in Figure 2-8, appears. If Installing from Floppy Disk, do the following: a. Insert Disk 1 in the floppy drive. b. Click the Start button and choose the Run option. The Run dialog appears. c. Click Browse. After the Browse dialog appears, click on the Look In list box, and select the A:\ drive. d. When the contents of the A:\ drive appear, click on Setup. e. Click on the Open button. The Browse dialog closes and the Run dialog becomes the active dialog. f. Click OK. A progress thermometer appears, showing the progress of the Install Shield installation. This is followed by the Welcome Screen shown in Figure

28 Step 3. Install or Upgrade the PC Programmer Software, Continued Procedure (continued) 2. Click Next. Figure 2-8. Installation Welcome Screen The screen shown in Figure 2-9 appears. As shown in the figure, the default installation directory is: C:\Program Files\Simplex\Programmer\ In most cases, it is recommended that you install the software in this directory. If necessary, use the Browse button to specify a different drive or directory path. Figure 2-9. Choose Destination Directory Dialog 2-8

29 Step 3. Install or Upgrade the PC Programmer Software, Continued Procedure (continued) 3. Click Next. A progress thermometer appears, indicating the progress of the file copy operation. The next prompt, shown in Figure 2-10, indicates that the installation is finished and that you need to reboot the machine. PC Programmer Software Installation/Upgrade Figure Reboot Prompt 2-9

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31 Chapter 3 Downloading a Bin File Overview This chapter describes downloading a BIN File from the PC on which the PC Programmer software is installed to the 4010 FACP. You need to do this in the following situations: Following installation of the Version 2.x PC Programmer software, you must download the Version 2.x BIN file that accompanied the programmer software to the panel. As revisions to the 4010 FACP are made, you may receive additional copies of the BIN file to download. Before You Begin Before getting started, make sure that you have the following: Download cable (Simplex Part # ) Floppy with Version 2.x BIN file (Simplex Part # ) In this Chapter Refer to the following page for specific information on a topic. Topic See Page # Step 1. Connect Serial Cable and Set Serial Parameters 3-2 Step 2. Enable Panel for Download 3-4 Step 3. Upload and Archive Version 1.x Jobs 3-5 Step 4. Download (BIN) File 3-6 Downloading a BIN File 3-1

32 Step 1. Connect Serial Cable and Set Serial Parameters Overview This section describes: Connecting the serial cable ( ) between the PC on which the programmer software is installed and the 4010 FACP s service port. Setting PC Programmer serial communication parameters. Setting the baud rate on the 4010 FACP. Step 1. Connect the Serial Cable Connect the serial cable between a free serial port on the service PC and the service port of the 4010 FACP, as follows: 1. Locate the PC within 6 feet of the 4010 FACP and connect the end shown in Figure 3-1 to the PC. Make sure that the red stripe is aligned to the left as you connect the cable. 2. Connect the other end to the service port on the 4010 FACP. Align Red Stripe to the Left 9-Pin Connector goes to PC Figure 3-1. Connecting Serial Cable Step 2. Set PC Programmer Communication Parameters The PC Programmer software requires you to specify settings for the following serial communication parameters. Port = COMx Baud = 9600 or (recommended) Parity = None Stop Bits = 1 Data Bits =8 3-2

33 Step 1. Connect Serial Cable and Set Serial Parameters, Continued Step 2. Set PC Programmer Communication Parameters (continued) Click the Start button. Point to Programs and select Simplex. When the choices appear, select Programmer. 1. Click on the Programmer application s Transfer menu and select Settings. A dialog similar to the one shown in Figure 3-2 appears. 2. Set the parameters to the settings listed earlier in this section. Figure 3-2. Serial Port Settings Step 3. Set 4010 FACP Baud Rate Switches 2-1 and 2-2 on the 4010 FACP set the panel s baud rate. Table 3-1 summarizes the possible settings for these switches, and Figure 3-3 shows their location. Make sure that the baud rate you set on the 4010 FACP matches the baud rate set for the PC Programmer software. Table Baud Rate Switch Settings Baud Rate SW 2-1 SW 2-2 OFF LINE ON ON 9600 OFF ON 19,200 ON OFF Downloading a BIN File Black indicates switch positio OFF LINE ,200 Figure 3-3. Using Switches SW1 and SW2 to Set Panel Baud Rate 3-3

34 Step 2. Enable Panel for Download Procedure Follow the steps in this section to enable the 4010 FACP for downloads. 1. Login to the 4010 at Access Level Press <MENU>. 3. Press <NEXT> until [UPLOAD/DOWNLOAD] is displayed. <ENTER> to Accept <NEXT/PREV to Scroll Menu: [Upload/Download] 4. Press <ENTER>. A screen similar to the following appears. <ENTER> to Accept Prog. Interface: <NEXT/PREV> to Scroll [Initialize Up/Dwnload] 5. Press the <NEXT> or <PREV> keys until [Initialize Up/Dwnload] is displayed and press <ENTER>. The 4010 displays the following message to indicate that the panel is ready to accept a download. *** File Transfer Initialized *** *** Check Programming Unit ** 3-4

35 Step 3. Upload and Archive Version 1.x Job Files Upload, Backup, and Archive Existing Version 1.x Job If a Version 1.x job is currently loaded on the panel, make sure to upload, backup, and archive this job before downloading the Version 2.x BIN file. Downloading the Version 2.x BIN file erases the existing Version 1.x job from the panel. After uploading and restoring the Version 2.x BIN file, you can restore the Version 1.x job, rebuild it as a Version 2.x job, and download it back to the panel. Refer to the following sections of this manual for information on uploading and backing up a job. Topic Uploading a Job Backing Up and Archiving a Job Refer to Chapter 4 Uploading a Job from the Panel Chapter 4 Saving, Archiving, Backing Up, and Restoring Jobs Downloading a BIN File 3-5

36 Step 4. Download BIN File Overview Downloading the BIN file is a three-step process: 1. Copy the BIN file from the floppy to the PC Programmer computer. 2. Start the download process on the PC. 3. Perform a Warm Start on the 4010 FACP. Follow the steps outlined below for specific instructions. Step 1. Copy BIN File from Floppy to PC Programmer Computer Use Windows Explorer to copy the BIN file from the floppy disk to a directory on the PC Programmer s hard drive. It is recommended that you copy the file to the following directory. This is the default directory in which the programmer looks for BIN files. \PROGRAM FILES\SIMPLEX\PROGRAMMER Step 2. Start Download on PC Programmer 1. Click on the Transfer menu. When the selections appear, choose Transfer. A window similar to the one shown Figure 3-4 appears. Figure 3-4. Upload/Download Window 2. Select the following radio button options in the window s panels. Download Direct Panel EXEC 3. Click OK. The dialog shown in Figure 3-5 appears, warning you to backup the system before continuing. 3-6

37 Step 4. Download BIN File, Continued Step 2. Start Download on PC Programmer (continued) Figure 3-5. Caution Dialog 4. Click Yes. A window similar to the following appears, prompting you for the location of the EXEC (Bin) file. Figure 3-6. Open Dialog 5. Select the directory to which the file was copied, click on the name of the EXEC file, and then select the Open button. Downloading a BIN File A dialog similar to the following displays. 6. Click the Start button. Figure 3-7. Download Dialog A message appears in the Download Dialog (Figure 3-7), indicating that the PC Programmer is waiting for the 4010 FACP to begin downloading the file. 3-7

38 Step 4. Download BIN File, Continued Step 3. Warm Start the 4010 FACP Performing a Warm Start of the 4010 FACP triggers the panel to download the EXEC (Bin) file from the PC Programmer. 1. Login to the 4010 at Access Level Press <MENU>. 3. Press <NEXT> until [PANEL RESTART] is displayed. <ENTER> to Accept <NEXT/PREV to Scroll Menu: [Panel Restart] 4. Press <ENTER>. A screen similar to the following appears. <ENTER> to Accept <NEXT/PREV> to Scroll Panel Restart: [Warm Start] 5. Press the <NEXT> or <PREV> keys until [Warm Start] is displayed and press <ENTER> A warm start initiates the start of the download. At the PC Programmer, the Download dialog (Figure 3-7) shows the progress of the download. When the download is complete, you should restore and download the Version 1.x job (if necessary). 3-8

39 Chapter 4 Getting Started Overview This chapter describes the following tasks: Using Quick CFIG to autoconfigure a panel Starting the programmer Creating a new job Opening an existing job Uploading a job from the panel Saving, archiving, backing up and restoring jobs In this Chapter Refer to the following page for specific information on a topic. Topic See Page # Using Quick CFIG to Autoconfigure a Panel 4-2 Starting the Programmer 4-4 Creating a New Job 4-5 Opening an Existing Job Stored on the PC 4-7 Uploading a Job from the Panel 4-8 Saving, Archiving, Backing Up, and Restoring Jobs 4-13 Getting Started 4-1

40 Using Quick CFIG to Autoconfigure a Panel Using Quick CFIG to Create a New Job The 4010 FACP includes the Quick CFIG utility, an automatic configuration tool that automatically detects 4010 points. For most new installations, it is more efficient to run 4010 Quick CFIG from the front panel and then upload the CFIG from the 4010 to the PC Programmer, where any changes to the point types, custom labels, and system options can be made. Using Quick CFIG on a new panel configures the panel for general alarm operation as follows: All initiating devices found by Quick CFIG are assigned a FIRE point type. SIG1 and SIG2 are set to point type SSIGNAL. SIG3 and SIG4 are set to RSIGNAL. AUX1 is set to point type RRELAY. AUX2 is set to TRELAY. Remote annunciators are detected at their set address. Hardware that is not automatically configured includes: Graphic annunciators Suppression points Network card SDACT or CCDACT card Quick CFIG Reconfigure All Hardware Option The Quick CFIG Reconfigure All Hardware option, described in this section, creates a new 4010 configuration. Note1: If a configuration exists and this option is selected, it clears the current configuration and adds all currently connected devices to the CFIG. Note 2: Quick CFIG terminates if duplicate IDNet devices are detected. If this happens, run Quick CFIG again and watch the LCD. Before the program terminates, it will list the first seven duplicate addresses found. 1. Press <MENU>. 2. Press <NEXT> or <PREVIOUS> until [Quick CFIG] is displayed and 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 3. Press <ENTER> to continue with the Quick-CFIG option. 4. Press <NEXT> or <PREVIOUS> until <RECONFIGURE ALL 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 4-2

41 Using Quick CFIG to Autoconfigure a Panel, Continued Quick CFIG Reconfigure All Hardware Option (continued) 5. Press <ENTER> to continue. Another warning appears, indicating that you need to press <ENTER> to confirm the deletion. WARNING <Enter> to Continue WARNING Press <Enter> to confirm deletion 6. 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 Upload the Job from the Panel to the Laptop When Quick CFIG completes, you need to upload the job from the panel to the laptop PC on which the programmer is installed. Once the job is uploaded, you can open it and customize it as required by the customer, i.e., custom labels, system options, etc. See Uploading a Job from the Panel, later in this chapter for specific information on doing this. Getting Started 4-3

42 Starting the Programmer Using the Start Menu Click on the Start menu and point to Programs. When the choices appear, point to Simplex and then choose Programmer. A screen similar to the one shown in Figure 4-1 appears. Figure 4-1. Initial Programmer Screen 4-4

43 Creating a New Job Introduction This section describes creating a new job with the PC programmer. Doing this creates a job with limited definitions for the devices (i.e., no custom labels and default device type or point types assigned to IDNet points). This is useful for off-site configuration of a system. After creating a job in this manner, refer to the subsequent chapters in this book for information on adding option cards to the job, defining system options, defining device and point types, and adding custom control equations. Skip this section if you used Quick CFIG to create a new job and uploaded it to the laptop. Note: Each branch is responsible for assigning and archiving jobs. The exception to this is a network job, in which case the network job number must be assigned by Simplex Applications Engineering. Step 1. Invoke New System Dialog 1. Start the programmer, as described in the previous section. 2. At the initial Programmer Screen (Figure 4-1), click on the File menu and choose New. The dialog shown in Figure 4-2 appears. Figure 4-2. New System Dialog Getting Started 4-5

44 Creating a New Job, Continued Step 2. Specify Job Number Enter a name for the job in the Job Number field. It is recommended that you use a seven-character number with the following format: BBYMTJJ BB = Branch Number (1296 possible numbers using the Base 36 numbering system.) See Appendix B for a Base 36 conversion table. Y = Year (0 = 1997; 1 = 1998;... A = 2007) M = Month (1 = Jan; 2 = Feb;... C = Dec) T = Panel Type (D = 4010) JJ = Job number (1296 jobs per branch per month possible using the Base 36 numbering system.) See Appendix B for a Base 36 conversion table. Example: Job 3004D01 translates to the following: Branch Number: 108 (becomes 30 using the Base 36 numbering system) Year: 1997 (becomes 0) Month: April (becomes 4) Panel Type: 4010 (becomes D) Job Number: 01 (still 01 using the Base 36 numbering system) Note: See Appendix B for the Base 10 to Base 36 Conversion Table. If you enter a Job Name that does not conform to this convention, a warning message box is presented reminding you of the Job Name format. However, a non-conforming Job Name will be allowed as long as it follows the DOS filenaming conventions and only contains characters that are part of the 4010 character set. All alpha characters entered will be automatically converted to upper-case. When you create a new job file, the Programmer places the letter A at the end of your seven-character job name. Each time you open this job and make a revision, the revision letter is also upgraded. Step 3. Specify System Type Examine the entry for the System Type drop down list box. The selection must read Click on this list box and change the currently selected system type to 4010 if necessary. Step 4. Specify Standalone or Network System The System Options panel, located at the bottom of Figure 4-2, allows you to specify whether the 4010 system is operating as a standalone or networked system. This panel contains the following three choices: Standalone System specifies that the 4010 is not connected via a 4120 network to other panels. New Network specifies that the 4010 is physically connected to other panels, but no network job exists in the 4010 s \NETJOBS folder. In this case, you must specify a network job number in the Job Number field of Figure 4-2. Make sure to specify only a job number supplied by Simplex Applications Engineering. Existing Network specifies that the 4010 is connected to other panels, and the job has been previously programmed. 4-6

45 Opening an Existing Job Stored on the PC Introduction By default, previously programmed jobs are stored in either the \4010JOBS or the \NETJOBS directory. If the job for the panel that you are currently programming is stored on the PC, use the following procedure to open it for additional editing. You should only do this if you are sure that the job on the PC is exactly the same as the programming (CFIG) currently in use on the panel. For example, if you have made changes to the panel s programming from the 4010 front panel, it may be more desirable to upload the CFIG from the panel to the laptop PC before performing additional programming. See the next section for details. Procedure 1. Click on the File menu. 2. Select Open. A window similar to the following appears. Figure 4-3. Open Database Dialog 3. Open the folder containing the job that corresponds to the panel you are currently programming. The name of the job (filename.sdb) appears. 4. Select the job name and click on the Open button. One of the following occurs, depending on whether the job has been previously archived. Non-Archived Jobs. A series of messages appear, indicating that the programmer is loading the job and updating links. These messages are followed by the main PC Programmer screen. Getting Started Archived Jobs. A prompt appears, indicating that the job has been previously archived and changes will be saved to a new revision of the job. Click OK to continue. The next screen displays the main PC Programmer screen. 4-7

46 Uploading a Job from the Panel Introduction This section describes uploading an existing job from a 4010 FACP to the service PC for editing. An upload occurs over a serial link running between the panel and the PC. Follow the steps outlined in the following sections to link the PC and panel and upload the job. Note: If the panel containing the job that you want to upload is on a network, you can upload the job, but you cannot edit the job s attributes (i.e., change system options, add points, etc.). Contact Simplex Service for additional information. Step 1. Set Panel and PC Baud Rates to 19, Set switches SW1 and SW2 to the positions shown in Figure 4-4. These positions enable a baud rate of 19,200 on the 4010 FACP. Black indicates switch position 19,200 Figure 4-4. Switch Position for 19,200 Baud 2. Start the 4010 Programmer application. Click on the Transfer menu and select Settings. A dialog similar to the one shown in Figure 4-5 appears. Figure 4-5. Setting PC Transfer Rate to 19, Set these parameters as follows: Port. Set this radio button to the setting that corresponds to the serial port to which the serial cable will be connected. In most cases, this will be COM1. Baud Rate. Set to 19,200. Parity. Set to None. Stop Bits. Set to 1. Data Bits. Set to

47 Uploading a Job from the Panel, Continued Step 2. Connect Serial Cable between PC and Panel Connect a serial cable between a free serial port on the service PC and the service port of the 4010 FACP. 1. Locate the PC within 6 feet of the 4010 FACP and connect the end shown in Figure 4-6 to the PC. 2. Connect the other end to the service port on the 4010 FACP. Make sure that the red stripe is aligned to the left as you connect the cable. Align Red Stripe to the Left 9-Pin Connector goes to PC Figure 4-6. Connecting Serial Cable Step 3. Enable Upload on Panel 1. Login to the 4010 at Access Level Press <MENU>. 3. Press <NEXT> until [UPLOAD/DOWNLOAD] is displayed. <ENTER> to Accept <NEXT/PREV to Scroll Menu: [Upload/Download] 4. Press <ENTER>. A screen similar to the following appears. <ENTER> to Accept <NEXT/PREV> to Scroll Prog. Interface: [Initialize Up/Dwnload] Getting Started 5. Press the <NEXT> or <PREV> keys until [Initialize Up/Dwnload] is displayed and press <ENTER>. 4-9

48 Uploading a Job from the Panel, Continued Step 3. Enable Upload on Panel (continued) The 4010 displays the following message to indicate that the panel is ready to upload a job. *** File Transfer Initialized *** *** Check Programming Unit ** Step 4. Start Upload at PC 1. Click on the Transfer menu. When the selections appear, choose Transfer. A window similar to the one shown in Figure 4-7 appears. Figure 4-7. Upload/Download Dialog 2. Select the following radio button options in the window s panels. Upload Direct Panel CFIG 3. Click OK. The dialog shown in Figure 4-8 appears, prompting you to begin the upload. Figure 4-8. Upload Dialog 4. Click on the Start button to begin the upload. One of the following occurs, depending on whether a job by the same name already exists in the PC s \4010JOBS folder. 4-10

49 Uploading a Job from the Panel, Continued Step 4. Start Upload at PC (continued) If Job Name Already Exists on PC. If a job by the same name already exists in the 4010JOBS folder on the PC, the programmer generates a prompt asking whether you want to write over the existing file. If you do not want to write over the existing file, click on No. Another dialog appears, giving you the opportunity to rename the job. If you want to overwrite the existing job, click on Yes button. A dialog similar to the one shown in Figure 4-9 appears, indicating the progress of the file transfer. If Job Name Does Not Exist on PC. If no job with this name exists on the PC, the programmer begins the download after you click on the Start button. A dialog similar to the one shown in Figure 4-9 appears, indicating the progress of the file transfer. Figure 4-9. Transfer in Progress The following message appears when the upload is complete. 5. Click OK to continue. Figure Upload Complete Message The next message indicates that the programmer is unbuilding the job. Figure Unbuilding 4010 Job Message Getting Started The programmer displays the next message to indicate that the job has been successfully unbuilt and is now stored in the 4010JOBS folder. 4-11

50 Uploading a Job from the Panel, Continued Step 4. Start Upload at PC (continued) Figure Job Unbuild Complete Message To open this job, refer to Opening an Existing Job Stored on the PC, earlier in this chapter. 4-12

51 Saving, Archiving, Backing Up, and Restoring Jobs Introduction This section discusses the programmer s file management tools Save, Archive, Backup, and Restore. Refer to the appropriate section below for additional information. Always backup and archive a job following editing and successful download. Doing this allows you to return to a known state should critical problems occur with an edited job file. Saving a Job This option writes an editable version of the job using the job name specified by the user, followed by the.mdb file extension to the PC s hard disk. To save a job, do the following: 1. Open the Save dialog, in either of the following ways: Click on the Save icon, represented by a disk icon on the icon bar. Click on the File menu and select the Save option. A dialog similar to the following appears, allowing you to specify the name of the file and list the modifications made to the file. Figure Save Dialog Getting Started 2. Enter the job s file name in the Name field. 3. List any changes made to the job in the Enter Modifications field. 4. Click on OK to close the dialog. 4-13

52 Saving, Archiving, Backing Up, and Restoring Jobs, Continued Using Save As To create a copy of the job currently being edited, use the Save As option. To do this, click on the File menu and choose Save As. A dialog similar to the one shown in Figure 4-14 appears, allowing you to specify the new file name, the destination directory, and the destination drive. Figure Save As Dialog Archiving a Job Archive creates a compressed, permanent/non-writable copy of a job, and does the following with it: Saves the job to floppy, or a remote (networked) disk. Saves the job to the hard disk, marking it Read-Only. (This copy can be restored at a later date, using the Restore command, which is described below.) To archive a job, follow these steps: 1. Make sure the job has been saved before archiving. 2. Click on the File menu and select the Archive option. A dialog similar to the following appears. Figure Archive Dialog 3. Click on a destination drive. The Archive utility automatically names the file and creates a \4010ARCH directory on the drive that you choose. 4-14

53 Saving, Archiving, Backing Up, and Restoring Jobs, Continued Archiving a Job (continued) 4. Click on the Archive button. The system generates a prompt, asking whether you really want to archive the job. 5. Click Yes to continue or No to exit. If the 4010ARCH directory does not already exist on the target drive, the system prompts you to create it. If the directory exists, this prompt does not appear. 6. Choose Yes to create the directory. The system displays a message indicating that the archive is complete and the job can no longer be edited. (Use Restore to restore an archived job, if necessary.) 7. Click OK. 8. When the Programmer Archive Utility dialog reappears, click Exit to close the Archive utility. Backing Up a Job Backup stores a read/writable version of the job on either a removable storage medium or a remote disk. Follow these steps to backup a job. 1. Click on the File menu and select the Backup option. A dialog similar to the one shown in Figure 4-16 appears: Getting Started 4-15

54 Saving, Archiving, Backing Up, and Restoring Jobs, Continued Backing Up a Job (continued) 2. Select the destination directory and drive. 3. Click on the Backup button. Figure Backup Dialog A message appears, prompting whether to continue with the backup or terminate the operation. 4. Click Yes to continue. The progress of the backup appears on the bottom of the Backup dialog. 5. Click Exit to exit the application when the backup is complete. Restoring a Backed Up or Archived Job Restore allows previously backed up or archived jobs to be retrieved for subsequent viewing or editing. To restore a backed up or archived job, follow these steps: 1. Click on the File menu and select the Restore option. A dialog, similar to the one shown in Figure 4-17, appears. 4-16

55 Saving, Archiving, Backing Up, and Restoring Jobs, Continued Restoring a Backed Up or Archived Job (continued) Figure Restore Dialog 2. Select the drive and directory containing the Backup or Archive files. 3. Choose the file to restore and click on the Restore button. Archived files are listed with an SDA4010 file extension, and Backup files are listed with an SDC4010 file extension. A message similar to the following appears. Getting Started 4. Click Yes to continue. One of the following occurs, depending on whether a copy of the job already exists on the PC. If the job does not already exist on the PC, the progress of the Restore operation displays at the bottom of the screen. If the job already exists on the PC, Restore asks if you want to overwrite the existing file. Click Yes to initiate the Restore or No to exit. 4-17

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57 Chapter 5 Setting General Information, System Options, Passcodes, and Access Levels Introduction This chapter describes setting the system s general information, system options, passcodes, and access levels. Gen l Info/System Options In this Chapter Refer to the following page for specific information on a topic. Topic See Page # Entering General Information 5-2 Enabling System Options 5-3 Setting Passcodes and Access Levels

58 Entering General Information Entering General Information 1. Select the Panel tab. 2. Select the General Information radio button. A window similar to the following appears. 3. Enter the applicable information in the fields. Figure 5-1. General Information 5-2

59 Enabling System Options Introduction The following section describes setting the 4010 s system options. Click on the Panel tab and then choose the System Options radio button to gain access to the options. Refer to the applicable section below for information on a specific system option. Gen l Info/System Options Figure 5-2. System Options Time Format The Time Format option allows you to display system time in 12- or 24-hour format. That is, time is displayed in either a 12-hour format that uses an AM (morning) or PM (afternoon) designation, or in 24-hour (military style) format. 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. Enable either 12- or 24-hour format by selecting the appropriate check box, as shown below: Refer to Figure 5-2 for the location of this option. 5-3

60 Enabling System Options, Continued Depleted Battery 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 depleted battery 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 depleted battery 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 AC power must be restored to re-activate the Enable this option by selecting the check box shown below. Refer to Figure 5-2 for the location of this option. Alarm Silence/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. Enable this option by selecting the following check box, as shown below. Refer to Figure 5-2 for the location of this option. Alarm Cutout Timer The Alarm Signal Cutout 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 stop sounding. However, the alarm condition remains active in the panel. The default setting for this options is No Cutout (meaning an Alarm Silence is required to shut off signals). Enable this option by selecting the check box shown below. Refer to Figure 5-2 for the location of this option. 5-4

61 Enabling System Options, Continued Door Drop on Alarm The Door Drop on Alarm 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. Enable this option by selecting the check box shown below. Refer to Figure 5-2 for the location of this option. Gen l Info/System Options Note: To make a relay a door holder relay, you must assign it the DHOLDER point type. Door Drop on AC Fail 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. Enable this option by selecting the check box shown below. Refer to Figure 5-2 for the location of this option. Air Handling Units (AHU) Stagger Start This option allows you to set the 4010 to stagger start any Air Handling Units (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 all AHUs to start immediately. The 4010 FACP displays an AHU Stagger Start message when the sequence starts and an AHU Stagger Start Complete message when the sequence ends. Enable this option by selecting the check box shown below. Refer to Figure 5-2 for the location of this option. 5-5

62 Enabling System Options, Continued Suppression Release The Suppression Release option contains three selections: Dual Detector. When enabled, this option requires two points in L9 (Automatic Suppression Release Points List) to activate before the outputs specified in L12 (Suppression Release Output Points List) activate. Detector Delay. When enabled, this option allows you to specify a delay between the time that a detector activates and the time that a point within the L9 list triggers. The range is from 0 to 60 seconds (60 is the default). Manual Delay. When enabled, this option allows you to specify a delay, ranging from 0 to 30 seconds, between the time that a manual release point is activated and the time that the suppression release points in L10 trigger. - 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 30- second 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. 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 Cut Out Timer system option to ON for suppression release systems. Refer to Depleted Battery earlier in this section for information. 5-6

63 Enabling System Options, Continued Active Status Reminder The Active Status Reminder option allows you to set an interval and duration during which the 4010 reminds operators that a FIRE, SUPV, or TBL condition still exists in the panel. Active Status Reminder consists of two parts. Refer to Figure 5-2 for the location of these options. Reminder Interval. Enable the Reminder Interval by selecting the check box shown below. Use the control on the right to set the interval. The range can be from 1 to 12 hours, and the default is 8 hours. Gen l Info/System Options Acknowledge Option. This option sets the duration of the acknowledge signal. The range can be from 1 to 12 hours, and the default is 5 seconds. For troubles, a setting of 0 sounds a continuous signal until acknowledged from the front panel. For alarms, a setting of 0 sounds a continuous signal until the alarm condition is cleared. Signal Operation Audible and Visible ON til Silence Notification Appliance Circuits (NACs) can be set to the choices shown in Table 5-1. The default setting for the Audible NACs is Temporal; the default setting for the Visible NACs is Synchronous; and the default setting for TrueAlert Non-Addressable Horns is TEMPORAL. 5-7

64 Enabling System Options, Continued Signal Operation (continued) Table 5-1. Signal Choices Signal Type Audible NAC Operation Visual NAC Operation TrueAlert Non- Addressable Horn Operation Choices Temporal A three pulse coding pattern consisting of three ½ second pulses, each separated by ½ second silence. Each group of three pulses is separated by 1.5 seconds of silence. Steady March Time Slow March Time Steady March Time Slow March Time Temporal Synchronous Possible selections for this option are Steady Temporal Slow March Time 5-8

65 Setting Passcodes and Access Levels Overview 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. Table 5-2. Access Levels and Operations ACCESS LEVEL 1 2 Default Passcode = Default Passcode = Default Passcode = 4000 OPERATIONS Ack Silence System Reset All Level 1 Operations, plus: Set Time/Date Point Control Enable/Disable Points All Level 1 & 2 Operations, plus: Clear Logs Clear Verification Tallies Programming - Edit/Clear Point Label - Restore/Save CFIG TrueTest Walk Test Reports All Level 1,2, & 3 Operations, plus: Quick CFIG Run Diagnostics Upload/Download Programming Edit Cards Edit SMPL Program System Options Restart Panel Warm Start Cold Start Gen l Info/System Options 5-9

66 Setting Passcodes and Access Levels, Continued Setting Passcodes 1. Select the Panel tab, if it is not already selected. 2. Click on the Passcodes radio button. See Figure Edit the passcodes, as necessary. Figure 5-3. Passcodes Setting Access Levels 1. Select the Panel tab, if it is not already selected. 2. Click on the Access Levels radio button. See Figure For each of the operations listed in Figure 5-4, use the controls to set an access level of 1, 2, 3, or 4. Figure 5-4. Access Levels 5-10

67 Chapter 6 Programming Cards Introduction The 4010 allows you to manually add and delete option cards, and to view and program points and card options (user-defined LEDs and function keys) on a per-card basis. In this Chapter Refer to the following page for specific information on a topic. Topic See Page # Overview Card Tab 6-2 Adding / Deleting Cards 6-4 Programming Master Controller (SFIO) Card 6-5 Programming the NAC Card 6-9 Programming the AUX Relay Card 6-11 Programming the IDNet Card 6-13 Viewing and Programming Analog and Digital Pseudos 6-16 Programming a Dual RS-232 Card 6-22 Programming an RS-232 Service Modem Card 6-24 Programming a 4120 Network Card 6-29 Programming a 24 Point I/O Card 6-32 Programming an LCD Annunciator Card 6-37 Programming Cards 6-1

68 Overview Card Tab Card Tab Screen Components The Card Tab, shown in Figure 6-1, provides a graphical means of adding, deleting, and programming 4010 FACP cards. Components of the Card Tab screen include: Active Card List. The left-hand side of the screen lists all cards (hardware and logical) installed on the 4010 FACP. Green cards represent hardware components and blue cards represent logical groups of similar points. (For example, Card 19 represents all Digital User Pseudo Points.) Available Card List. The right-hand side of the screen lists available option cards that can be added to the system. Splitter Bar. The width of the Active Card and Available Card lists can be changed by positioning the cursor directly over the splitter bar, clicking and holding the left mouse button, dragging the bar to a new location, and then releasing the bar. Splitter Bar Figure 6-1. Card Tab Card Configuration Rules The following card configuration rules apply to the 4010 FACP: Cards 1 through 3 and 17 through 23 cannot be deleted. One 4120 Network Card or One DACT is allowed. One Dual RS232 Card or One RS232/Modem is allowed. 6-2

69 Overview Card Tab, Continued Using AutoFill The programmer includes an AutoFill feature that allows you to automatically add pre-selected text or selections to a point s device type, point type, or custom label fields. Follow these steps to use AutoFill: 1. Open the card whose points you want to edit. 2. Click on the point containing the text or selections you want to copy. The point s entry highlights to show it is selected. 3. If you want to copy the highlighted text to a range of points, do one of the following: Range of Adjoining Points. If the points adjoin one and other, hold down the SHIFT key and click the left mouse button on the topmost point in the range. Continue to hold down the SHIFT key, move to the bottom point in the range, and click and release the mouse button. Range of Non-Adjoining Points. If the points do not adjoin one another, hold down the CTRL key and select each point. Release the CTRL key only after all points have been selected. Programming Cards 4. Press the F4 key. The AutoFill dialog appears. 5. Click on the check boxes (device type, point type, or custom label) corresponding to the fields that you want to automatically fill. You can select multiple fields (i.e. device type and custom label). 6. Click on the appropriate radio button in the Selection panel, as follows: All Points. Automatically fills every point with the device type, point type, or custom label of the point selected in Step 2 above. Selected Points. Automatically fills every selected point (Step 3 above) with the device type, point type, or custom label of the point selected in Step 2 above. Point Forward. Automatically fills every point forward of the point selected in Step 2 above with that point s device type, point type, or custom label. 7. Click OK to AutoFill the selected fields. 6-3

70 Adding / Deleting Cards Introduction This section describes manually adding or deleting option cards. Each time you add a card, the programmer specifies default values for card and point attributes. After you add a card(s), refer to the appropriate section later in this chapter for information on editing card-specific information. Refer to Chapter 7 Programming Points for information on programming a card s points and options. Adding Cards 1. In the Available Cards List, select the card you want to add. 2. Hold the left mouse button down, drag the card to the Active Card List, and release the mouse button. The programmer prevents you from adding cards that violate the card configuration rules. Deleting Cards 1. In the Active Card List, click the right mouse button on the icon representing the card you want to delete. A menu, containing the Delete and Properties choices, appears. Refer to Figure Select Delete. The programmer prevents you from deleting cards 1 through 3 and 17 through Select Yes when the programmer prompts you to confirm the delete operation. Figure 6-2. Delete Option 6-4

71 Programming Master Controller (SFIO) Card Introduction The Master Controller card icon, located at the top of the Active Cards List (refer to Figure 6-1), represents the 4010 s SFIO board. Double clicking on this icon invokes the Master Controller (SFIO) Card Programming Screen shown in Figure 6-3. The top of the screen contains a list of the points associated with the SFIO card. The point name, device type, and point type none of which is editable is shown for each point. Programmable components of the Master Controller card include: User Defined LED1, LED2, and LED3. See Programming User-Defined LEDs, later in this section for additional information. User Defined Function Key 1 and User Defined Function Key 2. See Programming User-Defined Function Keys later in this section for additional information. Programming Cards Figure 6-3. Master Controller (SFIO) Card Programming Screen Programming User-Defined LEDs Each user defined LED allows you to monitor the state of a specific system point, illuminating when the state of the point changes. For example, LED 1 can be programmed to light RED when the state (mode) of list point L26 (Waterflow points) changes to ALARM. Follow these steps to program an LED. 1. Choose the LED color by clicking on the radio button to the left of the appropriate color. NOTE: It is not possible to independently program the LED s colors. In other words, you cannot have the LED light RED when one state is true or YELLOW when another state is true. 6-5

72 Programming Master Controller (SFIO) Card, Continued Programming User-Defined LEDs (continued) 2. Click on the Mode drop down list box. Choose the mode (State) that must be true to illuminate the LED. Refer to Table 6-1 for details on the available modes. 3. Click on the Ref Address list box and associate a point with the mode you set in Step 2. The list that appears depends on the Mode selection. The Ref Address list contains either physical points, pseudo points, list points, or no entries. Table 6-1. Modes for User-Defined LEDs Mode Disable Fire LF LS LT OFF ON SMPL SUPERV TROUBLE Meaning LED illuminates when the state of the REF ADDR (point) is DISABLED. LED illuminates when the state of the REF ADDR (point) goes into ALARM LED illuminates when the ALARM ACK button on the panel is pushed. LED illuminates when the SUPV ACK button on the panel is pushed. LED illuminates when the TROUBLE ACK button on the panel is pushed. LED illuminates when the state of the REF ADDR (point) is OFF. LED illuminates when the state of the REF ADDR (point) is ON LED illuminates when the state of a Custom Control equation(s) is TRUE. LED illuminates when the state of the REF ADDR (point) goes into SUPERV. LED illuminates when the state of the REF ADDR (point) goes into ALARM User-Defined LED Examples. The following examples show typical ways in which user-defined LEDs are used. Waterflow Indicator. The following example monitors L26, a user-defined list containing all Waterflow Points, and illuminates the RED LED if any point within this list goes into an ALARM state. 1. Click on the radio button to the left of the RED led. 2. Click on the Mode drop-down list box and select FIRE. 3. Click on the Ref. Address list box and select L

73 Programming Master Controller (SFIO) Card, Continued Programming User-Defined LEDs (continued) Earth Ground Detect. The following example tracks the state of P76, a userdefined pseudo point, and illuminates the Yellow LED if P76 turns ON. P76 is, in turn, controlled by an SMPL equation, shown below, that monitors power supply points 2-2 (+ Earth Ground) and 2-3 (Neg. Earth Ground). If either point turns ON (i.e., indicates an Earth ground problem, either positive or negative), the equation turns on P76, which illuminates the Yellow LED to indicate the problem. 1. Click on the radio button to the left of the Yellow led. 2. Click on the Mode drop-down list box and select ON. 3. Click on the Ref. Address list box and select P76. The SMPL equation for the Earth Ground Detect example is shown below. INPUT ON/CODE 2-2 or ON/CODE 2-3 OUTPUT Programming Cards TRACK ON P76 PRI 9,9 Programming User-Defined Function Keys Function keys are a way to easily and repeatedly perform a specific function (Mode) on a particular system point (Reference Address). 1. Click on the Mode drop-down list box and choose the appropriate mode. Refer to Table 6-2 for information on the modes. 2. If the Mode allows, click on the Ref. Address drop-down list box and choose the point to which the mode applies. 6-7

74 Programming Master Controller (SFIO) Card, Continued Programming User-Defined Function Keys (continued) Table 6-2. Modes for User-Defined Function Keys Mode ACK DE LFACK LSACK LSR LSS LTACK LTEST ONOFF PBH PBT SMPL TDE TOF Meaning Function key acknowledges all alarms, troubles, and supervisories. N/A with user-defined function keys. Function key acknowledges all fire alarms. Function key acknowledges all supervisory events. Function key performs a system reset on the local panel. Function key performs a signal silence on the local panel. Function key acknowledges all trouble events. Function key performs a lamp test. N/A with user-defined function keys. Pressing the function key turns the specified point (Ref. Address) ON until the function key is released. This mode allows the reference address to track the state of the function key. The point turns ON if the switch is active and turns OFF if the switch is not active. Used to indicate that an SMPL equation is being used to program the function key. Function key toggles (reverses) the Disable/Enable state of the specified point (Ref. Address). Function key toggles (reverses) the ON/OFF state of the specified point (Ref. Address). 6-8

75 Programming the NAC Card Introduction The 4010 FACP provides four Notification Appliance Circuits (NACs), each of which connects one or more Notification Appliances (horns, strobes, bells, etc.) to the The PC Programmer represents the 4010 s standard, hardwired NACs as the NAC card. (Note: 4009 IDNet NACs are grouped and programmed under the IDNet card.) Opening the NAC card allows you to view and program the device type, point type, and custom label of the standard Notification Appliances. The position of the NAC card within the Active Cards List is shown below. Programming Cards Figure 6-4. NAC Card Location within Active Cards List Step 1. Open the NAC Card Double click on the NAC icon shown in Figure 6-4. A window similar to the following appears. This window displays all standard NACs. Figure 6-5. Card Data Entry Window for NACs Step 2. Edit Device Types Edit a NAC s Device Type, as follows: 1. Move to the line corresponding to the NAC whose device type you want to change. 2. Double click on the NAC s existing device type. A list box appears, containing the following choices: SIGA - Class A NAC. NAC contains multiple signal paths, allowing circuit operation to continue if a single open circuit occurs. This option requires installation of a Class A NAC adapter card. SIGB - Class B NAC. NAC contains only a single circuit path. 6-9

76 Programming the NAC Card, Continued Step 3. Edit Point Types Edit a NAC s Point Type, as follows: 1. Double click on the NAC s existing Point Type. A list box appears, containing NAC-specific point types. 2. Select the appropriate Point Type. Refer to Table 6-3 for a quick reference of point types, or refer to Appendix A for detailed point type descriptions. Table 6-3. NAC Point Types Quick Reference NAC Point Types AHUF AHUO AHUR ALTERN BSIGNAL DHOLDER PRIMARY QALERT RELAY RSIGNAL RVISUAL RWATER SIGNAL Application AHU off relay dual relay control AHU on relay dual relay control AHU on/off relay signal relay Elevator capture - alternate Trouble/supervisory bell signal Door holder control Elevator capture - primary TrueAlert Non-Addressable signal Generic relay Alarm signal on until reset Visual on until reset Waterflow signal on until reset Generic signal (no default operation) SQALERT TrueAlert Non-Addressable signal on until silence SSIGNAL Alarm signal on until silence SUPREL SUPV SVISUAL SWATER TSIGNAL Suppression release output Sprinkler supervisory signal Visual on until silence Waterflow signal on until silence Trouble/supervisory signal Step 4. Edit Custom Labels Edit a NAC s Custom Label, as follows: 1. Move to the line corresponding to the NAC whose custom label you want to change. 2. Double click on the NAC s existing label and type the appropriate label. Refer to Using AutoFill at the beginning of this chapter for information on copying custom label text to a range of points. 6-10

77 Programming the AUX Relay Card Introduction The 4010 FACP includes two auxiliary relays commonly referred to as AUX relays. Each relay provides one Form C contact, normally open or normally closed, rated at 2A (24 VDC) or 0.5 A (120 VAC) with the optional auxiliary relay kit. The PC Programmer represents all AUX relays as the AUX Relay card. Opening this card allows you to view and program the point type and custom label for these relays. (Note: AUX Relays do not have a programmable device type.) Figure 6-6 shows the location of the AUX Relay card within the Active Card List. Programming Cards Figure 6-6. AUX Relay Icon Step 1. Open the AUX Relay Card Double click on the AUX Relay icon. A window similar to the following appears. Figure 6-7. Card Data Entry Window for AUX Relays 6-11

78 Programming the AUX Relay Card, Continued Step 2. Edit the Point Type Edit an AUX Relay s Point Type, as follows: 1. Double click on the AUX Relay s existing Point Type. 2. Select the appropriate Point Type. Refer to Table 6-4 for a quick reference of point types, or refer to Appendix A for detailed point type descriptions. Table 6-4. AUX Relay Point Types Quick Reference AUX Relay Point Types AHUF AHUO AHUR ALTERN BSIGNAL DHOLDER PRIMARY QALERT RELAY RSIGNAL RVISUAL RWATER SIGNAL SQALERT SSIGNAL SUPREL SUPV SVISUAL SWATER TSIGNAL Application AHU off relay dual relay control AHU on relay dual relay control AHU on/off relay signal relay Elevator capture - alternate Trouble/supervisory bell signal Door holder control Elevator capture - primary TrueAlert Non-Addressable signal Generic relay Alarm signal on until reset Visual on until reset Waterflow signal on until reset Generic signal (no default operation) TrueAlert Non-Addressable signal on until silence Alarm signal on until silence Not Applicable Sprinkler supervisory signal Visual on until silence Waterflow signal on until silence Trouble/supervisory signal Step 3. Edit Custom Label Edit an AUX Relay s Custom Label, as follows: 1. Move to the line corresponding to the AUX Relay whose custom label you want to change. 2. Double click on the relay s custom label field and enter the appropriate label. Refer to Using AutoFill at the beginning of this chapter for information on copying custom label text to a range of points. 6-12

79 Programming the IDNet Card Introduction The 4010 FACP supports up to 250 IDNet points. The PC Programmer represents all IDNet points as the IDNet card. Opening this card allows you to view and program the device type, point type, custom label, and mode (sounder base smoke detectors only) for each IDNet point. Figure 6-8 shows the location of the IDNet card within the Active Card List. Programming Cards Figure 6-8. IDNet Card Icon Step 1. Open the IDNet Card Double click on the IDNet icon, shown in Figure 6-8. A window similar to the following appears. Figure 6-9. Card Data Entry Window for IDNet 6-13

80 Programming the IDNet Card, Continued Step 2. Edit Each Point s Device Type Edit an IDNet point s Device Type, as follows: 1. Move to the line corresponding to the point whose device type you want to change. 2. Double click on the point s device type field. A list box appears, containing the IDNet-specific choices shown in Table 6-5. Refer to Appendix A for detailed descriptions of these device types. Table 6-5. IDNet Device Types Device Type 4009A 4009A8 ADRPUL CANPUL HEAT IAM IHEAT IION IOHEAT ION IPHOTO KACPULL MAZAM MBZAM OHEAT PHOTO QIPHOTO QPHOTO QRPHOTO QSPHOTO R4009A R4009A8 RHEAT RIAM RION ROHEAT RPHOTO SHEAT SION SOHEAT SPHOTO XIPHOTO XPHOTO XRPHOTO XSPHOTO Application 4009A with 4 NACs 4009A with 8 NACs Addressable Pull Station Canadian Pull Station TrueAlarm Heat Detector Line Power Sup. IAM with TrueSense TrueAlarm heat detector with isolator TrueAlarm ion detector with isolator TrueAlarm heat detector with ROR and Relay TrueAlarm ionization detector TrueAlarm photo detector with isolator base KAC Pull Station Class A Monitor ZAM (T-sense) Class B Monitor ZAM (T-sense) TrueAlarm Heat Detector with ROR TrueAlarm Photoelectric Detector Quick Connect Photo with Isolator Quick Connect Photo Quick Connect Photo with Relay Quick Connect Photo with Sounder 4009A 4 NAC s with Repeater 4009A 8 NAC s with Repeater TrueAlarm heat detector with relay Relay IAM TrueAlarm ion detector with relay TrueAlarm heat detector with ROR and Relay TrueAlarm photo detector with relay TrueAlarm heat detector with sounder TrueAlarm ion detector with sounder TrueAlarm heat detector with ROR and Relay TrueAlarm photo detector with sounder Extra sensitive TrueAlarm photo detector with isolator Extra sensitive TrueAlarm photo detector Extra sensitive TrueAlarm photo detector with relay Extra sensitive TrueAlarm photo detector with sounder 6-14

81 Programming the IDNet Card, Continued Step 3. Edit Each Point s Point Type Step 4. Set Single Station Mode (Detectors with Sounder Bases Only) Edit an IDNet point s Point Type, as follows: 1. Move to the line corresponding to the IDNet point whose point type you want to change and double click on the Point Type field. 2. Select the appropriate Point Type. Refer to the Monitor Point Type descriptions in Appendix A for detailed information on IDNet point types. Note: 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. TrueAlarm devices with sounder bases default to Single Station mode. 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. Follow these steps to enable or disable Single Station mode for a specific point. 1. Double click on the point s Mode field. Two choices appear. One choice is blank (disables Single Station mode) and the other choice is Single Station (enables Single Station mode). 2. Select the appropriate mode. To globally disable Single Station mode, use the front panel programmer interface (System Options menu). Programming Cards 6-15

82 Viewing and Programming Analog and Digital Pseudos Introduction The pseudo point cards, each of which represents a separate and distinct group of pseudo points, are located at the bottom of the Active Cards List. Figure 6-10 shows the location of these cards. Figure Digital and Analog Pseudo Cards Viewing Card 18 Digital System Pseudos Card 18 represents the Digital System Pseudos. These points store a value of ON or OFF and are used by the system to monitor and control system components and functions. Double clicking on the Card 18 icon, shown in Figure 6-11, displays the system s 75 digital pseudo points and their pre-assigned label. This is a viewonly screen and cannot be edited. Figure Card 18 Digital System Pseudos (View Only) 6-16

83 Viewing and Programming Analog and Digital Pseudos, Continued Card 19 User Digital Pseudos User-defined Digital Pseudo Points are used within Custom Control equations. The function of a user-defined digital pseudo point is determined by the point type that you assign it. Table 6-6 lists the point types for user-defined digital pseudo points and explains their function. To program the Point Type and Custom Label for each user-defined digital pseudo point, follow these steps. 1. Double click on the Card 19 icon within the Active Cards List. A window similar to the following appears. Programming Cards Figure Card 19 User-Defined Digital Pseudos 2. Edit a pseudo point s point type, as follows: a. Move to the line corresponding to the pseudo point whose point type you want to change. b. Double click on the point s existing point type. A list box appears, containing the choices shown in Table 6-6. Click on the appropriate choice. 3. Double click on a point s Custom Label field to edit its custom label. 6-17

84 Viewing and Programming Analog and Digital Pseudos, Continued Card 19 User Digital Pseudos (continued) Table 6-6. Point Types for User-Defined Digital Pseudo Points Point Type ALARM SUPV TROUBLE UTILITY Application Turning ON a digital pseudo point with this point type causes an Alarm condition. Turning ON a digital pseudo point with this point type causes a Supervisory condition. Turning ON a digital pseudo point with this point type causes a Trouble condition. A UTILITY digital pseudo point can hold a value of ON or OFF, and is typically used as an ON/OFF switch within a custom control equation. Example. In the following Custom Control equation, P76 turns ON only when the state of point 2-2 or 2-3 is ON. P76 can then be monitored by other system components, triggering other actions when it turns ON. INPUT ON/CODE 2-2 or ON/CODE 2-3 OUTPUT TRACK ON P76 PRI 9,9 Card 20 Analog System Pseudos Card 20 represents the system s Analog Pseudo Points. These type of pseudo points store analog values (the number 128, for example), and can be used as a threshold value within a Custom Control equation. (For example, perform some action when the value of the Trouble Count analog pseudo point [A2] reaches a specific value). Double click on the Card 20 icon, shown in Figure 6-10, to display the system s analog pseudo points and their pre-assigned labels. This is a view-only screen and cannot be edited. Refer to Figure 6-13 for an example of this screen. 6-18

85 Viewing and Programming Analog and Digital Pseudos, Continued Card 20 Analog System Pseudos (continued) Programming Cards Figure Card 20 System Analog Pseudo Points (View Only) Card 21 Analog User Pseudos Analog User Pseudos store analog values that can be used in Custom Control equations. The exact function of an analog user pseudo depends on its point type counter, timer, or analog value. Double clicking on the Card 21 icon within the Active Cards List displays the system s user Analog Pseudo points. Refer to Figure 6-14 for an example of this screen. Figure Card 21 Analog User Pseudos 6-19

86 Viewing and Programming Analog and Digital Pseudos, Continued Card 21 Analog User Pseudos (continued) Follow the steps below to program an analog user pseudo s point type or custom label. 1. Edit the point type of a user analog pseudo point, as follows: a. Move to the line corresponding to the pseudo point whose point type you want to change. b. Double click on the point s existing point type. A list box appears, containing the choices shown in the following table. Click on the appropriate choice. Point Type Table 6-7. Analog Psuedo Point Types Application ANALOG Stores a static, analog value between 0 and 65,535. COUNTER Allows the point s analog value to be incremented by Custom Control equations. Typically used to track the number of some system condition and trigger some action when a threshold is reached. TIMER Allows you to set an analog value between 0 and 65, 535 that can be used as a countdown timer. A timer can be used to delay some action until a specified amount of time passes. 2. Double click in the Custom Label field to edit the point s custom label. Card 22 System Defined List Pseudos List Pseudos provide a means of monitoring a range of similar devices. (All Waterflow Alarm Monitor Zones, for example.) Double clicking on the Card 22 icon within the Active Cards List displays the System List Pseudo points and their pre-assigned label. This is a view-only screen and cannot be edited. Figure System List Pseudo Points 6-20

87 Viewing and Programming Analog and Digital Pseudos, Continued Card 23 User Definable List Pseudos User Definable List Pseudos allow you to create a list of similar points for use in Custom Control equations, user-defined LEDs, user-defined function keys, etc. The list point turns ON if one of the points referenced in the list turns ON. You can only edit a list s custom label from the Card Tab. Follow the steps below to program a user-defined list pseudo s custom label. 1. Double click on the Card 23 icon. A screen similar to the one shown in Figure 6-16 appears. Programming Cards Figure User Defined List Pseudos 2. Move to the line corresponding to the point whose custom label you want to change. Double click on the line and edit the point s label. 6-21

88 Programming a Dual RS-232 Card Introduction The Dual RS-232 card allows one or two printers to be attached to the 4010 panel. Programming a dual RS-232 card involves setting the communication parameters and selecting which events are annunciated to the printer(s). Step 1. Open the RS-232 Card Screen Double click on the icon that represents the RS-232 card. (If the card is not already in the Active Cards List, you first need to drag it from the Available Cards list into the Active Cards List.) A screen similar to the one shown in Figure 6-17 appears. Figure RS-232 Card Screen Step 2. Configure Communication Settings Configure the settings for the printer attached to Port A or Port B, as follows: 1. Click on the Port A or Port B radio button. 2. Click on the drop-down list box beneath the radio button and specify the type of printer attached to the port. If no printer is attached to the port, select Unused. Do not select Command when configuring a printer. Table 6-8. Supported Printer Types Option Unused Print80U Print80S Print40U Print40S Command 6-22 Application Unused port 80 character, unsupervised printer 80 character, supervised printer 40 character, unsupervised printer 80 character, supervised printer Used only when a service modem is connected to an RS-232 Service Modem Card. See next section of this manual for details.

89 Programming a Dual RS-232 Card, Continued Step 2. Configure Communication Settings (continued) 3. Click on the Port Label field, shown below, and specify the location of the printer. 4. Use the drop down list boxes under Communication Settings to specify the Baud Rate, number of Data Bits and Stop Bits, and the Parity setting in use on the printer. Step 3. Select Events 1. Move to the Event Reporting panel and select the check boxes that correspond to the types of events you want annunciated at the printer. Refer to Table 6-9 for information on these checkboxes. Table 6-9. Event Choices Programming Cards Checkbox Fire Alarm Events Trouble Events Supervisory Events Walk Test Events Silence/Reset Events SMPL Print Statements Events Control Events Utility Events Pseudo Events Reports Events Application Prints an event when an ALARM condition occurs. Prints an event when a TROUBLE condition occurs. Prints an event when a SUPERVISORY condition occurs. Prints an event when a WALKTEST occurs. Prints an event when a System Reset or Alarm Silence is performed. Allows SMPL Print statements to print at the printer. Prints an event when a control point (signal or relay) turns ON or OFF. Prints an event when a point with the Utility point type turns ON or OFF. Prints an event when a pseudo point changes state, either from ON to OFF or vice versa. Specifies whether the printer prints a report when a report is generated at the panel. 2. Click OK to close the screen. 6-23

90 Programming an RS-232 Service Modem Card Introduction The RS-232 Service Modem card allows the following: Service personnel can dial into the 4010 FACP through the RS-232 Service Modem card and perform basic control and monitoring of the panel, and request system reports. System status and reports can be sent out the service modem port and displayed on a remote terminal or computer. This section describes programming the RS-232 Service Modem Card and provides a brief description of the remote commands used to monitor/control the 4010 FACP. Step 1. Open the RS-232 Service Modem Card Screen Double click on the icon that represents the RS-232 Service Modem card. (If the card is not already in the Active Cards List, you first need to drag it from the Available Cards list into the Active Cards List.) A screen similar to the one shown in Figure 6-18 appears. Figure RS-232 Service Modem Card Screen Step 2. Configure Communication Settings for Port B 1. Click on the Port B radio button. 2. Click on the drop-down list box beneath the Port B radio button and select the Command option. 6-24

91 Programming an RS-232 Service Modem Card, Continued Step 2. Configure Communication Settings for Port B (continued) 3. Click on the Port Label field, shown below, and specify the location of the control device. 4. Use the drop down list boxes under Communication Settings to specify the modem s Baud Rate, number of Data Bits and Stop Bits, and the Parity. Step 3. Select Events to Forward to Remote System Move to the Event Reporting panel and select the check boxes that correspond to the types of events you want annunciated at the remote system. Refer to Table 6-10 for information on these checkboxes. Table Event Choices Programming Cards Checkbox Fire Alarm Events Trouble Events Supervisory Events Walk Test Events Silence/Reset Events SMPL Print Statements Events Control Events Utility Events Pseudo Events Reports Events Application Displays an event when an ALARM condition occurs. Displays an event when a TROUBLE condition occurs. Displays an event when a SUPERVISORY condition occurs. Displays an event when a WALKTEST occurs. Displays an event when a System Reset or Alarm Silence is performed. Displays SMPL Print statements at the remote system. Displays an event when a control point (signal or relay) turns ON or OFF. Displays an event when a point with the Utility type turns ON or OFF. Displays an event when a pseudo point changes state, either from ON to OFF or vice versa. Specifies whether the system displays a report when one is generated at the panel. 6-25

92 Programming an RS-232 Service Modem Card, Continued Service Modem Command Summary Service modem commands are either query type commands that request information or action type commands that direct the panel to perform some function. The asterisk shown within each command denotes the minimum number of characters that you must type. For example, to use the TIME command, you need to type, at a minimum, the T character. In the examples, the character represents the prompt. Table Service Modem Commands Command T*IME L*IST Sets and displays the system time and date. Explanation / Examples Viewing Current Time and Date. Type T at the prompt as shown below: -T The system responds by displaying the time and date, similar to the following: 8:00:05 am Wed 25-DEC-98 Changing Current Time and Date. Type a T followed by the time and date. -T 9:00 am 25-DEC-98 Returns the current logical point status (ON, OFF, FIRE, etc.) for the requested point. Viewing Status for a Specific Point. Enter the LIST command, followed by the point s address (see Appendix A for a list of point addresses). For example: -LIST P260 Viewing List of Current Alarms, Troubles, or Supervisories. Enter the LIST command, followed by an F (current list of alarms), T (current list of Troubles), or S (current list of Supervisories). For example: -LIST F Viewing Alarm, Trouble, or Supervisory Counts. Enter the List command, followed by COUNT. -LIST COUNT S*ET Allows the user to manipulate the status of a control point or digital pseudo point. Turning a Point ON. Enter the SET command, followed by the point s address (see Appendix A for a list of point addresses), and the ON qualifier. For example: -SET P260 ON Turning a Point OFF. Enter the SET command, followed by the point s address (see Appendix A for a list of point addresses), and the OFF qualifier. For example: -SET P260 OFF Clearing an Override Trouble. Enter the SET command, followed by the point s address (see Appendix A for a list of point addresses), and the AUTO qualifier. For example: -SET P260 AUTO 6-26

93 Programming an RS-232 Service Modem Card, Continued Service Modem Command Summary (continued) Table Service Modem Commands (continued) Command REV*ISION HELP RES*TART ACK LOG*IN Explanation / Examples Displays the revision of the 4010 s system software and the revision and name of the CFIG (job) executing on the panel. For example: -REVISION SYS REV: 2.01 CFIG FORMAT: 71 JOB 92A1004A REV:7 24-NOV-99 Help on Parameters. Enter HELP without a parameter to see a list of available parameters. To see a short text description of a parameter, type HELP, followed by a parameter. Help on Commands. Enter HELP, followed by a command to see a short text description for one of the service modem commands. Applicable commands are: TIME, LIST REVISION, SET, DISABLE, HELP, LOGIN, RESTART, ACK, PRINT, CLEAR, TYPE. For example: -HELP TYPE Allows the user to perform a cold or warm restart. Performing a Warm Start. Enter RESTART, followed by the qualifier WARM. A warm start re-initializes the hardware, but does not affect the logs, time and date, verification tallys, and disable states. For example: -RESTART WARM Performing a Cold Start. Enter RESTART, followed by the qualifier COLD. A cold start performs a complete re-initialization of the panel. -RESTART COLD Acknowledging the Highest Priority Abnormal Point. Enter the ACK command with no qualifiers. For example: -ACK Acknowledging All Points in the Active Alarm (fire), Trouble, or Supervisory List. Enter the ACK command, followed by F, T, or S. For example: -ACK F Logging in to a Remote System. Enter LOGIN at the prompt and wait for the prompt to reappear. When it does, enter the 4 digit passcode that corresponds to the desired login level. For example: -LOGIN Logging Out of a Remote System. Enter LOGIN at the prompt and wait for the prompt to reappear. When it does, enter a carriage return. Programming Cards 6-27

94 Programming an RS-232 Service Modem Card, Continued Service Modem Command Summary (continued) Table Service Modem Commands (continued) Command PRINT Explanation / Examples Sends a report to the report printer. The PRINT command must be followed by one of the following qualifiers: ALOG TLOG SLOG CLOG TASERV TASTAT Prints the alarm log Prints the trouble log Prints the supervisory log Prints the combined log Prints a TrueAlarm service report Prints a TrueAlarm status report The command allows the user to clear the alarm log, trouble log, supervisory log, or combined log. Type CLEAR, followed by one of the following: CLEAR ALOG TLOG SLOG CLOG Prints the alarm log Prints the trouble log Prints the supervisory log Prints the combined log Sends a report to the terminal (PC) from which the command was issued. The TYPE command must be followed by one of the following qualifiers: TYPE ALOG TLOG SLOG CLOG TASERV TASTAT Prints the alarm log Prints the trouble log Prints the supervisory log Prints the combined log Prints a TrueAlarm service report Prints a TrueAlarm status report DIS*ABLE CTRL+A CTRL+S CTRL+D Allows the user to disable/enable points. Disabling a Point. Enter the DISABLE command, followed by a point and the ON qualifier. For example: -DISABLE P260 ON Enabling a Point. Enter the DISABLE command, followed by a point and the OFF qualifier. For example: -DISABLE P260 OFF Three control key commands are supported: CTRL+A CTRL+S CTRL+D Acknowledges the highest priority abnormal point Alarm Silence System Reset 6-28

95 Programming a 4120 Network Card Introduction This section describes programming a 4120 network card -- either an RS485 card (also known as a Wired Media card) or a modular card with either RS485 or Fiber. Be aware of the following before beginning: You cannot create a network of only 4010 panels. You must connect the 4010 to a network containing either a 4100, GCC, or NPU. Use the PC Programmer s Network Tab to create public points. Step 1. Define Network Job Attributes (If Necessary) If you are adding a network card to a non-networked job (i.e., you selected Standalone Panel when you originally created the job), the programmer presents the following screen, which allows you to specify the network job number, description, and network file. Once a standalone job is changed to a network job, you can no longer upload the job to the laptop. Make sure you backup the job before proceeding. Programming Cards Figure New Network Job Dialog 1. Select the appropriate radio button New Network or Existing Network as required. 2. If the network job is new, you must specify the Network File number and Network Description for the job. Refer to Simplex Applications engineering for information on specifying a network file number. 6-29

96 Programming a 4120 Network Card, Continued Step 1. Define Network Job Attributes (If Necessary) (continued) 3. Double click on the icon that represents the 4120 Network card. (If the card is not already in the Active Cards List, you first need to drag it from the Available Cards list into the Active Cards List.) A screen similar to the one shown in Figure 6-20 appears. Figure Network Card Screen Step 2. Enter Description The Description field specifies what appears in the DBN Node Listing Description, shown at the bottom of Figure

97 Programming a 4120 Network Card, Continued Step 3. Set Node / Loop Number and Comm Style Choose the appropriate selections for Node Number, Loop Number, and Comm Style, as follows: Node Number. The Node Number is a unique number used to identify the 4010 panel on the 4120 network. The range for this number is between 1 and 99. If necessary, first use the Simplex Network Programmer or the network diagnostics to view the other nodes on the network. Review the node numbers already in use and select a unique number for this node. Loop Number. A 4120 network can support up to 4 separate loops, with no physical bridging or routing of information between loops. Make sure that the loop number you choose is the same as all other nodes on the loop. Comm Style. Style 4 networks represent a single line or star topology. With these types of networks a single short, ground fault, or open circuit on the network communications channel reports a trouble and all nodes beyond the fault operate in local (standalone) mode. Style 7 networks represent a closed loop ring. With these types of networks, any single open, short, or ground fault on the network communications channel will not interrupt communications between nodes on the network. Programming Cards Step 4. Select Port Media (Modular Card Only) Modular versions of the 4120 card allow the use of either Wired Media (RS485) or fiber for the card s left and right ports. 1. Click the drop down list box underneath Left Port and select the choice that represents the type of module used on the card s left port. 2. Click the drop down list box underneath Right Port and select the choice that represents the type of module used on the card s right port. 6-31

98 Programming a 24 Point I/O Card Introduction A 24 Point I/O card allows 24 additional input (either two or three position switches) or output devices (lamp, piezo, relay, or on until reset relay) to be connected to the 4010 FACP. Double click on the icon that represents the 24 Point I/O card. (If the card is not already in the Active Cards List, you first need to drag it from the Available Cards list into the Active Cards List.) A screen similar to the one shown in Figure 6-21 appears. Figure Point I/O Card Screen Programming an Input Device (Two- or Three-Position Switch) 1. Click on the Device Type field and select GRAPHIN device type. 2. Click on the point type field and select one of the following: OSWITCH. Specifies a two-position switch, supervised for open circuits. Requires an EOL resistor. SSWITCH. Specifies a two-position switch, supervised for open and short circuits. Requires EOL and current limited (up leg) resistors. TSWITCH. Three position (SPDT) switch, supervised for open circuits. Requires EOL and current limited resistors. USWITCH. Two-position switch, unsupervised. Assumes that no EOL or current limited resistor is used. For this type of switch, SHORT = ON and OPEN = OFF. 3. Select the mode (operation) of the switch. Refer to Table 6-11 for specific information on the modes. 4. Click on the Ref. Addr field and select the point affected by the mode. 6-32

99 Programming a 24 Point I/O Card, Continued Programming an Input Device (Two- or Three-Position Switch) (continued) Table Input Modes Mode Switch Type Circuit State and Result USWITCH Open Acknowledges all alarms and troubles Mode OFF ACK Programs the switch to acknowledge all alarms and troubles OSWITCH SSWITCH TSWITCH Short Limited Short Limited Acknowledges all alarms and troubles Mode OFF. Acknowledges all alarms and troubles Mode OFF Mode OFF Acknowledges all alarms and troubles Acknowledges all alarms and troubles Programming Cards DE -- Programs the switch to disable or enable a specific point. This mode is typically used with a 2- position maintained or a 3-position switch, and is not intended to be used with a 2-position momentary switch. Use TDE (toggle disable/enable) with a 2-position momentary. USWITCH OSWITCH SSWITCH TSWITCH Open Short Limited Short Enables the referenced point. Disables the referenced point. Enables the referenced point. Disables the referenced point. Enables the referenced point. Disables the referenced point. Mode OFF Disables the referenced point Limited Enables the referenced point LFACK Programs the switch to acknowledge Fire Alarms. LSR Programs the switch to perform a system reset. USWITCH OSWITCH Open Short Performs the mode s action i.e., acknowledges alarms, performs reset, etc. Mode OFF Performs the mode s action i.e., acknowledges alarms, performs reset, etc. Mode OFF LSS Programs the switch to perform a signal silence. LTACK Programs the switch to acknowledge troubles. LTEST Programs the switch to perform a lamp test. SSWITCH TSWITCH Limited Short Limited Performs the mode s action i.e., acknowledges alarms, performs reset, etc. Mode OFF Mode OFF Performs the mode s action i.e., acknowledges alarms, performs system reset, etc. Performs the mode s action i.e., acknowledges alarms, performs reset, etc. 6-33

100 Programming a 24 Point I/O Card, Continued Programming an Input Device (Two- or Three-Position Switch) (continued) Table Input Modes (continued) Mode Switch Type Circuit State and Result ONOFF Programs the switch to turn the referenced point ON or OFF. This mode is typically used with a 2-position maintained or a 3- position switch, and is not intended to be used with a 2-position momentary switch. USWITCH OSWITCH SSWITCH TSWITCH Open Short Limited Short Turns point ON Turns point OFF Turns point ON Turns point OFF Turns point ON Turns point OFF Mode OFF Turns point ON Limited Turns point OFF USWITCH Open Turns point ON and holds it ON. Mode OFF PBH Push Button Hold. This mode programs the switch to turn a point ON and hold it ON. Point must be turned OFF by Custom Control or system reset. OSWITCH SSWITCH TSWITCH Short Limited Short Turns point ON and holds it ON. Mode OFF Turns point ON and holds it ON. Mode OFF Mode OFF Turns point ON and holds it ON. Limited Turns point ON and holds it ON. PBT Push Button Track. This mode allows the reference address to track the state of the switch. The point turns ON if the switch is active and turns OFF if the switch is not active. This mode is intended for use with a 2 position momentary or push button switch. USWITCH OSWITCH SSWITCH TSWITCH Open Short Limited Short Turns referenced point ON. Turns referenced point OFF Turns referenced point ON. Turns referenced point OFF Turns referenced point ON. Turns referenced point OFF Turns referenced point OFF. Turns referenced point ON. Limited Turns referenced point ON. 6-34

101 Programming a 24 Point I/O Card, Continued Programming an Input Device (Two- or Three-Position Switch) (continued) Table Input Modes (continued) Mode Switch Type Circuit State and Result USWITCH Not Applicable SMPL Mode indicates that an SMPL equation is being used to program the switch. OSWITCH SSWITCH TSWITCH Not Applicable Not Applicable Not Applicable Programming Cards USWITCH Open Toggles the disable/enable state of point Mode OFF. TDE Programs the switch to toggle (reverse) the disable/enable state of the point. This mode is intended for use with a 2-position momentary switch. OSWITCH SSWITCH TSWITCH Short Limited Short Toggles the disable/enable state of point. Mode OFF. Toggles the disable/enable state of point. Mode OFF Mode OFF Toggles the disable/enable state of point. Limited Toggles the disable/enable state of point. USWITCH Open Toggles the ON/OFF state of the point. Mode OFF TOF -- Programs the switch to toggle (reverse) the ON/OFF state of the point. This mode is intended for use with a 2-position momentary switch. OSWITCH SSWITCH TSWITCH Short Limited Short Toggles the ON/OFF state of the point. Mode OFF Toggles the ON/OFF state of the point. Mode OFF Mode OFF Toggles the ON/OFF state of the point. Limited Toggles the ON/OFF state of the point. 6-35

102 Programming a 24 Point I/O Card, Continued Programming an Output Point 1. Click on the Device Type field and select the GRAPHOUT device type. 2. Click on the point type field and select one of the following: LAMP. Specifies that the output is an LED. PIEZO. Specifies that the output is an audible piezo device. Piezo beeps to indicate an alarm, and sounds a steady tone to indicate a trouble or supervisory condition. RELAY. Specifies that the output is a generic relay. RRELAY. Specifies that the output is a relay that activates upon ALARM and turns OFF upon reset. 3. Select the mode (operation) of the output. Refer to Table 6-15 for specific information on the modes. 4. Click on the Ref Addr field and select the point used to trigger the output. Table Output Device Modes Mode DISABLE FIRE LF LS LT OFF ON SMPL SUPERV TROUBLE Application Output activates when the referenced point is Disabled. Output activates when the state of the referenced point is in an ALARM condition. Output activates when any ALARM condition occurs. Output activates when a Supervisory condition occurs. Output activates when a Trouble condition occurs. Output activates when the state of the referenced point is OFF. Output activates when the state of the referenced point is OFF. Output activates when a Custom Control equation executes. Output activates when a Supervisory condition occurs to the referenced point. Output activates when a Trouble condition occurs to the referenced point. 6-36

103 Programming an LCD Annunciator Card Introduction The 4010 can use either of the following annunciators: External Graphical LCD Annunciator contains LEDs that can be programmed to monitor the state of specific points. This product is available for international systems only. LCD Annunciator contains LEDs that can be programmed to monitor the state of specific points. Step 1. Open the LCD Annunciator Card Screen Double click on the card icon that represents the annunciator. A screen similar to the following appears. The names of the points differ if you are programming an External LCD Annunciator. Programming Cards Figure LCD Annunciator Step 2. Programming External Graphical LCD Annunciator Switches The External LCD Annunciator contains push button switches that can be used to control outputs. Programming these switches involves setting a device type, point type, mode (operation for the switch), and reference point (the point affected by the switches mode). 1. Click on the Device Type column to the right of the switch that you want to program and select the LCDIN choice. 6-37

104 Programming an LCD Annunciator Card, Continued Step 2. Programming External Graphical LCD Annunciator Switches (continued) 2. Click on the Point Type column and select USWITCH (2-position, unsupervised switch. 3. Click on the Mode and select the operation of the switch. Table Modes for External LCD Switches Mode ACK DE LFACK LSR LSS LTACK LTEST ONOFF PBH PBT SMPL TDE TOF Application Programs the switch to acknowledge all alarms and troubles. Programs one switch position to disable the point and another switch position to enable the point. Programs the switch to acknowledge Fire Alarms. Programs the switch to perform a system reset. Programs the switch to perform a signal silence. Programs the switch to acknowledge troubles. Programs the switch to perform a lamp test. Programs one position of the switch to turn the point ON and another switch position to turn the point OFF. Programs the switch to turn the point ON and hold it ON. Point must be turned off by Custom Control or system reset. Programs the referenced address to track the state of the switch, turning ON when the switch is active and turning OFF when the switch is inactive. Indicates that an SMPL equation is being used to program the switch. Programs the switch to toggle the Disable/Enable state of the point. Programs the switch to toggle the ON/OFF state of the point. 4. Click on the Ref. Addr field and select the point affected by the switch. 5. Use the Keyswitch checkboxes, located in the Access Levels panel of Figure 6-22, if you want to require the use of a key to acknowledge Alarms, Fire Alarms, Supervisory events, Trouble events, or System events. 6-38

105 Programming an LCD Annunciator Card, Continued Step 3. Programming LEDs Both the External Graphical LCD Annunciator and the LCD Annuciator contain LEDs that can be used to monitor the state of a point, illuminating a specific color when the state of the point is equal to a specific condition. 1. Click on the Device Type field corresponding to the LED that you want to program and choose Multicolor. 2. Click on the Point Type field and choose one of the following. Note that LED1 and LED2 illuminate Yellow or Red, whereas LED3 illuminates either Yellow or Green. LED LED 1 LED 2 LED 3 Available Point Types Select Yellow for a Yellow LED Select Non Yellow for a Red LED Select Yellow for a Yellow LED Select Non Yellow for a Red LED Select Yellow for a Yellow LED Select Non Yellow for a Green LED Programming Cards 3. Click on the Mode drop down list box. Choose the mode (State) that must be true to illuminate the LED. Refer to the following table for details on the available modes. Table Modes for User-Defined LEDs Mode Disable Fire LF LS LT OFF ON SMPL SUPERV TROUBLE Meaning LED illuminates when the state of the REF ADDR (point) is DISABLED. LED illuminates when the state of the REF ADDR (point) goes into ALARM LED illuminates when the ALARM ACK button on the panel is pushed. LED illuminates when the SUPV ACK button on the panel is pushed. LED illuminates when the TROUBLE ACK button on the panel is pushed. LED illuminates when the state of the REF ADDR (point) is OFF. LED illuminates when the state of the REF ADDR (point) is ON LED illuminates when the state of a Custom Control equation(s) is TRUE. LED illuminates when the state of the REF ADDR (point) goes into SUPERV. LED illuminates when the state of the REF ADDR (point) goes into ALARM 6-39

106 Programming an LCD Annunciator Card, Continued Step 3. Programming LEDs (continued) 4 Click on the Ref Address field and associate a point with the mode you set in Step 3. The list that appears depends on the Mode selection. The Ref Address list contains either physical points, pseudo points, list points, or no entries. Programming Events The Event Reporting panel of the LCD Annunciator card programming screen allows you to select which events are reported at the annunciator. Click on the check boxes that correspond to the events that should be routed to the annunciator. The list is as follows: Silence / Reset Events SMPL Print Statements Walk Test Events Fire Alarm Events Trouble Events Supervisory Events 6-40

107 Chapter 7 Programming Points Blank Page Overview This chapter provides instructions for programming each point s device type, point type, and custom label. In this Chapter Refer to the following page for specific information on a topic. Topic See Page # Overview Point Tab 7-2 Programming a Point s Hardware Device Type 7-5 Programming a Point s Software Point Type 7-8 Programming Custom Labels 7-11 Programming Points 7-1

108 Overview Point Tab Introduction The Point Tab, shown in Figure 7-1, allows you to view all points in the system, and to add and edit point information. This section describes the general features AutoFill, Word Library, etc. of the Point Tab screen. Splitter Bar Figure 7-1. Point Tab Splitter Bar Use the Splitter Bar to adjust the size of the window containing points. Position the cursor over the Splitter Bar, click and hold the mouse button, drag the bar to its new position and release the mouse button. Site, Card, and Point Views The View panel allows you to view points in three ways. Each view is selected by clicking on the corresponding radio button in the View panel (top right Figure 7-1). Site View uses the site tree to display the points. Card View breaks down the points by card, listing each card s points beneath an icon that represents the card. Point View allows you to see a listing of all points in the system, arranged numerically. Sort Order The Sort Order panel, located in the top right of Figure 7-1, allows you to display points in ascending or descending numerical order. Use the two radio buttons Ascending and Descending to set the sort order. Word Library The Custom Label Suggestion box displays suggestions from the programmer s word library as you create custom labels. If you wish to insert the word displayed in this box, press CTRL + F and the word is inserted in the correct position in the custom label. 7-2

109 Overview Point Tab, Continued AutoFill AutoFill allows you to automatically add text to the Custom Label field. It is possible to select either a single point, a range of adjoining points within the list, or a group of non-adjoining points. 1. Enter the text that you want to automatically enter in the Custom Label AutoFill text entry box. 2. Choose the points to which the text will be added, as follows: Single Point. Click on the point to highlight it. Next, click on the AutoFill button. The text is added to the Custom Label field of the selected point. Range of Adjoining points. Click on the first point in the range. Hold down the shift key and click on the last point in the range. Click on the AutoFill button. The text is added to the Custom Label field for the range of points. Range of Non-Adjoining Points. Hold down the CTRL key and click on the points. Each point highlights to show it is selected. When all points have been selected, release the CTRL key and click on the AutoFill button. The text is added to the Custom Label field for all of the selected points. Custom Label Spell Check Spell check allows you to validate the spelling of custom labels, and can be used to check either selected points or all points. 1. Make sure Point View is selected. 2. Select the points to check as follows: Single Point. Click on the Selected Points button in the Custom Label Spell Check panel and click on the point to highlight it. Next, click on the AutoFill button. The text is added to the Custom Label field of the selected point. Range of Adjoining Points. Click on the Selected Points button in the Custom Label Spell Check panel and click on the first point in the range. Hold down the shift key and click on the last point in the range. Click on the AutoFill button. The text is added to the Custom Label field for the range of points. Range of Non-Adjoining Points. Click on the Selected Points button in the Custom Label Spell Check panel and hold down the CTRL key and click on the points. Each point highlights to show it is selected. When all points have been selected, release the CTRL key and click on the AutoFill button. The text is added to the Custom Label field for all of the selected points. All Points. Click on the All Points button in the Custom Label Spell Check panel. Programming Points 7-3

110 Overview Point Tab, Continued Custom Label Spell Check (continued) 3. Click on the rectangular Check button, located in the Custom Label Spell Check panel. Words that are not contained in the programmer s dictionary are flagged by the following dialog. Figure 7-2. Spell Check Correction Dialog 4. Choose an option, as follows: Change. Changes spelling of the highlighted word to the suggestion. Ignore. Treats the word as correct for the one highlighted occurrence. Change All. Changes all occurrences of the misspelled word to the suggestion. Ignore All. Treats all occurrences of the word as correctly spelled. Add to User Dict. Inserts the word into the dictionary. 7-4

111 Programming a Point s Hardware Device Type Introduction A point s hardware device type identifies the specific hardware device being programmed. The programmer supports the following general categories of hardware device type. Each hardware device type corresponds to a specific Product ID (PID). Appendix A of this manual lists the PIDs that apply to each device type. Procedure 1. Move to the point s device type field and double click with the left mouse button. A context-sensitive list of device types appears, meaning the list that appears for an IDNet point is different from the list that appears for a NAC point. 2. Click on the device type that is appropriate for the point being programmed. Refer to Table 7-1 for quick reference information, or refer to Appendix A for detailed information on the hardware device types. Table 7-1. Device Types Quick Reference Class Device Type Application ADRDET Addressable Detector Base Monitor ADRPUL Addressable Pull Station CANPUL Canadian 2-stage Pull Station ISO Communicating Line Powered ISO MAZAM Class A Monitor ZAM (T-sense) MBZAM Class B Monitor ZAM (T-sense) NAC SIGA SIGB Class A signal (1&2, 3&4 in pairs) Class B signal (1&2, 3&4 in pairs) Programming Points Input INPUT GRAPHIN Input Graphic I/O input Output GRAPHOUT OUTPUT Graphic I/O output Output Relay RELAY RIAM Unsupervised Relay Relay IAM 7-5

112 Programming a Point s Hardware Device Type, Continued Procedure (continued) Table 7-1. Device Types Quick Reference (continued) Class Device Type Application SSD Heat Heat (Simplex IHEAT Heat with Isolator base Smoke IION Ion with Isolator base Detector) IOHEAT Rate of rise heat with isolator base ION ION IPHOTO Photo with Isolator OHEAT Rate of rise heat PHOTO Photo RHEAT Heat with relay RION ION with relay ROHEAT Rate of rise heat with relay RPHOTO Photo with relay SHEAT Heat with sounder SION ION with sounder SOHEAT Rate of rise heat with sounder SPHOTO Photo with sounder IDNet 4009A 4009A8 R4009A R4009A8 ADRPUL CANPUL HEAT IAM IHEAT IION IOHEAT ION IPHOTO KACPULL MAZAM MBZAM OHEAT PHOTO QIPHOTO QPHOTO QRPHOTO 4009A with 4 NACs 4009A with 8 NACs 4009A 4 NAC s with Repeater 4009A 8 NAC s with Repeater Addressable Pull Station Canadian 2-stage pull station Heat Detector Line Power Sup. IAM with TrueSense Heat Detector with Isolator ION Detector with Isolator TureAlarm Heat Detector with ROR and Isolator Ionization Detector Photo with Isolator Base KAC Pull Station Class A Monitor ZAM (TrueSense) Class B Monitor ZAM (TrueSense) Heat Detector with ROR Photoelectric Detector Quick Connect Photo with Isolator Quick Connect Photo Quick Connect Photo with relay 7-6

113 Programming a Point s Hardware Device Type, Continued Procedure (continued) Table 7-1. Device Types (continued) Class Device Type Application IDNet QSPHOTO Quick Connect Photo with sounder RHEAT Heat detector with relay RIAM Relay IAM RION ION Detector with Relay ROHEAT Heat Detector with ROR and Relay RPHOTO Photo with Relay SHEAT Heat Detector with sounder SION Ion Detector with sounder SOHEAT Heat Detector with ROR and Sounder SPHOTO Photo with sounder XIPHOTO Extra-sensitive Photo ISO XPHOTO Extra-sensitive Photo XRPHOTO Extra-sensitive Photo with Relay XSPHOTO Extra-sensitive Photo with Sounder Misc. Device Types ANALOG COMNTBL DIGTAL DTMASTERIN DTMASTEROUT1 DTMASTEROUT2 LIST STATUS Analog Pseudo Network Common Trouble Digital Pseudo Master Switch Input Master LED Output Red/Yellow Master LED Output Red/Green List Status Programming Points 7-7

114 Programming a Point s Software Point Type Introduction A point type determines the following: The message displayed on the 4010 s LCD when changes occur to the state of the point s circuit. The way in which the system operates (for example, initiate an Alarm, Trouble, or Supervisory action) when changes occur to the state of the point s circuit. Example. Compare the FIRE Point type with the SO (normally open sprinkler monitor) point type. When the circuit state of a point programmed with either type is, the system operates normally (i.e., no Alarm/Trouble/Supervisory messages and no system action occurs). Notice, however, that the operation of the system is different if a Current Limited condition occurs. When a current limited condition occurs for a device associated with the FIRE point type, the system displays Fire Monitor Zone on the LCD, illuminates the FIRE LED, and triggers any automatic and custom Alarm response (i.e., activate NACs, etc.). Contrast this with what happens when a current limited condition occurs for a device associated with the SO point type. In this case, an abnormal physical state exists. To have actions occur as a result of the sprinkler monitor s change in state, you would need to write a Custom Control equation that monitors the point for this circuit state and then executes specific output actions if an abnormal physical state occurs. Circuit Status LCD Text System Operation FIRE Limited Open Short Fire Monitor Zone Fire Monitor Zone Fire Monitor Zone Fire Alarm Open Trouble Fire Alarm SO Limited Open Short Sprinkler Monitor Sprinkler Monitor Sprinkler Monitor Abnormal Open Trouble Abnormal Procedure Follow these steps to define a point s software point type. Note: 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. 1. Click on the point whose point type you want to program. 2. Move to the point s Point Type field and double click with the left mouse button. 3. Click on the appropriate point type. Refer to Table 7-2 for a quick reference of the point types; refer to Appendix A for detailed descriptions of the point types. 7-8

115 Programming a Point s Software Point Type, Continued Procedure (continued) Table 7-2. Point Types Category Point Type Application ABORT Abort zone (pre-signal) DAMPER Damper Monitor (open/closed) DUCT Duct Detector EMERG Combination Fire/Emergency Alarm FIRE Fire Alarm (Generic) FLAME Flame Detector FPUMP Fire Pump Monitor GENMON Generator Monitor GVMON Generic verified Monitor HEAT Heat Detector LATSUPV Latching Supervisory PULL Manual Pull Station S2STAGE 2-stage Monitor (abn=presignal; short=alarm) SDUCT Supervisory Duct Detector SFIRE Combination Smoke Fire Zone SFPUMP Supervisory Fire Pump Monitor SGENMON Supervisory Generator Monitor SMOKE Smoke detector SO Sprinkler supervisory (normally open) Monitor SPULL Combination Smoke/Pull Zone STYLEC Style C Monitor Point (current limit=fire alarm; short/open=trouble) SUPABRT Suppression release abort zone SUPDET Suppression release detector zone SUPDUMP Suppression release manual dump SUPPRES Suppression release pressure monitor SUPV Supervisory (generic) TROUBLE Trouble Monitor UTILITY Non-alarm utility with Tri-state ability VSFIRE Verified Smoke/Fire Zone VSMOKE Verified Smoke Zone VSPULL Verified combination Smoke/Pull Zone WATER Waterflow Switch WSO Waterflow Switch/Sprinkler supervision (ly Open) Programming Cards 7-9

116 Programming a Point s Software Point Type, Continued Procedure (continued) Table 7-2. Point Types (continued) Category Point Type Application AHUF AHU OFF Relay (Dual Relay Control) AHUO AHU ON Relay (Dual Relay Control) AHUR AHU ON/OFF Relay (Signal Relay control) ALTERN Alternate Elevator Capture BSIGNAL Trouble/Supervisory Bell Signal (on until ACK) Control DHOLDER Door Holder Control PRIMARY Primary Elevator Capture RELAY Generic Relay RSIGNAL Alarm Signal (on until reset) RVISUAL Visual (on until reset) RWATER Waterflow Signal (on until reset) SIGNAL Generic Signal (no default operation) SSIGNAL Alarm Signal (on until silence) SUPREL Suppression (Agent Discharge) Release Output SUPV Sprinkler Supervisory Signal (on until ACK) 24 Point I/O LAMP OSWITCH PIEZO RELAY RRELAY SSWITCH TSWITCH USWITCH Lamp Output 2-position switch (open, supervised) Piezo output Generic Relay Relay (on until reset) 2-position switch (open/short supervised) 3-position switch (open, supervised) 2-position switch (unsupervised) 7-10

117 Programming Custom Labels Introduction Custom Labels provide a means of adding custom text descriptions to a point s Custom Label field. Procedure 1. Click on the point whose label you want to program. 2. Move to the point s Custom Label field and double click with the left mouse button. A flashing cursor appears, indicating that you should enter text. 3. Edit the label. Refer to Overview at the beginning of this chapter for information on using the AutoFill feature to automatically add text to the Custom Label field. Programming Points 7-11

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119 Chapter 8 Programming Lists Introduction This chapter describes editing the name of a list, and adding or deleting points from a list. In this Chapter Refer to the following page for specific information on a topic. Topic See Page # Overview List Tab 8-2 Naming Lists and Adding/Deleting Points 8-4 Programming Lists 8-1

120 Overview List Tab Accessing the List Tab The List Tab allows you to build or edit lists. Click on the List Tab at the top of the screen to display the list-editing window. Figure 8-1. List Tab, Showing List Editing Window The system maintains the following lists: Lists 1 through 3 use a pre-assigned label and are auto-generated by the programmer. Lists 4 through 7 use a pre-assigned label but are not auto-generated. Lists 8 through 12. These are lists containing suppression release points. Lists 26 through 50 are available for user-defined requirements. Icons used within the Screen Three icons are used to show the status of a list. These icons appear to the left of the list s number. A page represents a list that contains no points. A book represents a list containing points. An open book represents an open list, and displays the contents of the list immediately below the open book icon. 8-2

121 Overview List Tab, Continued Sorting the Point Display The right side of the List window contains the points that can be added to system and user-defined lists. You can sort and filter this list as follows: 1. Click on the View button. A dialog similar to the following appears. Figure 8-2. Point Display Filter 2. Select the Sort/Filter options as follows: a. Change the view to a Site-, Card-, or Point-specific view by clicking on the appropriate radio button in the View panel. Site View shows a list of the points grouped by site information. Card View organizes the points according to which card they are associated with. Point View is the default view. It displays a numerical list of all points. b. Choose Ascending or Descending order. Ascending order lists the points from highest number to lowest and descending lists the points from lowest to highest. c. Click on the Device drop down list box. This selection allows you to display only points with a specific device type. Choose All to see all points. d. Click on the Point drop down list box. This selection allows you to display only points with a specific point type. Choose All to see all points. Programming Lists 8-3

122 Naming Lists and Adding/Deleting Points Naming a List Use the following procedure to edit the name of any user-defined list. (Note that you cannot change the name of system-defined lists.) 1. Double click on the Description field to the right of the list number that you want to define. 2. Edit the text as appropriate. Adding Points Points contained on the right hand side of the List window are added to a list as follows: 1. Highlight the points that you want to add to the list. Single Point. Click on the point to highlight it. Range of Adjoining points. Click on the first point in the range. Hold down the shift key and click on the last point in the range. Range of Non-Adjoining Points. Hold down the CTRL key while clicking on each point. Each point highlights to show it is selected. When all points have been selected, release the CTRL key. 2. Hold down the left mouse button and drag the points into the list area. While continuing to hold down the mouse button, position the cursor directly over the list to which you want to add the points and release the mouse button. Deleting Points Delete points from a list, as follows: 1. Click on the + sign in the box to the left of the book that represents the list from which you want to delete points. 2. Select the points to delete, as follows: Single Point. Click on the point to highlight it. Range of Adjoining points. Click on the first point in the range. Hold down the shift key and click on the last point in the range. Range of Non-Adjoining Points. Hold down the CTRL key while clicking on each point. Each point highlights to show it is selected. When all points have been selected, release the CTRL key. 3. Press the Delete key, or hold down the right mouse button and select the Delete option. 8-4

123 Introduction In this Chapter Chapter 9 Creating a Site Tree This chapter describes creating a site tree, which is a tree-like representation of your building and its fire alarm points. The remainder of this chapter discusses the following topics: Creating a Site Tree Topic See Page # Overview 9-2 Building a Site Tree

124 Overview Introduction A site tree allows you to create labels for specific, physical areas of a building and assign fire alarm points to these labels. When complete, a site tree graphically depicts the layout of the site and gives an indication of every point s location within the site. A site tree reads from left to right, with general divisions of the site (such as Building A or West Wing) listed on the left side and specific areas of the site (such as R&D lab or Boiler) listed on the right side. Points are listed on the far right of the tree and are the smallest unit that can be added to a site tree. Figure 9-1 shows a typical site tree. Figure 9-1. Typical Site Tree Terms and Concepts Important terms and concepts related to a site tree include: Book icons represents element of the tree that contain subordinate elements. In Figure 9-1, for example, the 1 ST FLOOR book indicates that some number of building components (either points or smaller divisions of the building) are contained within it. A plus (+) sign to the left of a closed book indicates that the contents of the element are not currently displayed. Conversely, a minus (-) sign to the left of an open book indicates that the contents of the element are currently displayed. A page icon represents an element of the tree that contains no subordinate elements. Points, which are the smallest division of a site tree, are always represented by a page. 9-2

125 Overview, Continued Terms and Concepts (continued) The terms Level and Leaf are used when inserting components into the site tree. These are relative terms used to indicate where an element will be inserted in relation to the currently highlighted element. A level indicates that the new element will be added at a level equal to the selected element, whereas leaf indicates that the new element is subordinate to the highlighted element. In Figure 9-1, for example, the highlight is on OFFICE 2. Inserting a Level would add an element equal to OFFICE 2. Inserting a Leaf would add an element that is subordinate to OFFICE 2. Creating a Site Tree The Site Tab Selecting the Site Tab displays a window similar to the one shown in Figure 9-2. The left side of the window is the area in which the site tree is created. The right side of the window lists the points that can be added to the site tree. Figure 9-2. Site Tab Window Use the View button shown at the top of the points list to change, filter, and sort the way in which points are displayed in the list. You can sort and filter the Points list as follows: 1. Click on the View button. A dialog similar to the one shown in Figure 9-3 appears. 9-3

126 Overview, Continued The Site Tab (continued) Figure Select the Sort/Filter options as follows: a. Change the view to a Site-, Card-, or Point-specific view by clicking on the appropriate radio button in the View panel. Site view shows a list of the points grouped by the Site information. Card View organizes the points according to which card they are associated with. Point View is the default view. It displays a numerical list of all points. b. Choose Ascending or Descending order. Ascending order lists the points from highest number to lowest and descending lists the points from lowest to highest. c. Click on the Device drop down list box. This selection allows you to display only points with a specific device type. Choose All to see all points. d. Click on the Point drop down list box. This selection allows you to display only points with a specific point type. Choose All to see all points. 9-4

127 Building a Site Tree Introduction It is helpful to identify the major components of the site before you begin to create the site tree. At a minimum, you probably want to include entries for each of the following in the tree. Each building Each floor within the building Each component (office, lab, hallway, duct, etc.) of each floor that contains points Creating a Site Tree Step 1. Add the Buildings 1. Right click on the blank portion of the Site screen. When the list of choices appears, select Insert Level. An entry, containing a Page icon and the word *Level*, appears. 2. Double click on *Level* and type the building name in the text entry box. The name must be 10 characters or less. 3. To add an additional building, right click on the entry that you just added (the building ) and select Insert Level. Insert Level adds an element to the tree that is equal to the currently selected element. In this case, another entry that is equal to the building. 4. Double click on *Level* and type a building name. Step 2. Add Floors Add floors to the building, as follows: 1. Right click on the entry that represents a building. When the list of choices appears, click on Insert Leaf. An entry, containing a Page icon and the word *Leaf*, appears. This entry is indented to the right of the building entry. 2. Double click on *Leaf* and enter the name of the floor. The text description must be 10 characters or less. Repeat Steps 3 and 4, highlighting the icons for other buildings as necessary, to add all other floors. 9-5

128 Building a Site Tree, Continued Step 3. Add Floor Components Floor components such as offices, hallways, ducts, etc. are added by first selecting the floor to which you want to add the components and then selecting Insert Leaf, as follows: 1. Double click on the floor to which you want to add components. A menu of options appears. 2. Choose Insert Leaf. A line containing a page icon, followed by the label *Leaf*, appears. This line is beneath and to the right of the highlighted floor. 3. Double click on *Leaf*. Enter a name for the floor in the text entry box. The name must be 10 characters or less. Repeat these steps, choosing different floors as required, to add other floor components. Step 4. Add Points Points are added to the tree as follows: 1. Move to the list of points on the right side of the screen. Click on the point. A page icon, containing a + sign appears. 2. Drag the point into the site tree, positioning it over the floor component to which it should be added. 3. Release the mouse button. The point is added to the floor component. Repeat these steps until all points are added to the site tree. 9-6

129 Chapter 10 Creating Custom Control Equations Introduction This chapter provides an overview of the Simplex Multi-functional Programming Language (SMPL), also known as Custom Control, and describes using the PC Programmer application to program Custom Control equations. In this Chapter The remainder of this chapter discusses the following topics: Topic See Page # Overview CC Tab 10-2 Overview Components of a CC Equation 10-4 Step 1. Add a New Equation to the User Program 10-6 Step 2. Add Additional Inputs and Outputs to an Equation 10-7 Step 3. Edit Each Input Statement s Properties 10-8 Step 4. Edit an Output Statement s Properties Custom Control 10-1

130 Overview CC Tab CC Tab The CC Tab, shown in Figure 10-1, provides a graphical means of adding and editing custom control equations. Points appear in a list on the right side of the CC window and equations appear on the left side of the window. Figure CC Tab Use the View button shown at the top of the points list to change, filter, and sort the way in which points are displayed in the list. You can sort and filter the Points list as follows: 1. Click on the View button. A dialog similar to the one shown in Figure 10-2 appears. Figure Point Display Filter 10-2

131 Overview CC Tab, Continued CC Tab (continued) 2. Select the Sort/Filter options as follows: a. Change the view to a Site-, Card-, or Point-specific view by clicking on the appropriate radio button in the View panel. Site View shows a list of the points grouped by the site information. Card View organizes the points according to which card they are associated with. Point View is the default view. It displays a numerical list of all points. b. Choose Ascending or Descending order. Ascending order lists the points from highest number to lowest and descending lists the points from lowest to highest. c. Click on the Device drop down list box. This selection allows you to display only points with a specific device type. Choose All to see all points. d. Click on the Point drop down list box. This selection allows you to display only points with a specific point type. Choose All to see all points. Custom Control 10-3

132 Overview Components of a CC Equation Introduction Up to 60 Custom Control equations can be programmed for the Each equation consists of two sides: an INPUT SIDE, containing one or more Input Statements and an OUTPUT SIDE, containing one or more Output Statements. The total number of statements, both input and output must be 6 or less. An equation can be better understood as an IF/THEN command. IF the INPUT SIDE is true, THEN execute the OUTPUT SIDE. Equation Input Statement Input Statement End of Inputs Output Statement Output Statement End of Outputs Figure Example Equation Input Statements Input Statements can do either of the following: Monitor the status of a point, set of points, or list. Perform a function, such as Delay, Cycle, Compare two values, or Save/Recall values. Multiple input statements, located within the same equation, must be separated by a logical operator (AND or OR). These operators function as follows: AND Operator. Use the AND Logical operator to link the current input statement in Series with all previous input statements in an equation. In the example below, IF the condition of M1-1 is Fire AND the condition of M1-2 is Fire, then the INPUT SIDE is true and the Output statements (not shown) execute. If, however, only M1-1 or M1-2 (not both) is in a Fire state, the INPUT side is not true and the output statements do not execute. 10-4

133 Overview Components of a CC Equation, Continued Input Statements (continued) OR Operator. The OR Logical operator links the current statement in Parallel with all previous statements in an equation. In the example below, IF the condition of M1-1 is Fire OR the condition of M1-2 is Fire, then the INPUT SIDE is true. In other words, when the status of either M1-1 or M1-2 becomes Fire, the output statements execute. Output Statements Output statements are the actions that occur when the INPUT Side of an equation is true. An output consists of an Opcode, the point associated with the Opcode, and a priority. Custom Control 10-5

134 Step 1. Add a New Equation to the User Program Procedure All user-defined CC equations are stored within the User Program, which is represented by an icon on the left side of the screen. Follow these steps to add a new equation to the User Program. 1. Right click on the User icon. See Figure 10-4 for its location. 2. Highlight Add Equation and click the left mouse button. An entry similar to the following appears beneath the user program. Figure Adding an Equation 10-6

135 Step 2. Add Additional Inputs and Outputs to an Equation Introduction Each equation can have up to 6 inputs or outputs in it. Follow these steps to add additional inputs/outputs to the equation. If the equation appears as a book with a plus (+) sign to the left of it, click on the + sign to expand the equation. Adding Additional Inputs 1. Highlight one of the equation s existing input statements and click the right mouse button. Adding Additional Outputs 2. Click on Add Input. An additional input appears beneath the highlighted input statement. 1. Highlight one of the equation s existing output statements and click the right mouse button. 2. Click on Add Output. An additional output appears beneath the highlighted output statement. Custom Control 10-7

136 Step 3. Edit Each Input Statement s Properties Introduction An input s properties specify the behavior of the input (i.e. what operation or function does the input perform). Properties also define how inputs function in relation to other inputs. Input Properties are set through the Custom Control Input dialog. Follow these steps to open this dialog. 1. Highlight one of the equation s input qualifiers and click the right mouse button. A menu of choices appears. 2. Click on Properties. A dialog similar to Figure 10-5 appears. Figure Custom Control Input Dialog 3. Use the AND / OR logical operators to specify whether the input is in series (AND radio button) or parallel (OR radio button) with all other inputs. If the Equation has only a single input, skip this step. 4. Use the NOT Operator to specify that the condition must not be true for the output to execute. In the following example, the input side of the equation is true if the condition of M1-1 is Fire and the condition of M1-2 is NOT fire. 5. Click on the Opcode and Qualifier list boxes and choose an Opcode and qualifier. Refer to Table 10-1 for a list of Opcodes and qualifiers. 10-8

137 Step 3. Edit Each Input Statement s Properties, Continued Associating Points with Input Statements After defining the Opcode and Qualifier for an input statement, you need to associate a point with the statement. To do this, follow these steps. 1. In the list on the right side of the screen, click on the name of the point. 2. Hold down the left mouse button and drag the highlighted point from the list to the appropriate Input Statement. 3. Release the mouse button. Custom Control 10-9

138 Step 3. Edit Each Input Statement s Properties, Continued Input Opcodes and Qualifiers Table 10-1 lists the opcodes and their qualifiers and explains their use. Table Input Opcodes and Qualifiers Opcode Qualifier Application Point Status Allows the status of a specific point to be tested for a specific condition. Fire Detect Fire Fire Ack Trouble Supervisory Supervisory Ack When the referenced point (for example a smoke, flame, heat detector) enters an alarm condition, the input condition is TRUE for approximately ½ second. Any NACs triggered on the output side of the equation sound until signal silence. Should another detector then sound, it would trigger its NACs, allowing the fire condition to be tracked from one area to another. This functionality is known as resound. Refer to the ANY opcode later in this table for information on using Fire Detect with lists. When the referenced point (either a pull station or detector type device) enters an alarm condition, the input condition is TRUE until a System Reset is performed. When the referenced point enters an alarm condition, the input condition is TRUE until the alarm is acknowledged. When the referenced point enters a trouble condition, the input condition is TRUE until the trouble condition is acknowledged. When the referenced point enters a supervisory condition, the input condition is TRUE until the problem condition is fixed. For example, turning a sprinkler system OS&Y valve changes the state of the contacts being monitored and triggers a Supervisory condition. Although this condition can be acknowledged, the supervisory condition cannot be cleared until the OS&Y is restored to its original position. When the referenced point enters a supervisory condition, the input condition is TRUE until the supervisory condition is acknowledged. One way this qualifier might be used would be to sound a bell in a control room when a point (a list containing all waterflow points for example) enters a supervisory condition. In this case, the bell would connect to a relay that would be referenced on the output side of the equation, and the input side of the equation would monitor the list with the Supervisory ACK qualifier. The output (bell) would turn off only when the supervisory condition is acknowledged

139 Step 3. Edit Each Input Statement s Properties, Continued Input Opcodes and Qualifiers (continued) Table Input Opcodes and Qualifiers Opcode Qualifier Application Point Status Allows the status of a specific point to be tested for a specific condition. Trouble Ack Physical Physical Abnormal Physical Open Physical Short Disable Class A Trouble ON / Coding OFF Control On Control Off Dirty Empty When the referenced point enters a trouble condition, the input condition is TRUE until the trouble condition is acknowledged. Typically used in a similar way to the Supervisory ACK qualifier. The input condition is TRUE when the physical state of the referenced point is normal. The input condition is TRUE when the physical state of the referenced point is abnormal (current limited). One typical use for this qualifier is to verify the physical location of a fire in high-rise building. Once the location of the fire is determined (i.e., locate the detectors with a Physical Abnormal state), the output side of the equation can be used to pressurize only the floor(s) with detectors in this state, and ignore any pull stations (which may or may not be on the fire floor). The input condition is TRUE when the physical state of the referenced point (or its wiring) is open. The input condition is TRUE when the physical state of the referenced point (or its wiring) is short. The input condition is TRUE when the state of the referenced point is disabled. The input condition is TRUE when the state of the referenced point is a Class A Trouble. The input condition is TRUE when a signal circuit (NAC) or relay is ON or coding (i.e., sounding/flashing in march time, temporal, etc.). A typical use for this qualifier is to use the relay or NAC as a switch for some other action. The input condition is TRUE when a signal circuit (NAC) or relay is OFF. Also used as a switch for some other action. The input condition is TRUE when an IDNet sounder or relay base is ON. The input condition is TRUE when an IDNet sounder or relay base is OFF. Input condition is TRUE when the average value for the referenced point exceeds the fixed threshold (120 analog units). Input condition is TRUE if the referenced point is a list and it is empty. Custom Control 10-11

140 Step 3. Edit Each Input Statement s Properties, Continued Input Opcodes and Qualifiers (continued) Table Input Opcodes and Qualifiers Opcode Qualifier Application Point Status Allows the status of a specific point to be tested for a specific condition. Abnormal Detect Open Detect Short Detect When the referenced point enters an abnormal condition, the input condition is TRUE for approximately ½ second. Any NACs triggered on the output side of the equation sound until signal silence. When an open condition occurs to the referenced point, or its circuit, the input condition is TRUE for approximately ½ second. Any NACs triggered on the output side of the equation sound until signal silence. When a short condition occurs to the referenced point, or its circuit, the input condition is TRUE for approximately ½ second. Any NACs triggered on the output side of the equation sound until signal silence. ANY Opcode. Input condition is TRUE for ½ second if any point within the list enters an alarm condition. Any NACs triggered on the output side of the equation sound until system silence. Should another detector then sound, it would trigger its NACs, allowing the fire condition to be tracked from one area to another. This functionality is known as resound. ANY/ALL Used only with Lists. Note that with the ANY Opcode you can specify how many points within the list must meet the criteria for the input condition to be true. Fire Detect Fire Using a list to implement resound allows a large number of devices to be monitored by a limited number of equations. Since the maximum number of equations is limited to 60, lists provide an efficient way of implementing many system features. ALL Opcode. Input condition is TRUE for ½ second only if ALL points within the list are in alarm. ANY Opcode. When any point within the list (pull stations or detector type device) enters an alarm condition, the input condition is TRUE until a System Reset is performed. ALL Opcode. All devices within the list must enter an alarm condition for the input condition to be TRUE. If this occurs, the condition is TRUE until a System Reset is performed

141 Step 3. Edit Each Input Statement s Properties, Continued Input Opcodes and Qualifiers (continued) Table Input Opcodes and Qualifiers Opcode Qualifier Application ANY Opcode. When any point with the list enters a supervisory condition, the input condition is TRUE until the problem condition is fixed. Supervisory ALL Opcode. All devices within the list must enter an supervisory condition for the input condition to be TRUE. If this occurs, the input condition is TRUE until all problem conditions are fixed. ANY Opcode. When any point within the list enters an alarm condition, the input condition is TRUE until the alarm is acknowledged. Custom Control ANY/ALL Used only with Lists. Note that with the ANY Opcode you can specify how many points within the list must meet the criteria for the input condition to be true. Fire Ack Supervisory Trouble Supervisory Ack ALL Opcode. All devices within the list must enter an alarm condition for the input condition to be TRUE. If this occurs, the condition is TRUE until the alarms are acknowledged. ANY Opcode. When any point with the list enters a supervisory condition, the input condition is TRUE until the problem condition is fixed. ALL Opcode. All devices within the list must enter an supervisory condition for the input condition to be TRUE. If this occurs, the input condition is TRUE until all problem conditions are fixed. ANY Opcode. When any point within the list enters a trouble condition, the input condition is TRUE until the trouble condition is fixed. ALL Opcode. All devices within the list must enter a trouble condition for the input condition to be TRUE. If this occurs, the condition is TRUE until all trouble conditions are fixed. ANY Opcode. When any point within the list enters a supervisory condition, the input condition is TRUE until the supervisory condition is acknowledged. ALL Opcode. All devices within the list must enter a supervisory condition for the input condition to be TRUE. If this occurs, the condition is TRUE until all alarms are acknowledged

142 Step 3. Edit Each Input Statement s Properties, Continued Input Opcodes and Qualifiers (continued) Table Input Opcodes and Qualifiers Opcode Qualifier Application ANY/ALL Used only with Lists. Note that with the ANY Opcode you can specify how many points within the list must meet the criteria for the input condition to be true. Trouble Ack Physical Physical Abnormal ANY Opcode. When any point within the list enters a trouble condition, the input condition is TRUE until the troubles are acknowledged. ALL Opcode. All devices within the list must enter a trouble condition for the input condition to be TRUE. If this occurs, the condition is TRUE until all troubles are acknowledged. ANY Opcode. The input condition is TRUE when the physical state of any point within the list is normal. ALL Opcode. The input condition is TRUE when the physical state of all points within the list is normal. ANY Opcode. The input condition is TRUE when the physical state of any point within the list is abnormal (current limited). One typical use for this qualifier is to verify the physical location of a fire in high-rise building. Once the location of the fire is determined (i.e., locate the detectors with a Physical Abnormal state), the output side of the equation can be used to pressurize only the floor(s) with detectors in this state, and ignore any pull stations that may have been pulled (and may or may not be on the fire floor). Physical Open Physical Short ALL Opcode. The state of all devices within the list must be Physical Abnormal for the input condition to be TRUE. ANY Opcode. The input condition is TRUE when the physical state of any point within the list (or any point s wiring) is open. ALL Opcode. The circuit state of all devices within the list must be open for the input condition to be TRUE ANY Opcode. The input condition is TRUE when the physical state of any point within the list (or any point s wiring) is shorted. ALL Opcode. The circuit state of all devices within the list must be shorted for the input condition to be TRUE 10-14

143 Step 3. Edit Each Input Statement s Properties, Continued Input Opcodes and Qualifiers (continued) Table Input Opcodes and Qualifiers Opcode Qualifier Application ANY / ALL Used only with Lists. Note that with the ANY Opcode you can specify how many points within the list must meet the criteria for the input condition to be true. Disable On/Coding On Input Manual Override ANY Opcode. The input condition is TRUE when any point within the list is disabled. ALL Opcode. All points within the list must be disabled for the input condition to be TRUE. ANY Opcode. The input condition is TRUE when any signal circuit (NAC) or relay within a list is ON or coding (i.e., sounding/flashing in march time, temporal, etc.). A typical use for this qualifier is to use the relay or NAC as a switch for some other action. ALL Opcode. All signal circuits or NACs within the list must be ON or coding for the input condition to be TRUE. ANY Opcode. Used to override any programming in the system. Typically used by inspectors to override programming that triggers signals, elevator capture, door drop, etc. The input condition is TRUE if any point within the list is ON. All Opcode. Used to override any programming in the system. Typically used by inspectors to override programming that triggers signals, elevator capture, door drop, etc. The input condition is TRUE if all points within the list are ON. Any Opcode. The input is TRUE if any point within the list has been manually overridden (i.e., controlled from the panel). All Opcode. The input is TRUE if all points within the list have been manually overridden (i.e., controlled from the panel). Custom Control Delay Constant Variable Allows the Custom Control input condition to set a delay equal to a constant value. Allows the Custom Control input condition to reference a value contained in an analog pseudo point. This value can periodically change, allowing the amount of delay to change as required by the application

144 Step 3. Edit Each Input Statement s Properties, Continued Input Opcodes and Qualifiers (continued) Table Input Opcodes and Qualifiers Opcode Qualifier Application Cycle Constant Variable Allows the Custom Control output condition to periodically execute. The frequency at which the statement executes is determined by the value of the constant. For example, the output side of the equation could periodically (every 15 minutes for example) turn a heat pump on if necessary. Allows the Custom Control input condition to periodically execute. The frequency at which the statement executes is determined by the value of an analog pseudo point. This analog value can periodically change, allowing the frequency of the cycle to change as required by the application. Compare Seconds (constant) Counts (constant) Counts (variable) Allows a time value (for example, an analog pseudo point timer) to be compared against a constant value (threshold). This allows some output to be executed as the threshold is approached (less than), met (equal to), or exceeded (greater than). Allows a counter (for example, an analog pseudo point counter) to be compared against a constant value (threshold). This allows some output to be executed as the threshold is approached (less than), met (equal to), or exceeded (greater than). Allows a variable counter (an analog pseudo point counter) to be compared against another variable counter (another analog pseudo point counter used as a threshold). This allows some output to be executed as the threshold is approached (less than), met (equal to), or exceeded (greater than). Save/Recall Save/Recall Register # SAVE. Allows an input condition to be evaluated and its result stored in a register as a 1 (true) or 0 (false). There are six registers available for use. RECALL. Allows an input to recall the value of a register and use it beside other input conditions. If the recalled value is false, it prevents the input from being TRUE. If the recalled value is true (and all other parts of the input are TRUE), the input condition is TRUE

145 Step 3. Edit Each Input Statement s Properties, Continued Input Opcodes and Qualifiers (continued) Table Input Opcodes and Qualifiers Opcode Qualifier Application Smoke level 0.5 Input condition is TRUE when the smoke level for the referenced photo smoke detector exceeds 0.5 %. Smoke level 1.0 Input condition is TRUE when the smoke level for the referenced photo smoke detector exceeds 1.0 %. PHOTO Smoke Level Smoke level 1.5 Smoke level 2.0 Smoke level 2.5 Smoke level 3.0 Smoke level 3.7 Input condition is TRUE when the smoke level for the referenced photo smoke detector exceeds 1.5 %. Input condition is TRUE when the smoke level for the referenced photo smoke detector exceeds 2.0 %. Input condition is TRUE when the smoke level for the referenced photo smoke detector exceeds 2.5 %. Input condition is TRUE when the smoke level for the referenced photo smoke detector exceeds 3.0 %. Input condition is TRUE when the smoke level for the referenced photo smoke detector exceeds 3.7 %. Custom Control ION Smoke Level Smoke level 0.5 Smoke level 0.9 Smoke level 1.3 Smoke level 1.7 Input statement is TRUE when the smoke level for the referenced ion smoke detector exceeds 0.5 %. Input statement is TRUE when the smoke level for the referenced ion smoke detector exceeds 0.9 %. Input statement is TRUE when the smoke level for the referenced ion smoke detector exceeds 1.3 %. Input statement is TRUE when the smoke level for the referenced ion smoke detector exceeds 1.7 %. XPHOTO Smoke Level Smoke level 0.2 Smoke level 0.5 Smoke level 1.0 Smoke level 1.5 Input statement is TRUE when the smoke level for the referenced extra-sensitive photo smoke detector exceeds 0.2 %. Input statement is TRUE when the smoke level for the referenced extra-sensitive photo smoke detector exceeds 0.5 %. Input statement is TRUE when the smoke level for the referenced extra-sensitive photo smoke detector exceeds 1.0 %. Input statement is TRUE when the smoke level for the referenced extra-sensitive photo smoke detector exceeds 1.5 %

146 Step 3. Edit Each Input Statement s Properties, Continued Input Opcodes and Qualifiers (continued) Table Input Opcodes and Qualifiers Opcode Qualifier Application Smoke level 2.0 Input statement is TRUE when the smoke level for the referenced extra-sensitive photo smoke detector exceeds 2.0 %. XPHOTO Smoke Smoke level 2.5 Input statement is TRUE when the smoke level for the Level referenced extra-sensitive photo smoke detector exceeds 2.5 %. Smoke level 3.7 Input statement is TRUE when the smoke level for the referenced extra-sensitive photo smoke detector exceeds 3.7 %

147 Step 4. Edit Each Output Statement s Properties Procedure An output s properties specify what occurs (for example, a limited set of strobes/horns activate) when the Input Side of the CC Equation is True. Output Properties are set through the Custom Control output dialog. Follow these steps to open this dialog. 1. Highlight one of the equation s output qualifiers and click the right mouse button. A menu of choices appears. 2. Click on Properties. A dialog similar to the following appears. Custom Control Figure Custom Control Output Dialog 3. Use Table 10-2 to set the Opcode and Qualifier. Table Output Opcodes and Qualifiers Opcode Qualifier Application Hold ON When the input side of the equation is true, Hold ON turns the referenced output point ON. The output remains ON until another equation turns the output OFF or the system is reset. List L7 (Control Points, Off with Reset) is useful for turning OFF a number of points simultaneously. OFF When the input side of the equation is true, Hold OFF turns the referenced output point OFF. The output point remains OFF until another equation turns the output point ON or the system is reset

148 Step 4. Edit Each Output Statement s Properties, Continued Procedure (continued) Table Output Opcodes and Qualifiers (continued) Opcode Qualifier Application PRI When the input side of the equation is true, the priority is reset to the value specified until a system reset is performed. Slow March Time When the input side of the equation is true, the output cycles at 20 beats per minute (bpm) until a system reset is performed. Hold Fast March Time When the input side of the equation is true, the output cycles at 120 beats per minute (bpm) until a system reset is performed. Temporal When the input side of the equation is true, the output pattern consists of three ½ second pulses, each separated by ½ second of silence. Each group of three cycles is separated by 1.5 seconds of silence. The output cycles until a system reset is performed. Track ON OFF PRI When the input side of the equation is true, the output turns ON. When the input is false, the output turns OFF. When the input side of the equation is true, the output turns OFF. When the input is false, the output turns ON. When the input side of the equation is true, the priority is changed to a value that you specify. When the input is false, the priority returns to its original value. Set On OFF PRI When the input side of the equation is True, Set turns the point referenced on the output side of the equation ON. The point stays ON until a Set OFF command occurs. When the input side of the equation is True, Set turns the point referenced on the output side of the equation OFF. The point stays OFF until a Set ON command occurs. When the input side of the equation is True, Set turns the point referenced on the output side of the equation ON. The point stays ON until a Set OFF command occurs. Enable/Disable On OFF When the input side of the equation is true, the enable/disable state of the point is set to ON, which disables the point. When the input side of the equation is true, the enable/disable state of the point is set to OFF, which enables the point

149 Step 4. Edit Each Output Statement s Properties, Continued Procedure (continued) Table Output Opcodes and Qualifiers (continued) Opcode Qualifier Application Set Analog Value Constant When the input side of the equation is true, the value of an analog pseudo point is set to a constant value. Variable When the input side of the equation is true, the value of an analog pseudo point is set to a variable value. Pulse Constant Variable When the input side of the equation is true, the referenced point pulses for the specified amount of time (constant value). When the input side of the equation is true, the referenced point pulses for the specified amount of time (variable). Custom Control LED ON OFF Slow Fast When the input side of the equation is true, the referenced LED is turned ON. Note you must use LED OFF to turn the LED OFF. When the input side of the equation is true, the referenced LED is turned OFF. When the input side of the equation is true, the referenced LED flashes Slow. When the input side of the equation is true, the referenced LED flashes Fast. Print All Ports / Displays Prints a message to the referenced ports/displays. Channel Code ON OFF Fast March Time Temporal March Time When the input side of the equation is true, all devices on the IDNet channel are turned ON. Note that this includes all relays, door holders, etc. When the input side of the equation is true, all devices on the IDNet channel are turned OFF. Note that this includes all relays, door holders, etc. When the input side of the equation is true, all devices on the IDNet channel turn on and off in fast march time. When the input side of the equation is true, all devices on the IDNet channel turn on and off in a temporal pattern. When the input side of the equation is true, all devices on the IDNet channel turn on and off in standard march time

150 Step 4. Edit Each Output Statement s Properties, Continued Procedure (continued) Table Output Opcodes and Qualifiers (continued) Opcode Qualifier Application Smoke Level 0.5 When the input side of the equation is true, the threshold level for the photo smoke detector is set to 0.5. Smoke Level 1.0 When the input side of the equation is true, the threshold level for the photo smoke detector is set to 1.0. Set Photo Threshold Smoke Level 1.5 When the input side of the equation is true, the threshold level for the photo smoke detector is set to 1.5. Smoke Level 2.0 Smoke Level 2.5 When the input side of the equation is true, the threshold level for the photo smoke detector is set to 2.0. When the input side of the equation is true, the threshold level for the photo smoke detector is set to 2.5. Set Heat Threshold 117 Fahrenheit When the input side of the equation is true, the threshold level for the heat detector is set to 117 degrees F. 135 Fahrenheit When the input side of the equation is true, the threshold level for the heat detector is set to 135 degrees F. 155 Fahrenheit When the input side of the equation is true, the threshold level for the heat detector is set to 155 degrees F. Set ROR 3 C / minute When the input side of the equation is true, the threshold level for the ROR heat detector is set to 3 C / minute. 15 F / minute When the input side of the equation is true, the threshold level for the ROR heat detector is set to 15 C / minute. 20 F / minute When the input side of the equation is true, the threshold level for the ROR heat detector is set to 20 C / minute. Set ION Threshold Smoke Level 0.5 Smoke Level 0.9 Smoke Level 1.3 Smoke Level 1.7 When the input side of the equation is true, the threshold level for the ION smoke detector is set to 0.5. When the input side of the equation is true, the threshold level for the ION smoke detector is set to 0.9. When the input side of the equation is true, the threshold level for the ION smoke detector is set to 1.3. When the input side of the equation is true, the threshold level for the ION smoke detector is set to

151 Step 4. Edit Each Output Statement s Properties, Continued Procedure (continued) (continued) Table Output Opcodes and Qualifiers (continued) Opcode Qualifier Application Set XPHOTO Threshold Smoke Level 0.2 Smoke Level 0.5 Smoke Level 1.0 Smoke Level 1.5 Smoke Level 2.0 When the input side of the equation is true, the threshold level for the extra-sensitive photo smoke detector is set to 0.2. When the input side of the equation is true, the threshold level for the extra-sensitive photo smoke detector is set to 0.5. When the input side of the equation is true, the threshold level for the extra-sensitive photo smoke detector is set to 1.0. When the input side of the equation is true, the threshold level for the extra-sensitive photo smoke detector is set to 1.5. When the input side of the equation is true, the threshold level for the extra-sensitive photo smoke detector is set to 2.0. Custom Control HORN OFF Used with TrueAlert Non-Addressable Horns. When the input side of the equation is true, Horn OFF turns TrueAlert Non-Addressable horns off. Associating Points with Output Statements After defining the Opcode and Qualifier for an output statement, you need to associate a point with the statement. To do this, follow these steps. 1. In the list on the right side of the screen, click on the name of the point. 2. Hold down the left mouse button and drag the highlighted point from the list to the appropriate output Statement. 3. Release the mouse button

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153 Chapter 11 Building and Downloading a Job Introduction This chapter describes building a 4010 job and downloading it to the 4010 panel. In this Chapter The remainder of this chapter discusses the following topics: Topic See Page # Building a Job 11-2 Downloading a CFG File to the Panel 11-3 Building/Downloading Jobs 11-1

154 Building a Job Introduction This section describes using the PC Programmer s Job Builder utility to create a Configuration Data file (CFIG), and download it to the 4010 FACP. Using Job Builder The Job Builder utility does the following: Automatically saves the job being built. Verifies that the hardware and the configured points are accurate. Produce the CFG file. To build a job, follow these steps: 1. Click on the Build menu and choose the Build option. The Job Builder dialog appears, displaying the progress of the job build in the window. 2. Click on OK when the job is finished building. Figure Job Builder Dialog 11-2

155 Downloading a CFG File to the Panel Introduction This section describes downloading a CFG file (built job file) from a service PC to the 4010 FACP. A download occurs over a serial link running between the panel and the PC. Follow the steps outlined in the following sections to link the PC to the panel and download the job. Step 1. Set Panel and PC Serial Communication Parameters 1. Set switches SW1 and SW2 to the positions shown in Figure These positions enable a baud rate of 19,200 on the 4010 FACP. Black indicates switch position 19,200 Figure Switch Position for 19,200 Baud 2. Start the 4010 Programmer application. Click on the Transfer menu and select Settings. A dialog similar to the one shown in Figure 11-3 appears. Building/Downloading Jobs Figure Setting PC Transfer Rate to 19, Set the parameters in this dialog as follows: Port. Set this radio button to the setting that corresponds to the serial port on the PC to which the serial cable will be connected. In most cases, this will be COM1. Baud Rate. Set to 19,200. Parity. Set to None. Stop Bits. Set to 1. Data Bits. Set to

156 Downloading a CFG File to the Panel, Continued Step 2. Connect Serial Cable between PC and Panel Connect a serial cable between a free serial port on the service PC and the service port of the 4010 FACP. 1. Locate the PC within 6 feet of the 4010 FACP and connect the end shown in Figure 11-4 to the PC. 2. Connect the other end to the service port on the 4010 FACP. Make sure that the red stripe is aligned to the left as you connect the cable. Align Red Stripe to the Left 9-Pin Connector goes to PC Figure Connecting Serial Cable Step 3. Enable Download on Panel 1. Login to the 4010 at Access Level Press <MENU>. 3. Press <NEXT> until [UPLOAD/DOWNLOAD] is displayed. <ENTER> to Accept <NEXT/PREV to Scroll Menu: [Upload/Download] 4. Press <ENTER>. A screen similar to the following appears. <ENTER> to Accept Prog. Interface: <NEXT/PREV> to Scroll [Initialize Up/Dwnload] 5. Press the <NEXT> or <PREV> keys until [Initialize Up/Dwnload] is displayed and press <ENTER>. 11-4

157 Downloading a CFG File to the Panel, Continued Step 3. Enable Download on Panel (continued) The 4010 displays the following message to indicate that the panel is ready to accept a download. *** File Transfer Initialized *** *** Check Programming Unit ** Step 4. Start Download at PC 1. Click on the Transfer menu. When the selections appear, choose Transfer. A window similar to the one shown in Figure 11-5 appears. Figure Upload/Download Dialog 2. Select the following radio button options in the window s panels. Download Direct Panel CFIG 3. Click OK. Building/Downloading Jobs The dialog shown in Figure 11-6 appears, prompting you to begin the download. Figure Download Dialog 4. Click on the Start button to begin the download. A progress thermometer appears, tracking the progress of the download. 11-5

158 Downloading a CFG File to the Panel, Continued Step 4. Start Download at PC (continued) Figure Transfer in Progress 7. When the following prompt appears, choose Yes to restart the panel. Note: You must restart the panel from the PC, not the panel. Pressing the panel s warm start button causes all downloaded information to be lost. Figure Restart Panel Prompt 11-6