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Simplex 4100ES-S1 Programming Manual

Simplex 4100ES-S1 Programming Manual

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4100ES-S1 Fire Indicator Panel
Programming Guide
Australian
Programming
Guide
LT0400
Issue 1.5

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Summary of Contents for Simplex 4100ES-S1

  • Page 1 4100ES-S1 Fire Indicator Panel Programming Guide Australian Programming Guide LT0400 Issue 1.5...
  • Page 3 Revised AS1668 Section 13 April 2012 Updated to match 12.06.01 Exec release and new templates Update for 4100ES-S1 release – IP File Transfer, 15 August 2012 IDNet+, relay card sections added. Copyright © 2012 Tyco Australia Pty Limited. All rights reserved.

  • Page 4: Table Of Contents

    2.1 GENERAL DESCRIPTION 2.2 PROGRAMMING 3 ABOUT THE PROGRAMMING TOOLS 3.1 GENERAL 3.2 ES PROGRAMMER 3.3 4100ES-S1 CONFIGURATION TEMPLATES 3.4 ES PROGRAMMER INSTALLATION AND LAUNCH 3.5 STEPS TO CONFIGURING A NEW SYSTEM 3.6 UPGRADING AN EXISTING CONFIGURATION 4 CREATING A CONFIGURATION 4.1 CREATING A NEW PROJECT FILE...
  • Page 5 Document: LT0400 4100ES-S1 Programming Guide Introduction 6.3.7 4090-9118 RELAY IAM WITH T-SENSE INPUT 6.3.8 4090-9119 RELAY IAM WITH UNSUPERVISED INPUT 6.3.9 4090-9120AU 6 POINT I/O MODULE (4 INPUTS, 2 RELAY OUTPUTS) 6.3.10 4090-9116 ADDRESSABLE IDNET ISOLATOR 6.3.11 4090-9117AU ADDRESSABLE IDNET POWER ISOLATOR 6.4 IDNET DEVICES TYPICAL APPLICATIONS...
  • Page 6 11-11 11.6.4 DOWNLOADING THE CFIG FILE 11-12 11.6.5 UPLOADING FROM THE PANEL (SERIAL) 11-13 11-13 11.7 SENDING 4100ES-S1 FILES TO TFPP/SIMPLEX. 12-1 12 APPENDICES 12.1 APPENDIX A – AS4428.1 OPERATION 12-2 12-3 12.2 APPENDIX B - COMMON VARIABLES AND CUSTOM CONTROL 12.2.1 DIGITAL PSEUDO POINTS...

  • Page 7: Introduction

    Document: LT0400 4100ES-S1 Programming Guide Introduction 1 Introduction...

  • Page 8: About This Manual

    Chapter 3 describes the 4100ES-S1 programming tools used for creating and updating the configuration for a 4100ES-S1. Chapter 4 details the procedure for creating a configuration file for a new 4100ES-S1 installation, using the configuration templates. Chapter 5 describes how to add addressable devices to the configuration for the in- built IDNet loop.

  • Page 9: Before You Start

    Will some fans be required to start (or stop) on specific zones in alarm – e.g., sandwich pressurization/smoke management? Note: Dampers are programmed the same as exhaust fans. The actual programming of a 4100ES-S1 system consists of four stages: 1. Adding/editing cards and addressable devices. 2. Adding the detection devices into pre-defined lists.
  • Page 10 4100ES-S1 Programming Guide Document: LT0400 Introduction THIS PAGE IS INTENTIONALLY BLANK...

  • Page 11: System Overview

    Document: LT0400 4100ES-S1 Programming Guide System Overview 2 System Overview...

  • Page 12: General Description

    It is aimed at smaller applications requiring one to four loops of SIMPLEX addressable devices with status and control for up to 64 zones. The 4100ES-S1 is available from stock, along with a range of expansion cards and modules, making the 4100ES-S1 an off-the-shelf solution.

  • Page 13: Programming

    4 x 5 modules are also fitted. Each module fitted into the 4100ES-S1 is a “Slave” card that is controlled by the CPU card in the loop bay. Each slave is allocated a unique address so the Panel Master CPU can address it.
  • Page 14 4100ES-S1 Programming Guide Document: LT0400 System Overview THIS PAGE IS INTENTIONALLY BLANK...

  • Page 15: About The Programming Tools

    Document: LT0400 4100ES-S1 Programming Guide About the Programming Tools 3 About the Programming Tools...

  • Page 16: General

    The appropriate programmer can be ordered using the part number listed. 4100ES-S1 Configuration Templates The 4100ES-S1 panel is shipped with a basic 16 zone configuration to meet the Australian standard. The configuration templates (part number SF0459) can be used by installation technicians as the basis for each new 4100ES-S1 site-specific configuration.

  • Page 17: Steps To Configuring A New System

    Click on the Yes button. This will upgrade the database to the format for the new programmer version. With the introduction of 4100U version 12 firmware, and for all 4100ES-S1 versions, the Australian message library (part number SF0457) is loaded as a Primary message library.
  • Page 18 4100ES-S1 Programming Guide Document: LT0400 About the Programming Tools THIS PAGE INTENTIONALLY LEFT BLANK...

  • Page 19: Creating A Configuration

    Document: LT0400 4100ES-S1 Programming Guide Creating a Configuration 4 Creating a Configuration...

  • Page 20: Creating A New Project File

    Creating a Configuration Creating a New Project File This method describes how to create a new 4100ES-S1 configuration using the template configuration file as the starting point. SF0459 contains the zipped template files. These files should be unzipped to an appropriate folder on your PC such as C:\4100ES-S1JOBS. Run the ES programmer of the correct version and click on the ‘File’...

  • Page 21: Adjusting The Number Of Zone Displays

    4100ES-S1 panel with 16 zones to 32 or 64 zones, etc. Note this may require an additional 64 LED/switch controller (4100-1289) and LED/switch modules (4100-1282) to be installed in the panel.
  • Page 22 4100ES-S1 Programming Guide Document: LT0400 Creating a Configuration THIS PAGE LEFT INTENTIONALLY BLANK...

  • Page 23: Adding Addressable Devices

    Document: LT0400 4100ES-S1 Programming Guide Adding Addressable Devices 5 Adding Addressable Devices...

  • Page 24: Adding Devices To An Sps Addressable Loop

    Adding Addressable Devices Adding devices to an SPS Addressable Loop The 4100ES-S1 panel is supplied with one addressable loop. This loop is located on the SPS Power Supply. To add addressable devices to this loop using the programmer follow these steps.
  • Page 25 Document: LT0400 4100ES-S1 Programming Guide Adding Addressable Devices Select the desired address of the device by clicking on the line. Select the Device type Refer to Section 6.2 for Device type options Select the Point type Refer to Sections 6.2 for Point type options...

  • Page 26: Assigning Devices To Zones

    Assigning Devices to Zones Once addressable devices have been entered into the configuration (refer Section 5.1) they can then be assigned to Zones on the 4100ES-S1. This is done by adding the device to preset Lists as follows: Select the LIST tab...
  • Page 27 Document: LT0400 4100ES-S1 Programming Guide Adding Addressable Devices Scroll down until L261 is reached. L261 = Zone 1 L260+n = Zone n Once the correct List is highlighted press F9 to display the points assigned to this list. The Alarm List Zone should always have at least one point tagged;...
  • Page 28 4100ES-S1 Programming Guide Document: LT0400 Adding Addressable Devices Select the MAPNET/IDNet option Note: Using the Advanced tab in the Filter window enables you to search the devices by type or custom label. For example, enter “ZN1”, as shown here, to...
  • Page 29 Document: LT0400 4100ES-S1 Programming Guide Adding Addressable Devices Select the required devices by highlighting the device and pressing the SPACE bar. Two red chevrons “>>” indicate the device has been tagged. Press OK when all devices are tagged for this zone.
  • Page 30 4100ES-S1 Programming Guide Document: LT0400 Adding Addressable Devices THIS PAGE LEFT INTENTIONALLY BLANK...

  • Page 31: Addressable Device Settings

    Document: LT0400 4100ES-S1 Programming Guide Addressable Device Settings 6 Addressable Device Settings...

  • Page 32: Introduction

    6.1.1 Alarm Device Types The 4100ES-S1 supports a range of addressable device types on its IDNet addressable loops. The following sections detail for each of the compatible addressable devices (detectors and modules) what device type and what point type should be selected in the ES Programmer.

  • Page 33: 4098-9754E Multi-Sensor Photo Heat Detector (Combo)

    Document: LT0400 4100ES-S1 Programming Guide Addressable Device Settings 6.2.4 4098-9754E Multi-Sensor Photo Heat Detector (COMBO) Mx-x-0 Parent Point Device Type – Standard Multi-Sensor detector on standard base COMBO – Standard Multi-Sensor detector on Isolator base ICOMBO – Standard Multi-Sensor detector on Sounder base...

  • Page 34: 4090-9002 Relay Iam

    4100ES-S1 Programming Guide Document: LT0400 Addressable Device Settings 6.3.3 4090-9002 Relay IAM Device Type – Standard Setting RIAM Point Type – General Purpose relay. RELAY – Fault Relay on until fault cleared TRELAY 6.3.4 4090-9007 Signal ZAM Device Type – Signal IAM - IDNet...

  • Page 35: 4090-9119 Relay Iam With Unsupervised Input

    Document: LT0400 4100ES-S1 Programming Guide Addressable Device Settings Mx-x-2 2 Sub Point (T-Sense input) Device Type MTSENSE – Fixed Device type Point Type – General Fire Point FIRE – Input used by Custom Control Logic only UTILITY TROUBLE – Input used to indicate a Fault status –...

  • Page 36: 4090-9120Au 6 Point I/O Module (4 Inputs, 2 Relay Outputs)

    4100ES-S1 Programming Guide Document: LT0400 Addressable Device Settings 6.3.9 4090-9120AU 6 Point I/O Module (4 Inputs, 2 Relay outputs) This device has multiple sub points. The sub points can have the point type changed depending on the operation. Mx-x-0 Parent Point Device Type –...

  • Page 37: Idnet Devices Typical Applications

    Document: LT0400 4100ES-S1 Programming Guide Addressable Device Settings IDNET Devices Typical Applications The following examples show the programming needed for various IDNet modules being used in some common applications. IAM – Valve Tamper Monitor 1) At the required address add an IAM, Point type SUPERV, Custom Label - Valve Tamper Monitor.
  • Page 38 4100ES-S1 Programming Guide Document: LT0400 Addressable Device Settings [END INPUTS] [OUTPUTS] TRACK PRI=9,9 M1-7-1 | MRELAY | RELAY | TEST SOLENOID [END OUTPUTS] 9) Create another Custom Control equation, this time for the Print statement on the panel display as follows:...

  • Page 39: Adding Zone Displays

    Document: LT0400 4100ES-S1 Programming Guide Adding Zone Displays 7 Adding Zone Displays...

  • Page 40: General

    Other LED and switch modules are available for different applications (e.g., 4100-ME0456 4-way AS1668 Control Module). The standard configuration of a 4100ES-S1 as it leaves the factory is to have 16 zones, which means 1 x LED/switch controller (4100-1288) and 2 x LED/switch modules (4100- 1282) are fitted.
  • Page 41 Document: LT0400 4100ES-S1 Programming Guide Adding Zone Displays Click on the “+” sign beside the DISPLAY CARDS option on the Available Hardware window. Drag and drop the 4100- 1282 – 8 Pushbuttons/16 Red-Yellow LEDs Icon over the Bay 2 icon.
  • Page 42 4100ES-S1 Programming Guide Document: LT0400 Adding Zone Displays To add the 4100-1288/1289 – F4 64 LED / 64 SW Controller Click on the “+” sign beside ANUNNCIATOR CARDS option on the Available Hardware window. Drag the 4100-1288/1289 – F4 64 LED / 64 SW Controller Icon over to the Bay 2 icon and release.
  • Page 43 Document: LT0400 4100ES-S1 Programming Guide Adding Zone Displays Then go to the Point Editing tab and edit the points: On the Switch side, for each point, configure Mode: as PBT and on the LED side configure Mode: for odd addresses as SMPL and for even addresses as ON.

  • Page 44: Modify The Custom Control Equations For The Zones

    4100ES-S1 Programming Guide Document: LT0400 Adding Zone Displays Modify the Custom Control Equations for the Zones The simplest method to add more Custom Control equations for the new displays is to open a 32 or 64 zones template and export the Custom Control equations for the zones, then from within the original site configuration import these equations.
  • Page 45 Document: LT0400 4100ES-S1 Programming Guide Adding Zone Displays Delete any unnecessary equations for zones that are not present, as described in Section 4.3. Rename Program 4 to reflect the modification. This is done by right click and selecting ‘Properties…’ and editing the ‘Label:’ text box to have the correct zone range.
  • Page 46 4100ES-S1 Programming Guide Document: LT0400 Adding Zone Displays THIS PAGE LEFT INTENTIONALLY BLANK...

  • Page 47: Adding Expansion Modules

    Document: LT0400 4100ES-S1 Programming Guide Adding Expansion Modules 8 Adding Expansion Modules...

  • Page 48: General

    4100ES-S1 Programming Guide Document: LT0400 Adding Expansion Modules General See Installation Manual LT0394 Chapter 2 for physical requirements of fitting cards in bays. This section describes the procedure to configure the panel with additional modules which may be added to the panel. It describes the concept and method of adding modules by...
  • Page 49 Document: LT0400 4100ES-S1 Programming Guide Adding Expansion Modules Before any devices can be added to the panel’s configuration the new 4100-3101 card must be added as follows: Select the HARDWARE Tab Click on the “+” sign beside Unit 0. Click on the “+” sign beside Box 1.
  • Page 50 4100ES-S1 Programming Guide Document: LT0400 Adding Expansion Modules Double click on the newly added device to open it. Select the Point Editing Tab. Select the desired address for the device. Select the Device type Refer to Section 6.2 for Device type...
  • Page 51 Document: LT0400 4100ES-S1 Programming Guide Adding Expansion Modules Select the Point type Refer to Section 6.2 for Point type options. Enter a Custom Label into the Custom Label text box. The Custom Label is limited to 40 that the characters. It is recommended...

  • Page 52: Adding 4100-4321 6 Supervised Signal Card

    4100ES-S1 Programming Guide Document: LT0400 Adding Expansion Modules Adding 4100-4321 6 Supervised Signal Card The 4100-4321K 6 Supervised Relay module provides 6 supervised output control (signal) circuits. The 6 circuits have two power inputs: one power input for every three signal circuits.
  • Page 53 Document: LT0400 4100ES-S1 Programming Guide Adding Expansion Modules Click the Point Editing tab and record the points’ names. These names are used to control the outputs within user defined Custom Control equations as in the following example for SIG9. [INPUTS]...

  • Page 54: Adding 4100-5004 8 Point Monitor Card

    4100ES-S1 Programming Guide Document: LT0400 Adding Expansion Modules Adding 4100-5004 8 Point Monitor Card The 4100-5004 8 Point Monitor Card provides eight conventional detector or contact closure inputs. There are no restrictions on point types. To add the 4100-5004 8 Point Monitor Card to the panel: Select the HARDWARE Tab Expand the Unit 0, ‘Box 1’...

  • Page 55: Adding 4100-3003 8 Aux Relay Card

    Document: LT0400 4100ES-S1 Programming Guide Adding Expansion Modules Adding 4100-3003 8 Aux Relay Card The 4100-3003 8 Aux Relay Card provides eight Single Pole Changeover relays and 8 contact closure inputs (Feedback points). To add the 4100-3003 8 Aux Relay Card to the panel: Select the HARDWARE Tab.

  • Page 56: Adding 4100-3204 Or 4100-3206 Pdi Relay Cards

    4100ES-S1 Programming Guide Document: LT0400 Adding Expansion Modules Adding 4100-3204 or 4100-3206 PDI Relay Cards These cards cannot be added to the CPU bay, since this does not have a PDI backplane. They must be added to the expansion bay.

  • Page 57: Adding 4100-0302/1290 24 Point Graphic Interface

    Document: LT0400 4100ES-S1 Programming Guide Adding Expansion Modules Adding 4100-0302/1290 24 Point Graphic Interface The 4100-0302 24 Point Graphic Interface provides 24 points that can be configured as inputs or outputs, with no restrictions on the point’s allocation as input or output.

  • Page 58: Adding 4100-0113 Rs-232/2120 Interface Module

    4100ES-S1 Programming Guide Document: LT0400 Adding Expansion Modules Adding 4100-0113 RS-232/2120 Interface Module The 4100-0113 RS-232/2120 Interface Module provides two RS-232-C outputs (Port A and Port B) that can be configured for remote printers, CRT, or as a Computer Port for communications to a remote system (e.g., BMS Systems).

  • Page 59: Typical Printer Configuration

    Document: LT0400 4100ES-S1 Programming Guide Adding Expansion Modules Click the Port Data… button and select the desired Device Type as in the following example for an 80 column CRT output. Click OK and again for the previous screen. Repeat for Port B (if used) and select the appropriate device type and baud rate, etc.
  • Page 60 4100ES-S1 Programming Guide Document: LT0400 Adding Expansion Modules THIS PAGE IS INTENTIONALLY BLANK 8-14...

  • Page 61: Custom Control

    Document: LT0400 4100ES-S1 Programming Guide Custom Control 9 Custom Control...

  • Page 62: General

    Document: LT0400 Custom Control General 4100ES-S1 Custom Control equations provide a way to override the 4100ES-S1’s default operation. Each Custom Control equation has a similar form: one half of the equation, called the input side, is used to monitor the state of specific system inputs (initiating devices, for example).
  • Page 63 Document: LT0400 4100ES-S1 Programming Guide Custom Control OR Operator. The OR operator allows you to put a group of points in parallel, meaning the activation of any one or more of the points causes the output side of the equation to execute.

  • Page 64: Creating A New Equation

    4100ES-S1 Programming Guide Document: LT0400 Custom Control Creating a New Equation 9.3.1 Select User Program The first step in defining a new Custom Control equation is to add the equation to one of the five User Programs -- Program 3 through Program 7. It is recommended that Program 6 is used for general functions and Program 7 is used for AS1668 Fan Controls.

  • Page 65: Add Input Statements

    Document: LT0400 4100ES-S1 Programming Guide Custom Control 9.3.2 Add Input Statements The second step in creating a new Custom Control equation is to add input statements to the equation. Repeat the steps in this section until all input statements in the equation have been defined.

  • Page 66: Add Output Statements

    4100ES-S1 Programming Guide Document: LT0400 Custom Control 9.3.3 Add Output Statements The third step in creating a new Custom Control equation is to add output statements to the new equation. Repeat the steps in this section until all output statements in the equation have been defined.

  • Page 67: Output Statements: Hold Vs Track

    Document: LT0400 4100ES-S1 Programming Guide Custom Control 9.3.4 Output Statements: HOLD vs TRACK The two commonly used output opcodes are HOLD and TRACK. The main difference is that a HOLD command is evaluated only when the inputs side of the equation goes True (on the transition from false to true).
  • Page 68 4100ES-S1 Programming Guide Document: LT0400 Custom Control THIS PAGE IS INTENTIONALLY BLANK...

  • Page 69: As1668 Fan Controls

    Document: LT0400 4100ES-S1 Programming Guide AS1668 Fan Controls 10 AS1668 Fan Controls 10-1...

  • Page 70: Typical Arrangement For As1668 Fan Control

    4100ES-S1 Programming Guide Document: LT0400 AS1668 Fan Controls 10.1 Typical Arrangement for AS1668 Fan Control The following scheme illustrates a typical topology using the AS1668 Fan Control Module. Note: AS1668.1 recommends that the duct detector be downstream from the fan, before the first branch in the ducts –...

  • Page 71: As1668 Fan Control Flows

    1. The 4100ES-S1 panel goes into Alarm and Custom Control determines that the fan should start. 2. The 4100ES-S1 panel sends to the Multi-Point I/O a control to close the relay that controls the fan to start. 3. The Multi-Point I/O closes the relay to start the fan.
  • Page 72 3. The panel controls the AS1668 module to turn the amber “FLT” LED to ON. AS1668 Fan Start Failure: 1. The 4100ES-S1 panel sends to the Multi-Point I/O a control to close the relay that controls the fan to start (e.g., as result of Manual start or auto start).

  • Page 73: As1668 Fan Control State Table

    Document: LT0400 4100ES-S1 Programming Guide AS1668 Fan Controls 10.3 AS1668 Fan Control State Table The following table shows how the airflow input is reflected on the AS1668 red and green LEDs: Airflow AS1668 Input Green and Red LEDs Red ON...

  • Page 74: As1668 Fan Control Card Programming

    10.4 AS1668 Fan Control Card Programming The 4100ES-S1 can be installed with an ME0456 AS1668 fan control module which is programmed as a 4100-1282 8 Button and 16 LED module. Follow the 4100-1282 programming as described in Section 7.3, except for the Point Editing tab which differs from the standard zone programming and is described here.

  • Page 75: Led Configuration

    Document: LT0400 4100ES-S1 Programming Guide AS1668 Fan Controls 10.4.2 LED Configuration The LEDs configuration couples the Red Amber and Green LEDs of each fan to a pseudo point. Each fan uses 4 LEDs: LED 1 set = Red LED is ON = Fan is running.

  • Page 76: Point Editing

    4100ES-S1 Programming Guide Document: LT0400 AS1668 Fan Controls 10.4.3 Point Editing Click the Point tab and scroll to point P1265 which is coupled to the Fault LED of the 1 fan. Configure the points as described hereafter for the 1...

  • Page 77: As1668 Custom Control Equations

    Document: LT0400 4100ES-S1 Programming Guide AS1668 Fan Controls 10.5 AS1668 Custom Control Equations The control of the fans and the AS1668 LEDs as described in Section 10.2 is done using Custom Control equations in Custom Control program 7: AS1668 FAN CONTROL CUSTOM CONTROL.

  • Page 78: Set Up Register 8

    4100ES-S1 Programming Guide Document: LT0400 AS1668 Fan Controls 10.5.2 Set up Register 8 The state of P516 is stored in register 8 and is used in the S/A Detector Isolate and De- Isolate equations. [INPUTS] NOT STATUS ON P516 | DIGITAL | UTILITY | ALARM OR FAULT TEST ACTIVE...

  • Page 79: S/A Detector Active

    Document: LT0400 4100ES-S1 Programming Guide AS1668 Fan Controls 10.5.5 S/A DETECTOR ACTIVE The S/A detector is added to the zone list. This equation uses negative logic - all operations are triggered when the S/A Detector is not active - it has cleared of smoke. This is followed by the restart delay OR if the detector is isolated.

  • Page 80: Fan Fault Conditions

    4100ES-S1 Programming Guide Document: LT0400 AS1668 Fan Controls 10.5.8 FAN Fault Conditions This equation sets the amber LED (fault) to ON when the fan control relay is set to operate the fan but the airflow indicator does not report that air is flowing, when the fan control relay is set to stop the fan but the airflow indicator reports that air is flowing or a fault signal is received from the Mechanical Services Board.

  • Page 81: Building And Downloading The Configuration

    Document: LT0400 4100ES-S1 Programming Guide Building and Downloading the Configuration 11 Building and Downloading the Configuration 11-1...

  • Page 82: Building The Job

    These errors must be resolved before the build can be performed and the CFIG can be created. Contact TFPP/Simplex Service Support for help in resolving build errors. Start the ES Programmer and open the job that you want to build.

  • Page 83: Ip File Transfer Utility / Connection To The Pc

    11.2.2 Connection to the PC Connect your PC to the 4100ES-S1 through the front panel service connection with a standard straight Ethernet cable. If this connection is not available, you can plug directly into the CPU Card Ethernet connector J1.

  • Page 84: Ip Communication Parameter Settings

    Click on the Settings button near the top of the IP File Transfer Window to access the Settings Window. The Settings window shows the IP address being used for the 4100ES-S1 panel and allows you to change it, but this is hardly ever necessary.
  • Page 85 4100ES-S1 panel. However, it does not update the message libraries, which must be done separately. Note: A 4100ES-S1 will have the Panel Exec and message library installed at the factory. To make a new system operational, you will only need to load a CFIG.

  • Page 86: Additional Download Tab Functions

    4100ES-S1 Programming Guide Document: LT0400 Building and Downloading the Configuration Step 3. Use the File name box to select the file you want to download to the panel. Step 4. Click on the Download button to start the process. 11.5.2 Additional Download Tab Functions View Final Status of Last Panel Update: Click on this button to show the final status of the last panel update.
  • Page 87 (this usually defaults to C:\4100UJOBS\JobName\Jobname.SDB4100U). Panel Logs: o Upload either the Alarm Log or the Trouble (Fault) Log from the 4100ES-S1 to the PC. Reports o TrueAlert Report: provides information such as Point ID, Device Type and Candela rating for all TrueAlert devices.

  • Page 88: Mass Storage Tab

    11.5.4 Mass Storage Tab With this you can copy files between the panel’s Compact Flash module and the PC’s disc. These files are quite separate from the files used by the 4100ES-S1 for normal operation. To use the Mass Storage: 1.

  • Page 89: History/Undo Tab

    Building and Downloading the Configuration 11.5.5 History/Undo Tab When new files are downloaded to the 4100ES-S1, a copy or snapshot of the panel state is kept in the Compact Flash module – within a limit of 1 GB available memory. You can view a list of these historical states via the History Undo tab.

  • Page 90: Serial File Transfer (4100U And Older Systems)

    11.6 Serial File Transfer (4100U and older systems) IMPORTANT: Serial File Transfer can be used with 4100ES-S1 systems. However, this will not update the Compact Flash or access files stored there, and will not produce History snapshots in the Compact Flash. Serial Transfer should only be used for direct transfer of InfoAlarm files, if this becomes necessary.

  • Page 91: Serial Communication Parameter Settings

    2. Connect the other end of the cable to the service port on the front panel of the 4100ES-S1, to the left of the operator interface. For 2x40 displays, make sure the red stripe is aligned to the left as you connect the cable.

  • Page 92: Downloading The Cfig File

    4100ES-S1 Programming Guide Document: LT0400 Building and Downloading the Configuration 11.6.4 Downloading the CFIG File 1. Set the Download radio button. 2. Set the Type of Connection to CPU Service (local xfer) and connect the PC’s serial port to the panel’s service port.

  • Page 93: Uploading From The Panel (Serial)

    C:\4100UJOBS\. With 4100ES-S1 panels, the IP File Transfer utility can be used to retrieve a copy of the job file from the Compact Flash on the CPU card, which does not require any conversion to be useable by the ES Programmer.
  • Page 94 4100ES-S1 Programming Guide Document: LT0400 Building and Downloading the Configuration THIS PAGE IS INTENTIONALLY BLANK 11-14...

  • Page 95: Appendices

    Document: LT0400 4100ES-S1 Programming Guide Appendices 12 Appendices 12-1...

  • Page 96: Appendix A - As4428.1 Operation

    Appendix A – AS4428.1 Operation 12.1 A 4100ES-S1 that is required to comply with AS 4428.1 needs special functionality to be implemented. This is done by a number of Custom Control equations. Program 3 contains the system functions to provide brigade relay operation, common front panel controls, battery testing and AVF.

  • Page 97: Appendix B - Common Variables And Custom Control

    Document: LT0400 4100ES-S1 Programming Guide Appendices 12.2 Appendix B - Common Variables and Custom Control The following explains Points and Lists that are used in the AS 4428.1 Custom Control Logic. These Points and Lists may also be used in other custom control equations not listed below.

  • Page 98: Analog Points

    4100ES-S1 Programming Guide Document: LT0400 Appendices 12.2.2 Analog Points Analog Points can have a value 0-65535 and can be used for Timers, Counters or store a numerical value. A0 – Number of Devices in Alarm A1 – Number of Isolates A2 –...

  • Page 99: Battery Test

    Document: LT0400 4100ES-S1 Programming Guide Appendices 12.2.5 Battery Test The battery is automatically tested at 8:00:03 every Tuesday morning according to the internal clock. The test runs for 1 hour (plus 5 seconds). The battery test is disabled if any Alarm is present or an Alarm occurs during the battery test.

  • Page 100: Brigade Relay Equations

    P478 | DIGITAL | UTILITY | INHIBIT DEVICE TROUBLES WHILE DISABLED [END OUTPUTS 12.2.7 Brigade Relay Equations The following are the equations used to drive the Alarm, Isolate and Fault Brigade Relays. These equations should not be modified without consulting a TFPP/Simplex Technician. References: Point Address: 0-7-3...
  • Page 101 Document: LT0400 4100ES-S1 Programming Guide Appendices 3-3 ASE Fault Relay [INPUTS] STATUS ON A2 | ANALOG | ANALOG | NUMBER OF SYSTEM TROUBLES [END INPUTS] [OUTPUTS] TRACK ON PRI=7,7 0-7-4 | MCODE7 | RELAY | Master Output - City Trouble Relay...

  • Page 102: Appendix C - Custom Control For Control Keys & Indicators

    Custom Control equations to meet AS 4428.1 requirements. These equations are part of Program 3. They should not be changed, except under the direction of a TFPP/Simplex technician, since the operation of the panel may be adversely affected.

  • Page 103: Common Zone Alarm Led

    Document: LT0400 4100ES-S1 Programming Guide Appendices 12.3.1 Common Zone Alarm LED This Red LED flashes if any Zone is in alarm and is not acknowledged. The LED is on steady if any Zone is in Alarm and all Alarms are acknowledged.

  • Page 104: Alarm / Fault / Normal Test Button And Leds

    4100ES-S1 Programming Guide Document: LT0400 Appendices 12.3.2 Alarm / Fault / Normal Test Button and LEDs This button is used to select between Alarm Test, Fault Test and Normal operation for the Multifunction buttons. The Alarm Test and Fault Test LEDs indicate what operation the Multifunction buttons will initiate if pressed.
  • Page 105 Document: LT0400 4100ES-S1 Programming Guide Appendices 3-14 Alarm and Fault Test Mode OFF [INPUTS] STATUS ON P513 | DIGITAL | UTILITY | ALARM TEST/FAULT TEST/NORMAL BUTTON AND STATUS ON P515 | DIGITAL | UTILITY | FAULT TEST [END INPUTS] [OUTPUTS]...

  • Page 106: Example Alarm And Fault Test Equations

    4100ES-S1 Programming Guide Document: LT0400 Appendices 12.3.3 Example Alarm and Fault Test equations These equations (with point number modifications) must be included for each zone to carry out the zone alarm or fault test when the zone button is pressed and alarm or fault test modes are active.

  • Page 107: Bells Isolate Led And Button

    Document: LT0400 4100ES-S1 Programming Guide Appendices 4-4 ACF Isolate LED and Button The ACF Isolate LED indicates that the General Fire Trip List is Isolated. Pressing the ACF Isolate button toggles the isolation of this list. References set to “TOF” Mode...

  • Page 108: Warning System Isolate

    4100ES-S1 Programming Guide Document: LT0400 Appendices 12.3.6 Warning System Isolate The Warning System Isolate LED indicates that the Warning System Output is Isolated. Pressing the Warning System Isolate button toggles the isolation of the output. SIG5 (NAC 3) on the SPS is activated when an alarm is present and the warning system is not isolated.
  • Page 109 Document: LT0400 4100ES-S1 Programming Guide Appendices Reset zone isolate toggle This equation handles the toggling of the Isolate pushbuttons for each zone. A point in list 260 is set on any Isolate pushbutton being depressed so that only one action is carried out on the push of the button.

  • Page 110: Appendix D - Custom Control For Alarm Zone Facilities

    4100ES-S1 Programming Guide Document: LT0400 Appendices 12.4 Appendix D - Custom Control for Alarm Zone Facilities A 4100-1282 8 Pushbutton/8 red LED/8 amber LED module is fitted for each 8 zones to display the alarm and isolate states of the zones (lists) and allow the zone to be isolated, alarm tested or fault tested.

  • Page 111: Lists

    Document: LT0400 4100ES-S1 Programming Guide Appendices 12.4.2 Lists Zone 1 – Zone 1 Alarm List L261 – Zone 2 Alarm List L262 … – Zone n Alarm List L260+n 12.4.3 Switches and LEDs Zone 1 – Zone 1 Multifunction Switch 3-65 –...

  • Page 112: Zone N Equations

    4100ES-S1 Programming Guide Document: LT0400 Appendices 4-5 ZONE 1 New Alarm and LED Flash [INPUTS] CONTINUE AND STATUS FALMACK L261 | LIST | MIXED | ALARM LIST ZONE 1 [END INPUTS] [OUTPUTS] FLASH SLOW 3-1 | LED | LED | AZF1 LED...
  • Page 113 Document: LT0400 4100ES-S1 Programming Guide Appendices ZONE n Isolate [INPUTS] STATUS FIRE L260+n | LIST | MIXED | ALARM LIST ZONE n AND NOT STATUS ON P600+n | DIGITAL | SUPERV | ISOLATE ZONE n [END INPUTS] [OUTPUTS] TRACK ON PRI=9,9...

  • Page 114: Appendix E - 4100-1282 Azf Switch And Led Address Mapping

    4100-1282) with HW Ref Addresses of the Push-Buttons, the Alarm LEDs and the Isolate LEDs, and their matching Pseudo Points. This uses the standard card addressing in 4100ES-S1 which has the first LED controller at address 3 (up to 32 zones) and the second LED controller at address 4 (33-64 zones).
  • Page 115 Document: LT0400 4100ES-S1 Programming Guide Appendices P941 P641 4-73 4-17 4-18 4-74 P942 4-19 4-20 P642 4-75 P943 4-21 4-22 P643 4-76 P944 4-23 4-24 P644 P945 P645 4-77 4-25 4-26 P946 P646 4-78 4-27 4-28 4-79 P947 4-29 4-30...

  • Page 116: Appendix F - Useful Pseudo Points And Lists

    Appendix F – Useful Pseudo Points and Lists 12.6 The following tables list System Digital Pseudo points, System Analog Pseudo points and System Lists that are useful when working on a 4100ES-S1 panel, especially when chasing intermittent faults. System Digital Pseudo Points...
  • Page 117 Document: LT0400 4100ES-S1 Programming Guide Appendices INSTALL MODE ACTIVE TROUBLE The master will activate this trouble point whenever a point is in Install Mode. P484 This trouble will clear when there are no points in Install Mode. COMPACT FLASH MISSING/ FAILED...
  • Page 118 4100ES-S1 Programming Guide Document: LT0400 Appendices GROUND TROUBLE COUNTER Stores the number of times an Earth Fault has been detected A112 since last reboot. EXCESSIVELY DIRTY (OUT OF RANGE) Stores the number of Excessively Dirty detectors. A115 DIRTY SENSOR COUNTER A116 Stores the number of Dirty detectors.

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