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6.8 1/09 95-8560

Software designed for safety systems and the people who use them

User Guide

95-8560-6.0

Summary of content (327 pages)

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Software designed for safety systems and the people who use them User6.8Guide 1/09 95-8560 95-8560-6.
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CONTENTS T-1 Section 1 - Introduction Warranty Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . What is S3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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T-2 CONTENTS Section 6 - Logs Overview of features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Alarm Logs (DCD Disk Log) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Configuration Logs . . . . . . . . . . . . . . . . . . . . .
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CONTENTS Point Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Reset Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Download . . . . . . . . . . . . . . . . . . . . . . . .
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T-4 CONTENTS MIR Flame Detector (X3301) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Heated Optics . . . . . . . . . . . . . . . . . . . . . . . .
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CONTENTS UVIR Flame Detector (EQ2200UVIR) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Processing Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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T-6 CONTENTS Analog Input Module (AIM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Channel Configuration . . . . . . . . . . . . . . . . . . . . .
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CONTENTS Modbus Monitor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Modbus Moves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Modbus Table Settings . . . . . . . . . . . . . . . . . . . . . . .
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INTRODUCTION 1-1 ALL IMPLIED WARRANTIES ON THIS SOFTWARE PACKAGE, INCLUDING IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE LIMITED IN DURATION TO NINETY (90) DAYS FROM THE DATE OF THE ORIGINAL RETAIL PURCHASE OF THIS PRODUCT.
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1-2 INTRODUCTION What is S3 Safety System Software (S3) is a complete, high performance Human Machine Interface software package that is designed to work seamlessly with a variety of Safety Systems including all three generations of the Detector Electronics “Eagle ” addressable systems. It allows data to be acquired from these systems for event and alarm tracking, display on custom graphics, and to be shared with other systems.
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INTRODUCTION 1-3 Features • User friendly point and click navigation, with no special keyboard commands to learn. • Menu driven configuration ensures easy installation or modification. • Configuration additions or changes can be made at any time with minimal interruption to system operation. • Alarm and calibration data available online. • Automatic diagnostics ensures reliable system operation. • Up to 10 simultaneous active communication ports.
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1-4 INSTALLATION Requirements The minimum S3 workstation hardware requirements are: Computer. The S3 software suite is designed to run on an Intel® based computer with at least a 800 MHz Pentium III processor, running Windows Vista/XP Professional. Computers operating on a 64 bit platform are fully supported; as with many modern programs, the faster the machine, the better the performance. A hard drive with at least 50 MB of available space and a CD-ROM drive is also required for installation. Memory.
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INSTALLATION 1-5 Architecture The S3 software suite is divided into two distinct environments, Configuration and Online Monitoring. The Configuration environment revolves around device/database configuration, graphics generation, project management and documentation. The Online environment involves utilizing these configurations to collect distribute and display the information to operations personnel. These two environments are summarized below.
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1-6 INSTALLATION Online Environment The S3 software suite consists of a number of separate application programs that work together to collect, distribute and display data from a variety of sources. At the center of the suite is an application program called the “Data Collector and Distributor” or “DCD” for short. DCD The DCD is the heart of all online operations.
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INSTALLATION 1-7 Development The “Development” installation does not install the low level security features of the “Operations” version. User level security is still utilized but full access to the operating system is available in a manner consistent with the given operating system. When S3 software is ordered with the OIS computer, the software will come already loaded on the hard disk of the computer.
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1-8 INSTALLATION 3. Choose one of the two types of installations and click the Next button. A “Develolpment” install is required when S3 is being installed for the first time. An “Operations” install would be performed after all logics and settings have been created in the Development mode. In Operations mode, no changes can be made to logics or settings, only monitoring occurs in this mode. 4. The next two windows are related to the S3 desktop shortcut. Choose accordingly, then choose Next to continue.
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INSTALLATION 1-9 5. Verify that all options selected in previous windows are correct, use the Back button to make corrections, choose Next to begin installation. 6. During installation there will be a prompt to remove all Alladin USB keys; do so at this time and choose OK to continue. 7. The installer will now install all the necessary drivers. 8. After the drivers are installed successfully, a confirmation window will appear, choose OK to continue. 9.
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1-10 INSTALLATION Hardware Keys A hardware key which attaches to the workstation determines the options that will be enabled on the station. The hardware keys are available in two versions; one for the standard DB-25 Parallel printer port and the other for a USB port. This “Standard” hardware key is programmable to enable a variety of options.
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S3 CONFIGURATION 2-1 When the S3 application program is started it will display its “MAIN SCREEN”. From this screen there is access to all the engineering, configuration and utility programs that make up the S3 application suite. There are eleven buttons on this screen, each one provides access to a different area of the application suite. Main Screen Before any work can be done the user must “log in” to the system with a valid password utilizing the “Log In/ Out” button.
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2-2 S3 CONFIGURATION Ports Provides access to the “Port Configuration” screen. From that screen up to ten (10) ports can be configured for access to attached systems via serial connection, or Ethernet. Start Monitoring Launches the main online monitoring application (DCD) which starts continuous polling of all enabled ports and begins event monitoring, logging and printing. If so configured, it also displays custom graphics with dynamic data overlay.
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S3 CONFIGURATION 2-3 Backups Provides access to the project backup and restore utility. This automated utility allows a selected project to archived to or restored from floppy. Built in compression routines allow even large projects to be backed up. Log In/Out Provides access to the user “Log In” screen. Up to 64 unique password protected user accounts can be configured, each having different rights and privileges.
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2-4 S3 CONFIGURATION PAGE LEFT BLANK INTENTIONALLY
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PORTS 3-1 Basic Port Configuration Clicking on the “Ports” button from the S3 Navigation screen of the S3 software brings up the Port Configurations dialog box: S3 offers ten ports, each of which can be configured to a specific type of system or device. By default, when the Port Configurations dialog box first appears, Port 1 is selected.
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PORTS 3-2 The available choices are based on the S3 hardware key plugged into the computer, and only supported systems or devices are darkened. “Not Configured” is the default selection, simply select the radio button for the type of port to be created and click OK. This will open the main configuration screen for the selected port type. Clicking Cancel will return to the Port Configurations dialog box without any change.
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PORTS 3-3 Serial Port Settings Once the port type has been selected, the button face will change to match the selection. In addition, six buttons on the right hand side of the window will be enabled. These buttons allow various parameters to be adjusted for any configured port. Configuration of the device(s) attached to a port, data table reads, etc. are accessed by double-clicking on the port button, or selecting the “Configure” button.
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3-4 PORTS The “Timers” button will open a dialog box allowing the “Polling” and “Watchdog” timers for the port to be set. There are also checkboxes to enable each of these timers. The Polling Timer determines how quickly the port will poll the attached slave. The Watchdog Timer determines how long to wait for a response from the slave before logging a watchdog fault. A sound can be tied to this fault from a pulldown menu. The “Delete” button allows the removal of a port from the system configuration.
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START MONITORING 4-1 Online Operation The “Start Monitoring” button launches the DCD, which allows the user to access “Online Mode”. Online mode provides the operator with continuously updated information about the attached systems. ONLINE Version 6.
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4-2 START MONITORING Shows the user detailed information about a selected TAG object. Each type of device, digital inputs, analog inputs, fire detectors, gas detectors etc. have a different type of point display, tailored to the amount and type of data available for that specific device. The sample point display above is for an addressable combustible gas detector. Displays a list of defined button groups so the user can select and display the group.
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START MONITORING 4-3 Acknowledge (F3) Silences audible alarms, causes all TAG objects in a “New Alarm” state on the graphics to go to their “Acknowledged Alarm” state, and can also be configured to activate a user programmed button. Active Alarms (F5) Opens the “Active Alarms” screen that shows any “out of tolerance” conditions. Using the buttons at the bottom of the screen, these conditions can be sorted by communication port or viewed all together.
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4-4 START MONITORING Alarm History (F6) Opens the “Alarm History” screen and displays the current days log. This daily log shows date and time stamped events for a 24 hour period. It has two main areas, the historical display in the center and the navigation buttons running down the right side of the screen. In addition to viewing the current days log, the user can use the “Select Log” button to choose a log from another day. The date of the log being displayed is shown at the top right of the display.
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START MONITORING 4-5 Port Diagnostics (F11) Opens the “Port Diagnostics” screen which displays the status of all ten communication ports. Dynamic counters display information on data reads issued and successful, writes issued and successful, and failures in communication between S3 and the attached systems. Each port type has buttons for accessing applicable features. These include a way to display the ports data tables, a LON Overview for Eagle type ports and a way to clear the counters.
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4-6 START MONITORING Data Tables The data tables show users the current information about addresses and bits being read from attached systems stored in specific serial tables of a port. This feature is typically used by maintenance personnel to determine if the selected port is reading the correct addresses and to do detailed troubleshooting. Some port types allow for the configuration and polling of multiple data tables.
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START MONITORING 4-7 LON Overview This is a specialized diagnostic screen which displays a schematic representation of the addressable Eagle Quantum Premier, Eagle Quantum or EAGLE2000 loop. Each device on the loop is represented by a rectangle containing the device tag and other information. The color of the rectangle represents the current status of the device. There are five possible conditions/status, Normal, Fault, Alarm, New Fault, or New Alarm.
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4-8 START MONITORING PAGE LEFT BLANK INTENTIONALLY
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PRINTING 5-1 Overview of features Using the Windows default local or network printer, S3 can be print comprehensive documentation of port, point, and event configurations for all attached devices. Selecting the “Print Documentation” button from the main screen will open a dialog box which allows the user to configure which portions of the documentation to print. Choices are made using check boxes for both the type of documentation and the ports to be included.
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PRINTING 5-2 Filtering data to be printed Tagnames (All) This selection prints a list of all tagnames used in the system. User Module Strings This selection prints the factory default and user configured “event descriptions” associated with the individual points. User Miscellaneous Strings This selection prints the factory default and user configured substitutes for the descriptions of buttons and text used by the system in the “Online” mode.
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PRINTING 5-3 Selecting ports to document Port 1 - 10 S3 supports up to ten ports. Each port can be physical serial port or an Ethernet connection. Note A single Ethernet card can support multiple ports! In the example to the right, ports one and three are configured and therefore selectable. The ports not configured are grayed out. Each selected port will have its documentation printed.
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5-4 PRINTING PAGE LEFT BLANK INTENTIONALLY PRINTING
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LOGS 6-1 Overview of features S3 maintains three different types of logs; disk, configuration and calibration. All can be viewed and printed from this utility. Selecting the “Logs” button will display the “Select Log Type” window to choose which type of logs are to be accessed. DCD Disk Log’s are a chronological list of alarms and events that have occurred during a 24 hour period while the DCD was online. Each log runs from midnight to midnight and each days log is stored by date.
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LOGS 6-2 Alarm Logs (DCD Disk Log) Below is a sample alarm log. Running down the right hand side is the log name (which is the date), navigation buttons, a button to select a different log for viewing, the page indicator for the currently viewed log, a print button and an exit button. The purpose for the alarm log is to provide a chronological history of events related to the system.
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LOGS 6-3 Configuration Logs Below is a sample configuration log. Running down the right hand side is the log name (which is the date), navigation buttons, a button to select a different log for viewing, the page indicator for the currently viewed log, a print button and an exit button. The purpose for the configuration log is to provide an audit trail for safety related changes to the system.
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6-4 LOGS The Configuration and Alarm logs can be opened or viewed, and previous logs can be printed by using the “Select Log” button. This will display a standard Windows-NT/2000/XP file navigation dialog box showing the content of the configuration or alarm log sub-directory, which ever is applicable. The logs are listed using the month, the day and year, with the date as their name. Select the date of interest and OK to open the log for viewing and / or printing.
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LOGS 6-5 Calibration Logs Below is a sample calibration log. The calibration log reporter is a configurable database query tool designed to allow a user to quickly determine if periodic calibration of field devices is being conducted. The log displays the Tagname, Device Type, Detector type, Days since the last calibration and the Date/Time of the last calibration.
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6-6 LOGS Calibration Log Reporter Filter Options The options button opens the “Filter Options..” dialog box allowing for the S3 database query to be configured. This allows the user to configure a report that provides just the specific information required. The top section, labeled “Ports” provides check boxes for the ten potential ports. “All” is the default, deselecting it will highlight all available ports for which logs exist.
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PREFERENCES 7-1 The preferences button provides access to a variety of project management and global attributes and settings. They are accessed from a dialog box called “S3 Preferences”. Arranged down the left side are eleven categories, starting with “Project”. Once the project is selected, the other ten categories apply only to that project. Project Shown below, the project category allows for the top level selection and manipulation of the project to be worked on.
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PREFERENCES 7-2 Drawing (Unsupported Feature) The drawing tab allows for the setting of the default operation of two drawing tools in the graphic editor. The “Polygon” and “Arc” tools. Close Polygons By default, this check box is de-selected. This means that when a polygon is drawn in the graphic editor, when finished it has no fill color or pattern. If selected, the finished polygon will become a solid object with adjustable fill color and pattern attributes.
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PREFERENCES 7-3 Clock The purpose of the clock tab is to accommodate the two different methods for displaying the time and date around the world. Time A radio button is provided to choose between a twelve hour clock with AM and PM suffix or a 24 hour clock. Date A check box is provided to format the date using the “Day/Month/Year” method. The default is “Month/Day/ Year”. These time and date settings apply to all logs and printouts created by S3. PREFERENCES • CLOCK Version 6.
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7-4 PREFERENCES User Strings The “User Strings” tab provides access to a very powerful feature, the Second Language Dictionary (SLD). The SLD is used to provide second language support to the “Online” aspects of the systems operation. The four databases in the SLD are accessed through the buttons on the preferences dialog box. Each database provides the factory default, in English, with a field to substitute a second language equivalent.
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PREFERENCES 7-5 Examples Below is an example of EAGLE2000/Eagle Quantum SLD configuration. On the right hand side of the dialog box are a series of buttons for the different products. In this example, the EAGLE2000 Gateway is selected. That causes a list of the available events for that device that can be configured for tracking. The English factory default description is displayed above a field where a substitute description can be entered.
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7-6 PREFERENCES SLD descriptions for the user interface buttons used by the online application are presented in the “Factory Name” column of the “User Button Names...” dialog box. Substitutes are entered in the “User Name” column. In the example below the configuration is incomplete, some buttons do not yet have a substitute string. If left blank, these buttons will have no name when online. Version 6.
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PREFERENCES 7-7 “Miscellaneous Strings” are pieces of descriptive text used in a variety of online locations like dialog boxes, window names and data entry fields. Substitutes are entered in the “User Name” column. Like the user buttons, all fields must be filled out or “blank spaces” will appear at these locations when online. When translating button names or miscellaneous strings into other languages the text may be too long for the button or space causing problems.
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PREFERENCES 7-8 Graphics (Unsupported Feature) This category pertains to the operation of the “Online” application. This application displays custom graphics with an overlay of dynamic information from various attached systems. This is the main operational mode used by plant operators and other personnel monitoring the safety systems.
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PREFERENCES 7-9 Cyrillic Font S3 supports the use of Cyrillic in the SLD for both display and printing purposes when used with the recommended alarm printer. Virtual Keyboard When this option is selected S3 provides an onscreen keyboard whenever data entry is required, such as for user login, password entry, etc. This is primarily to provide user input on systems equipped with a touch-screen as the operators primary interface.
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7-10 PREFERENCES Visual Object Error Settings (Unsupported Feature) This checkbox selection enables an online feature that changes the color of any dynamic object that is tied to data that has been flagged as invalid by S3. To change the “error” color select the “Edit” button and S3 will display the color selection dialog box. The default error colors will initially be selected with Aqua for the foreground, Magenta for the background, and a solid brush.
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PREFERENCES 7-11 Choose from any of the 48 standard color definitions displayed, or from the 16 custom colors. Select the “Define Custom Colors” button to display an expanded color picker dialog box that allows any desired color to be added to the “Custom Colors” selections. Up to 16 can be configured. Note Custom colors will not be saved. PREFERENCES • GRAPHICS Version 6.
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7-12 PREFERENCES Color Depth Settings There are three choices for the displayed color depth, 16, 24 and 32. This corresponds to the maximum number of colors used by the operating system and the computers video card to display graphics. 16 bit = 65,636 colors 24 bit = 16, 777, 216 colors 32 bit = True color 16 bit is the default and minimum requirement.
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PREFERENCES 7-13 Logs This tab allows the setting of the log retention time. This adjustment determines how long the system will keep daily log files. When set to zero (the default) all files will be kept and the user must ensure the hard disk does not fill up. If a number is entered in the field, the system will save that number of log files and then delete the oldest when that number is exceeded. PREFERENCES • LOGS Version 6.
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7-14 PREFERENCES DCD The Data Collector and Distributor application program has five configurable parameters that can be used to modify its behavior. Settings There are two settings relating to how sounds are handled. The first one, “Track sounds for clients only” is used in configurations where the local machines DCD is unattended and is used primarily to send data to other S3 client machines.
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PREFERENCES 7-15 Screen Prints In addition to capturing screens in S3, the captured screens can be sent to either a local or remote printer for output. Local Printing With “Local” selected as the destination, the screen will print on the default Windows printer. Remote Printing If “Remote” is selected as the destination, a “Host Address” for another S3 workstation that is running the DCD must be specified by its TCP/ IP address.
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7-16 PREFERENCES Screen Saver S3 provides a screen saver feature that will display the current time on a black background after a user configurable time period has elapsed without any activity. There is also a “Touchscreen” check-box to allow the user to exit the screen saver by touching anywhere on the screen, without causing any screen navigation response. The color of the displayed time can be changed by clicking on the “Color” button.
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PREFERENCES 7-17 Button User Levels This feature allows the DCD application program’s user interface buttons to be assigned a “User Level” for security or operational control purposes. The default value is “0” and has a range of 0-65535. The user level is set in the “Passwords” configuration section of S3. If the user logged in has a user level greater than or equal to the setting of the button, the button will be available. Otherwise, it will be grayed out. PREFERENCES • BUTTON USER LEVELS Version 6.
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7-18 PREFERENCES Sounds The sounds tab allows access to the custom sounds database and integrated sound editor. Selecting the “Edit” button will open the “Sound Editor” dialog box. S3 supports up to sixty four sounds that can be attached to events in the system. One sound, “Warning,” is included with S3 the other sixty three slots can be used to build a project specific sound library.
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PREFERENCES 7-19 The sound editor makes use of the standard Windows based sound card and microphone to allow for the recording and playback of custom sounds. Custom sounds are limited to a maximum recording time of five seconds. This is to accommodate the fact that more than one sound may be in the queue at any given time. The recording time is displayed in the horizontal bar graph at the top of the dialog box. Use the “Record” button to begin recording.
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7-20 PREFERENCES PAGE LEFT BLANK INTENTIONALLY PREFERENCES • SOUNDS
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BACKUP/RESTORE 8-1 Overview of features This button provides access to S3’s built in project Backup and Restore utilities. These utilities allow whole projects to be archived or restored for backup purposes or to be moved to another workstation. Selecting the “BACKUP” button will open the “Select Project” dialog box prompting for a selection. Select the appropriate project from the scrolling list and the select “OK” to begin the process. BACKUP & RESTORE UTILITIES Version 6.
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8-2 BACKUP/RESTORE Backup Once the project is selected a dialog box will be displayed allowing for browsing of the file system in order to select a destination for the backup. This can be on local hard drives, a network drive, or the local floppy disk drive.
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BACKUP/RESTORE 8-3 After the files have been compressed they will be copied to the destination volume, the status will indicate “Backup Completed Select Done”. Click on the “Done” button to return to the Backup/Restore main dialog box. Backing up to Floppy Disk If the “A” drive was selected as the destination, there may be a prompt to confirm that the drive is removable and whether it should be erased before copying the project onto it.
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8-4 BACKUP/RESTORE Once the disk is in place, choose the desired file option, either “Single” or “Multiple”. The default is “Single” and will combine all of the compressed project files into a single project backup file and copy it to the selected destination. This option is significantly faster when backing up to a floppy disk. The “Multiple Files” option is available when access to the individual files might be preferred.
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BACKUP/RESTORE 8-5 Restore To restore an archived project from either a floppy disk or network, select the “Restore” button from the Backup/Restore Utility dialog box. Once the “Restore” button is selected the “Restore Selection” dialog box is displayed. Select either “Existing” or “New” to begin the process. note If “Existing” is selected the restore function will overwrite the existing project with the “Restored” information. The existing project info will be deleted.
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8-6 BACKUP/RESTORE Once the project to be restored has been chosen and the “OK” button selected, the file system browser dialog box is displayed prompting for the selection of the project source. When the source has been chosen select the “Save” button to begin the restoration procedure. As files are restored they will show up in the “Filename” column of the dialog box with their state displayed to the right. When the process is complete, the “Done” button will highlight.
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OPC SERVER 9-1 S3 is designed to simply and efficiently “integrate” data from a variety of multi-vendor safety solutions into a common Operator Interface Station (OIS) where it can be viewed, tracked, and presented to the operator. We have chosen “OPC” as the mechanism for sharing this concentrated safety system data with other systems throughout the facility.
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OPC SERVER 9-2 OPC Server Configuration To configure OPC data points, select the OPC Server button from the S3 Main Screen. This will display the OPC Server Configuration dialog box which lists all of the tags available for activation by the server. note For the S3 server to function, the S3 hardware key must have the OPC server function enabled. The available tags shown, were created during the port configuration process.
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OPC SERVER 9-3 OPC Property Viewer The properties button at the bottom of the OPC Server Configuration dialog box will open the “OPC Property Viewer” and display the properties for the selected point. The individual property extension, description and variant type are displayed. These properties were configured automatically by S3 for inclusion by the OPC server when the point was created within the Port Configuration process.
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9-4 OPC SERVER PAGE LEFT BLANK INTENTIONALLY
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USER LOG IN & OUT/ACCOUNTS 10-1 Security These buttons are part of the S3 security system. The “Log In/Out” button is used to log in or change users, the “User Accounts” button allows the system administrator to create or modify user accounts. User accounts are specific to each project and multiple users can have access to one project. S3 supports up to sixty three unique user accounts, each capable of having a different password and access privileges.
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USER LOG IN & OUT/ACCOUNTS 10-2 Administrator Privileges The person logged in as the Administrator is the only one who can create, modify or delete user accounts. In addition, the Administrator may also change the password for his/her own account. NOTE The default password for the Administrator is “DEC”. CAUTION If the Administrator changes his/her password and loses it, there is no way to restore the account.
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USER LOG IN & OUT/ACCOUNTS 10-3 Creating User Accounts To create a new user, select the “New” button from the “User Settings” dialog box (see previous page). The user selection screen will appear, then select any blank button to be configured as a new user This will display a dialog box for entering the new users name. Enter the name of the new user, in the example below “Operator” was chosen. CREATING A NEW USER Version 6.
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10-4 USER LOG IN & OUT/ACCOUNTS After entering the new users name, select “OK” to accept the name and display the “User settings...” dialog box. There are four check boxes and one field that are used to configure the users account. User Level A user level between 0 and 65535 is used to determine what a user can do. Each command or button which a user can interact with in S3 has a user level assigned to it. The higher the number, the higher the “privileges” for that user.
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USER LOG IN & OUT/ACCOUNTS 10-5 Port Diagnostics viewing enabled When selected, when online the user can access the port diagnostics screen (F11). This screen allows the user to view details about the operation of all active communication ports, whether serial or Ethernet. This would typically be used by a technician responsible for troubleshooting connectivity between the S3 station and any attached systems.
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10-6 USER LOG IN & OUT/ACCOUNTS If “restricted access” is combined with “configure system” the user can also create project backups using the “Backup/Restore” utility and view the LON configuration of an EQP port but cannot edit or view the LON devices details.
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EAGLE QUANTUM PREMIER CONFIG. 11-1 EQP Configuration One of the supported communication port types is for the Detector Electronics Corporation “Eagle Quantum Premier” fire & gas system. System configuration consists of three major phases. • Identifying all of the devices on the network. • Configuring the operating parameters of each of these devices. • Downloading the configuration data over the network to the devices.
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11-2 EAGLE QUANTUM PREMIER CONFIG. Configuration Screen The main configuration screen is divided into two functional areas. The top area, which has a schematic representation of the Local Operating Network (LON™) on which all of the field devices reside and the lower area which contains context sensitive buttons for accessing features and performing functions.
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EAGLE QUANTUM PREMIER CONFIG. 11-3 Command Bar Overview The command bar has fifteen buttons, most of which initiate a command to a field device to perform a certain function, return a value, or feed “real-time” information to S3 to be displayed. The command issued is specific to the node selected in the upper section. In some cases, multiple nodes may be selected using either the shift-click or drag methods and the command can be sent to all applicable nodes in the selected set.
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11-4 EAGLE QUANTUM PREMIER CONFIG. Get Revision Returns the selected devices revision and firmware version information. Over time features and fixes are added to various products. The “Get Revision” feature provides a convenient way of determining if the devices in the system have these features and/or fixes or if they need to be updated. In the example above, the controller was selected prior to initiating the “Get Revision” command and the “Revisions...
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EAGLE QUANTUM PREMIER CONFIG. 11-5 Globals Provides access to configuration services allowing defined global memory values to be set up for tracking by the DCD. Once configured, these globals can be logged and/or printed by the event monitor. Note Global memory points cannot be configured from this location. Global memory point creation and configuration is done within the controllers logic editor.
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11-6 EAGLE QUANTUM PREMIER CONFIG. A dialog box labeled “Global Point Monitor Configuration...” that is specific to the type (digital, analog, etc.) will be displayed allowing the monitoring of the point to be configured. The selected example point above is a “Digital” ON/OFF point type that can be configured to log to the printer, disk, alarm window. In the example below, an “Analog” point type is selected and can be configured for multiple conditional events to be tracked. Version 6.
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EAGLE QUANTUM PREMIER CONFIG. 11-7 Discrete Points Globals tied to “discrete” ON/OFF type events can be set to alarm when the event transitions either High (ON) or Low (OFF) with the “Alarm Condition” radio button. They can also be disabled which removes them from tracking but leaves the event configured in case it is desired to activate it later without the need for knowing the configuration details.
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11-8 EAGLE QUANTUM PREMIER CONFIG. Analog Points Globals tied to “analog” type events can be set to alarm in accordance with “conditional arguments” chosen from the “Analog Comparison Selection...” dialog box. Up to five conditions can be named and configured with each one using one of the available comparisons. The analog signal is compared using the selected logical operator against the values entered. When the condition is true the event will be activated and tracked as configured.
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EAGLE QUANTUM PREMIER CONFIG. 11-9 Once the event name is entered and the comparison configured, the event tracking configuration is set up using the check boxes and menus to the right of the event name.
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11-10 EAGLE QUANTUM PREMIER CONFIG. Since hundreds of monitored global points can be created, a “Search” button is provided to quickly locate a specific point entering all or part of the text from the points tagname. A “Check” button ensures that the monitored global is indexed to a valid tag in the controller. If the tag has been deleted after the creation of the monitored global, an error will be generated. A “Delete” button is used to remove one or more monitored globals from the database.
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EAGLE QUANTUM PREMIER CONFIG. 11-11 In the example below Node 1, the Controller (EQ3001) is selected. When the “Point Display” button in the command bar is selected a point display template specific to the controller is brought up. Point displays are very useful in determining the status of the device, for resetting faults, inhibiting functions, checking calibration and alarm histories, and in the case of the controller, the faceplates’ scrolling text display is simulated.
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11-12 EAGLE QUANTUM PREMIER CONFIG. Reset Module This command forces a selected field device to perform a “soft restart” effectively “rebooting” the field device. This will also reset any latched alarms, faults, outputs, etc. The reset command can be sent to a single selected device or a group of devices. In the example to the right a group of nodes 1-125 was selected from the LON schematic and the reset command issued.
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EAGLE QUANTUM PREMIER CONFIG. 11-13 LON Diagnostic Displays a graphic “LON Schematic” displaying dynamic information about the LON and the devices residing on it. The schematic begins with Node 1, the controller, in the upper left corner and a line representing the communication network (LON) running back and forth across and down the screen. The LON is typically wired as a loop starting and ending at the controller although the schematic does not show this for aesthetic reasons.
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11-14 EAGLE QUANTUM PREMIER CONFIG. Diagnostic data is displayed to two ways on the display, through the color of the rectangle defining each node, and through indicators and counters at the bottom of the screen. The LON is typically wired as a loop starting and ending at the controller which has two physical interfaces (transceivers) labeled “A” and “B”. On an intact LON each of these transceivers receives information from all of the field devices at roughly the same time.
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EAGLE QUANTUM PREMIER CONFIG. 11-15 Point Address Allows a node on the LON schematic to be given a different address. This is typically used when similar nodes are copied & pasted to preserve a particular set of configuration parameters. After the paste function, the “new” node may have an incorrect address and it must then be changed. To use this function, select a node by single-clicking on its rectangle.
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11-16 EAGLE QUANTUM PREMIER CONFIG. Edit Selecting the “Edit” button displays the detailed configuration data for a single selected node. To enter the edit mode for a particular node double-click on the rectangle representing the node on the LON schematic. Below is an example of the controller configuration screen. Detailed examples of node editing, for each device, will be shown in the Premier Device Configuration section of this document. Version 6.
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EAGLE QUANTUM PREMIER CONFIG. 11-17 Get Voltages Displays 24 Vdc supply voltage information for uses such as troubleshooting power distribution problems. Selecting the “Get Voltages” button will display a graphic LON Schematic upon which S3 will overlay dynamic 24 Vdc power supply data from each compatible field device. Certain previous generation Eagle Quantum field devices may not be compatible with this command.
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11-18 EAGLE QUANTUM PREMIER CONFIG. Outputs Tags linked to commands to be sent to the controller or field devices on the LON are configured here. Each “output” is a tag in the DCD database that references a command or controls a memory location within the Premier controller. Select the “Outputs” button from the command bar to access the configuration screen. The screen is divided into two sections, Outputs & Configuration.
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EAGLE QUANTUM PREMIER CONFIG. 11-19 To create an output, double click on one of the “slots” in the scrolling list or select a slot and click on the “Edit” button below the list. This will display the “Output Editor” dialog box. The Output Editor provides two data entry fields, the first for entering the tagname desired for the configured output, the second provides for a “long description” of the tagname function.
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11-20 EAGLE QUANTUM PREMIER CONFIG. Below is the Output Editor dialog box just after opening. A random, unique tagname is generated by default by S3. The firsts twelve items on the list provide access to controller commands and the global database. The “LON” item will allow access to all field device command functions, the “Relays” item is for accessing the controllers onboard relays.
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EAGLE QUANTUM PREMIER CONFIG. 11-21 Sample output configurations Example 1 involves an output to acknowledge an alarm on the controller. With the controller selected and its item list expanded select the “Activate Acknowledge” item. Next, create the tagname and miscellaneous comments and select “Log to History” to complete the configuration. When the configuration is complete, select the “OK” button in the lower right of the dialog box. COMMAND BAR • OUTPUTS Version 6.
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11-22 EAGLE QUANTUM PREMIER CONFIG. The configured output #1 is now displayed both in the output list on the left along with its details displayed in the configuration pane on the right. Example 2 involves creating an output to reset an Agent Release Module (ARM) on the LON. This output will be configured in output slot #2. Double click on the second slot, or single click the slot and select the “Edit” button in the bottom left of the output pane to open the “Output Editor” dialog box.
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EAGLE QUANTUM PREMIER CONFIG. 11-23 Clicking on the “+” sign left of the “LON” item will expand it revealing the devices on the LON. In this sample program there are only 10 field devices but in typical systems their could be dozens. Notice that each LON field device has the “+” sign to its left signifying that there are subordinate items associated with them. The number of subordinate items will vary by device type. Expand the “ARM-015” item to display its subordinate items.
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11-24 EAGLE QUANTUM PREMIER CONFIG. Select the “Reset” item from the ARM-015 list, fill in the tagname and miscellaneous fields and then select “Log to History” to complete the configuration. Then select the “OK” button in the lower right of the dialog box to complete the configurations entry into the database. This completes the configuration of the first two output “slots”. Version 6.
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EAGLE QUANTUM PREMIER CONFIG. 11-25 Example 3 involves creating an output to initiate a manual Optical Integrity (Oi) test on a UVIR optical fire detector. This output will be configured in output slot #3. Above is the output editor dialog box with “UVIR-013” expanded, “Start Manual Oi Test” selected, and the tagname and miscellaneous fields filled out. Notice that the UVIR detector has three subordinate items instead of two as in example 2 with the ARM module.
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11-26 EAGLE QUANTUM PREMIER CONFIG. Output Configuration Screen Details The left hand pane uses a scrolling list with three columns to display the configured outputs and allow for their editing. The first column “#” contains the slot number for the outputs in the database. In the example above, the first three slots are configured. The second column contains the “Tagname” that is used within the database to identify the item.
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EAGLE QUANTUM PREMIER CONFIG. 11-27 Delete immediately and permanently erases a slots configuration. This function is not “reversible” so use with caution. Search allows for locating matching text strings to quickly find a desired slot for viewing or editing, since thousands of outputs can be configured. Check is primarily used following editing of the LON configuration to verify that all configured outputs are still linked to valid items in the database.
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11-28 EAGLE QUANTUM PREMIER CONFIG. Upload Queries the controller for its configuration and if a complete configuration was properly stored, it will be uploaded and saved to a newly created project (refer to section 8-5 in regards to creating a new project). The current project will not be changed. The “Upload” command is typically used when attaching an S3 station to an existing system for which there is no existing database on the S3 station.
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EAGLE QUANTUM PREMIER CONFIG. 11-29 The “Arrange” button allows movement of the location of the nodes on the schematic representing the LON to match the actual way the LON is wired in the field. This is an important step for ease of future LON troubleshooting. To use the “Arrange” function, click on the “Arrange” button and drag the nodes into their desired locations. To move a node, click and drag it over the area between the two nodes at the new location, then release the mouse button.
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11-30 EAGLE QUANTUM PREMIER CONFIG. Copy/Paste Used in conjunction with the “Paste” command, “Copy” allows a nodes configuration to be duplicated elsewhere on the LON while retaining the configuration data. This is very useful when there are to be many nodes of the same type and configuration on a LON. The detailed configuration only needs to be done once, then copy and paste as many as needed with only the new nodes tag name and address needing to be manually entered.
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EAGLE QUANTUM PREMIER CONFIG. 11-31 Point Color If at anytime a field device becomes difficult to view above the black background, the “Point Color” button enables the user to choose a new background color to help the device stand out for better viewing. Delete Removes a selected node from the LON configuration. Select a node or multiple nodes on the LON Schematic and then select the “Delete” button to remove them from the database. Use this function with caution as it does not have an “undo”.
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11-32 EAGLE QUANTUM PREMIER CONFIG. New Device Opens the “Select Point Type” dialog box from which a new device can be added to the LON. In the example below, “Initiating Device Circuit (IDC)” has been selected. At this point, selecting the “OK” button would add an IDC to the LON, just after the last configured device. At this point, the configuration dialog box for the selected point type is displayed. This dialog box provides access to all of the programmable parameters for the selected device type.
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EAGLE QUANTUM PREMIER CONFIG. 11-33 Controller Log S3 keeps a log of every event ever excecuted by the controller, logs which cannot be edited or deleted. Once the “Controller Log” button is selected a new window will appear requiring the “Fetch” button to be selected in order for the logs to populate the screen. Clicking the “Logs” tab displays the controller logs with more detailed infomation, and the user is able to export the info to Excel or PDF formats.
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11-34 EAGLE QUANTUM PREMIER CONFIG.
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EAGLE QUANTUM PREMIER DEVICES 12-1 Controller Note This Section is dedicated to the EQP controller and key field devices it supports. Please be aware that the controller will encounter compatibility issues with some field devices if it’s firmware is not up to date and does not match the correct version of the S3 software. Refer to marketing bulletin 78-1006 for more information. The “Controller” is the first device on any Eagle Quantum Premier Local Operating Network (LON).
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EAGLE QUANTUM PREMIER DEVICES 12-2 Configure a Controller To begin controller configuration, double-click on its selection rectangle or single-click on the selection rectangle and choose the “Edit” button in the lower left position of the command bar. This opens the “Configure a controller...” dialog box which provides access to all of the user configurable features of the controller, including access to the logic editor.
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EAGLE QUANTUM PREMIER DEVICES 12-3 Port Baud Rate The port speed can be adjusted in standard intervals between a high speed of 115,200 baud which is both the default setting and the recommended setting, and, a low speed of 2,400 baud. Lower speeds are not recommended but sometimes required if the controllers location is too far from the S3 workstation to support the recommended speed.
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12-4 EAGLE QUANTUM PREMIER DEVICES Serial Ports 1-4 These ports can be used for communication with a host device such as a users Distributed Control System (DCS), Programmable Logic Controller (PLC) or Human Machine Interface (HMI). Ports 1 and 2 use the RS-485 standard, 3 and 4 use the RS-232 standard. Each have four configurable parameters; protocol, baud rate, parity and address.
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EAGLE QUANTUM PREMIER DEVICES 12-5 User Parameters This button opens the “User Parameters...” dialog box allowing for their values to be set. These parameters are intended for use in special applications utilizing the Allen-Bradley ControlNet interface option. The use of these parameters is described in the users guide for the ControlNet option module. In general applications, these parameters should be “0”.
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12-6 EAGLE QUANTUM PREMIER DEVICES The primary reason for this feature is to accommodate instances where the controller must be mounted inside another enclosure and the faceplate buttons are brought through the door to allow operation while inside. Typically a window allows viewing of the controller’s faceplate. Each point can be logically “inverted” by using the checkbox in the “Static Logic Inverted” column.
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EAGLE QUANTUM PREMIER DEVICES 12-7 Option Board The Eagle Quantum Premier controller is designed to be expandable and is provided with a slot for an add on circuit board. Selecting the “Type” drop down menu will display the available options. If no expansion board is installed select “None”. If the “ControlNet” expansion board is selected the “ControlNet Mac Address” field will activate allowing data entry.
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12-8 EAGLE QUANTUM PREMIER DEVICES Alarms Selecting this button opens the “Alarms to Monitor...” dialog box. This scrolling list displays the alarms and events related to the controller that can be configured to be monitored by S3. The controller has 75 alarms and events that can be monitored, some of which are disabled by default. Alarm and event monitoring is covered on the next page. User Level Allows user levels to be set on a variety of controller features for security.
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EAGLE QUANTUM PREMIER DEVICES 12-9 Alarms Allows for the configuration of the alarm and event monitoring for the device. These alarms and events are used by the S3 OPC Server. Clicking on the “Alarms” button will open the “Alarms to Monitor...” dialog box. Below is an example of the controller’s event configuration. The dialog box is a scrolling list with eleven attribute columns. There are four buttons running horizontally across the bottom of the window; Custom, Factory, OK and Cancel.
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12-10 EAGLE QUANTUM PREMIER DEVICES The definitions of the eleven columns in the “Alarms to Monitor...” dialog box are as follows: Enabled Turns an event on or off. If disabled, no other settings do anything. Name This 48 character field is used to describe the event or alarm. This is the text that will be used and recorded throughout the S3 applications suite when the event occurs. Printer When selected, sends the event to the S3 event printer.
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EAGLE QUANTUM PREMIER DEVICES 12-11 Active Color/Normal Color Select one of four different colors for recording when events become “Active” or return to “Normal”. These color selections are made from the pull down menu located to the right of the event name. The color selections apply to both printed and screen presentations of the event. In the example above, the event will be shown in Red when active and Green when it returns to normal.
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12-12 EAGLE QUANTUM PREMIER DEVICES PAGE LEFT BLANK INTENTIONALLY
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EAGLE QUANTUM PREMIER DEVICES 12-13 X3301 Multi-Spectrum Infrared Flame Detector The MIR X3301 is located on the LON/SLC and provides Multi-Spectrum Infrared Optical Flame detection capability for the Eagle Quantum Premier system. It provides unsurpassed detection of fires from light to heavy hydrocarbon fuels combined with the highest degree of false alarm rejection. The detector has Division and Zone explosion-proof ratings and is suitable for use in indoor and outdoor applications.
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12-14 EAGLE QUANTUM PREMIER DEVICES Heater Optics Up to 8 watts of power can be utilized to provide heat to the optical sensing elements. The “Heater Power” adjustment allows the user to determine the maximum amount of power to use in trying to achieve the temperature setpoint. This can be an important adjustment in situations where the power budget is limited or in installations with large quantities of detectors.
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EAGLE QUANTUM PREMIER DEVICES 12-15 Oi Test Fault The detector automatically conducts Oi tests to check the integrity of the optical sensing systems. Three consecutive failed Oi tests will generate a fault condition, which will be indicated by the LED on the face of the detector turning yellow. The EQP Controller and S3 software will also annunciate this fault. In certain environmental conditions like very heavy rain, Oi test failures can occur even though the hardware is not faulty.
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12-16 EAGLE QUANTUM PREMIER DEVICES Alarm LED Latch The tri-color LED on the face of the detector turns red when in alarm and can be configured to be either latching or non-latching. If latching is selected, following a fire detection, the LED will stay on until the detector is reset from the point display for the detector in the S3 software. The default is non-latching.
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EAGLE QUANTUM PREMIER DEVICES 12-17 PV Deadband A field is provided to enter the desired PV (Process Variable) Deadband. Normally all values are transmitted to the controller every five seconds; If the PV changes more than the entered percentage before the five second report time arrives, an immediate message is sent with the current values. Alarms Selecting this button opens the “Alarms to Monitor...” dialog box.
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12-18 EAGLE QUANTUM PREMIER DEVICES User Levels The “User Level Editor...” provides a means for limiting access to the “Acknowledge”, “Remove”, “Manual Oi”, “Inhibit”, “IR Calibration”, “Manual Oi (FIRE)” and “Reset” buttons for the module which are accessible from the devices point display. The default value is “0” and provides access to all users. Change these values to match a user account configuration and security needs.
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EAGLE QUANTUM PREMIER DEVICES 12-19 X3302 Multi-Spectrum Infrared Flame Detector The MIR H2 X3302 is located on the LON/SLC and provides Multi-Spectrum Infrared Optical Flame detection capability for the Eagle Quantum Premier system. It provides unsurpassed detection of invisible hydrogen flames and hazardous materials that produce mostly water vapor, and little or no CO2 in the combustion process. The detection capability of the X3302 is double that of traditional UV and UVIR detectors.
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12-20 EAGLE QUANTUM PREMIER DEVICES Heater Optics Up to 8 watts of power can be utilized to provide heat to the optical sensing elements. The “Heater Power” adjustment allows the user to determine the maximum amount of power to use in trying to achieve the temperature setpoint. This can be an important adjustment in situations where the power budget is limited or in installations with large quantities of detectors.
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EAGLE QUANTUM PREMIER DEVICES 12-21 Oi Test Fault The detector automatically conducts Oi tests to check the integrity of the optical sensing systems. Three consecutive failed Oi tests will generate a fault condition, which will be indicated by the LED on the face of the detector turning yellow. The EQP Controller and S3 software will also annunciate this fault. In certain environmental conditions like very heavy rain, Oi test failures can occur even though the hardware is not faulty.
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12-22 EAGLE QUANTUM PREMIER DEVICES Alarm LED Latch The tri-color LED on the face of the detector turns red when in alarm and can be configured to be either latching or non-latching. If latching is selected, following a fire detection, the LED will stay on until the detector is reset from the point display for the detector in the S3 software. The default is non-latching.
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EAGLE QUANTUM PREMIER DEVICES 12-23 Alarms Selecting this button opens the “Alarms to Monitor...” dialog box. This scrolling list displays the alarms and events related to the device that can be configured to be monitored by S3. There are 31 alarms and events that pertain to the status and diagnostics for the MIR X3302. User Levels The “User Level Editor...
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12-24 EAGLE QUANTUM PREMIER DEVICES Point Display The MIR X3302 has a custom “Point Display” that can be accessed from either the Point Display button on the Command Bar or from the Online Mode. The point display provides a single window view of all available real-time data for the device. Alarm Logs The top right quadrant of the display shows the last eight alarms with their date and time data.
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EAGLE QUANTUM PREMIER DEVICES 12-25 X9800 Infrared Flame Detector The IR X9800 is located on the LON/SLC and provides Infrared Optical Flame detection capability for the Eagle Quantum Premier system. The IR X9800 meets the most stringent requirements worldwide with advanced detection capabilities and immunity to extraneous sources, combined with a superior mechanical design. The detector is equipped with both automatic and manual Oi test capability.
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12-26 EAGLE QUANTUM PREMIER DEVICES Configuration Enter the tagname for the detector, a miscellaneous description and then adjust the IR Settings. Processing Mode The IR X9800 features signal processing options. These options determine the type of logic that the detector will use for processing fire signals to customize the IR X9800 to the application. Two signal processing options are available for the IR X9800: “TDSA” and “TDSA & Quickfire”.
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EAGLE QUANTUM PREMIER DEVICES 12-27 Automatic Oi The IR X9800 includes the Automatic Optical Integrity (Oi) feature — a calibrated performance test that is automatically performed once per minute to verify complete detector operation capabilities. No testing with an external test lamp is required. The detector automatically performs the same test that a maintenance person with a test lamp would perform — once every minute, 60 times per hour.
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12-28 EAGLE QUANTUM PREMIER DEVICES Oi Configuration The frequency of Oi testing can be adjusted between once a minute as maximum and up to once every ten minutes as a minimum. There is also a checkbox for automatic operation. The number of failed Oi tests needed to generate a fault can also be adjusted within a range of 1 to 30. Test failures can sometimes be generated during heavy rain or other environmental conditions thus requiring this parameter to be flexible.
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EAGLE QUANTUM PREMIER DEVICES 12-29 Alarm Latching This refers to the fire alarm “message” being sent from the detector to the EQP controller and then used in both the embedded and user programmed logic. Non-latching is the default and most common setting. Using the Radio Buttons select either latching or non-latching for the alarm operation. If set to latching, the user will have to reset the detector from its S3 Point Display following an alarm.
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12-30 EAGLE QUANTUM PREMIER DEVICES Alarms Selecting this button opens the “Alarms to Monitor...” dialog box. This scrolling list displays the alarms and events related to the device that can be configured to be monitored by S3. There are 28 alarms and events that pertain to the status and diagnostics for the IR X9800. User Levels The “User Level Editor...
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EAGLE QUANTUM PREMIER DEVICES 12-31 Point Display The IR X9800 has a custom “Point Display” that can be accessed from either the Point Display button on the Command Bar or from the Online Mode. The point display provides a single window view of all available real-time data for the device. Alarm Logs The top right quadrant of the display shows the last eight alarms with their date and time data.
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12-32 EAGLE QUANTUM PREMIER DEVICES PAGE LEFT BLANK INTENTIONALLY
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EAGLE QUANTUM PREMIER DEVICES 12-33 X5200 Ultraviolet (UV) / Infrared (IR) Flame Detector The UVIR X5200 is located on the LON/SLC and provides UVIR Optical Flame detection capability for the Eagle Quantum Premier system. The UVIR X5200 meets the most stringent requirements worldwide with advanced detection capabilities and immunity to extraneous sources, combined with a superior mechanical design. The detector is equipped with both automatic and manual Oi test capability.
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12-34 EAGLE QUANTUM PREMIER DEVICES The optional description entered in the miscellaneous text field can be used for further describe where or how the detector is being used and can be helpful in troubleshooting. The UVIR X5200 features signal processing options for both the UV and IR sensors. These options determine the type of logic that the detector will use for processing fire signals to customize the UVIR X5200 to the application.
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EAGLE QUANTUM PREMIER DEVICES 12-35 Standard Signal Processing Standard signal processing is recommended for high speed suppression systems only. To allow for high speed operation, the standard processing mode does not incorporate the arc rejection programming. This mode should only be used in a controlled, indoor environment. IR Detector Options The IR detector in the UVIR X5200 can be programmed for; “TDSA enabled” or both “TDSA and Quick Fire enabled” (either initiates fire alarm).
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12-36 EAGLE QUANTUM PREMIER DEVICES Sensor Sensitivity Adjustments Both the UV and IR sensors have individually adjustable sensitivity selections. These settings combined with the signal processing and arc rejection selections will effect how the detector responds to different types of fires. For details on the impact of these settings on a variety of common fuels, refer to the UVIR X5200 instruction manual 95-8546.
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EAGLE QUANTUM PREMIER DEVICES 12-37 Oi Mode The UVIR X5200 includes the Automatic Optical Integrity (Oi) feature — a performance test that is automatically performed to verify complete detector operation capabilities. Combined Settings The bottom portion of the dialog box contains settings for the alarm latching, Optical Integrity (Oi), input time delay and PV deadband adjustments that apply to the whole detector as opposed to a specific sensor.
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12-38 EAGLE QUANTUM PREMIER DEVICES Alarms Selecting this button opens the “Alarms to Monitor...” dialog box. This scrolling list displays the alarms and events related to the device that can be configured to be monitored by S3. There are 33 alarms and events that pertain to the status and diagnostics of the UVIR X5200. User Levels The “User Level Editor...
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EAGLE QUANTUM PREMIER DEVICES 12-39 Point Display The UVIR X5200 detector has a custom “Point Display” that can be accessed from either the Point Display button on the Command Bar or from the Online Mode. The point display provides a single window view of all available real-time data for the device. Alarm Logs The top right quadrant of the display shows the last eight alarms with their date and time data.
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12-40 EAGLE QUANTUM PREMIER DEVICES PAGE LEFT BLANK INTENTIONALLY
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EAGLE QUANTUM PREMIER DEVICES 12-41 X2200 Ultraviolet (UV) Flame Detector The UV X2200 is located on the LON/SLC and provides Multi-Spectrum Infrared Optical Flame detection capability for the Eagle Quantum Premier system. The UV X2200 meets the most stringent requirements worldwide with advanced detection capabilities and immunity to extraneous sources, combined with a superior mechanical design. The detector is equipped with both automatic and manual Oi test capability.
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12-42 EAGLE QUANTUM PREMIER DEVICES Signal Processing Options The UV flame detector output (measured in counts per second) is compared to the fire threshold (the “sensitivity” setting). If the radiant energy level from the fire exceeds the selected alarm threshold level, the fire alarm output is activated. In every application, it is crucial to ensure that the radiant ultraviolet energy level from the expected fire at the required distance from the detector will exceed the selected sensitivity level.
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EAGLE QUANTUM PREMIER DEVICES 12-43 Automatic Oi The UV X2200 includes the Automatic Optical Integrity (Oi) feature — a calibrated performance test that is automatically performed once per minute to verify complete detector operation capabilities. No testing with an external test lamp is required. The detector automatically performs the same test that a maintenance person with a test lamp would perform —once every minute, 60 times per hour.
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12-44 EAGLE QUANTUM PREMIER DEVICES Sensitivity and Arc Rejection The detector sensitivity and arc rejection settings are adjusted using the four position sliders provided in the configuration dialog box. The factory default for both is “High” which responds to a 1 x 1 foot n-Heptane fire at 60 feet in 1 second with standard processing. For other fuels, distances, etc. Refer to the Appendix in the UV X2200 instruction manual 95-8549.
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EAGLE QUANTUM PREMIER DEVICES 12-45 Alarms Selecting this button opens the “Alarms to Monitor...” dialog box. This scrolling list displays the alarms and events related to the device that can be configured to be monitored by S3. There are 25 alarms and events that pertain to the status and diagnostics of the UV X2200 detector. User Levels The “User Level Editor...
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12-46 EAGLE QUANTUM PREMIER DEVICES Point Display The UV Flame Detector (X2200) has a custom “Point Display” that can be accessed from either the Point Display button on the Command Bar or from the Online Mode. The point display provides a single window view of all available real-time data for the device. Alarm Logs The top right quadrant of the display shows the last eight alarms with their date and time data.
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EAGLE QUANTUM PREMIER DEVICES 12-47 EQ2200UV Ultraviolet (UV) Flame Detector The UV EQ2200 is located on the LON/SLC and provides UV Optical Flame detection capability for the Eagle Quantum Premier system. The detector has Division and Zone explosion-proof ratings and is suitable for use in indoor and outdoor applications. Tagname The tagname at the top of the dialog box refers to the flame detector.
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12-48 EAGLE QUANTUM PREMIER DEVICES The UV flame detector output (measured in counts per second) is compared to the fire threshold (the”sensitivity” setting). If the radiant energy level from the fire exceeds the selected alarm threshold level, the fire alarm output is activated. In every application, it is crucial to ensure that the radiant ultraviolet energy level from the expected fire at the required distance from the detector will exceed the selected sensitivity level.
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EAGLE QUANTUM PREMIER DEVICES 12-49 Alarm Latching Mode The red LED on the face of the detector comes on when in alarm and can be configured to be either latching or non-latching. If latching is selected, following a fire detection, the LED will stay on until the detector is reset from the point display for the detector in the S3 software. The default is non-latching.
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12-50 EAGLE QUANTUM PREMIER DEVICES PV Deadband A field is provided to enter the desired PV (Process Variable) Deadband. Normally all values are transmitted to the controller every five seconds; If the PV changes more than the entered percentage before the five second report time arrives, an immediate message is sent with the current values. Alarms Selecting this button opens the “Alarms to Monitor...” dialog box.
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EAGLE QUANTUM PREMIER DEVICES 12-51 User Levels The “User Level Editor...” provides a means for limiting access to the “Acknowledge”, “Remove”, “Manual Oi”, “Inhibit”, Manual Oi (FIRE)” and “Reset” buttons for the module which are accessible from the devices point display. The default value is “0” and provides access to all users. Change these values to match a user account configuration and security needs.
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EAGLE QUANTUM PREMIER DEVICES 12-53 EQ2200UVIR Ultraviolet (UV)/Infrared (IR) Optical Flame Detector The UVIR EQ2200 is located on the LON/SLC and provides a combination UV & IR Optical Flame detection capability for the Eagle Quantum Premier system. The detector has Division and Zone explosion-proof ratings and is suitable for use in indoor and outdoor applications. Configuration Configuration of the detector is through the “UVIR EQ2200 Flame Detector Editor...
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12-54 EAGLE QUANTUM PREMIER DEVICES Tagname The tagname at the top of the dialog box refers to the flame detector as a whole and is the identifier used for programming. Until a tagname is entered the detector is not available in the S3 database for programming, monitoring or dynamic graphic purposes. The optional description entered in the miscellaneous text field can be used for further describe where or how the detector is being used and can be helpful in troubleshooting.
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EAGLE QUANTUM PREMIER DEVICES 12-55 Standard Signal Processing Standard signal processing is recommended for high speed suppression systems only. To allow for high speed operation, the standard processing mode does not incorporate the arc rejection programming. This mode should only be used in a controlled, indoor environment. UV and IR Sensor Sensitivity Settings Both the UV and IR detectors can be individually programmed to operate in one of four sensitivity settings; Low, Medium, High or Very High.
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12-56 EAGLE QUANTUM PREMIER DEVICES Automatic Oi The UVIR EQ2200 includes the Automatic Optical Integrity (Oi) feature — a performance test that is automatically performed to verify complete detector operation capabilities. No testing with an external test lamp is required. The detector automatically performs the same test that a maintenance person with a test lamp would perform —once every minute, 60 times per hour. However, a successful automatic Oi test does not produce an alarm condition.
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EAGLE QUANTUM PREMIER DEVICES 12-57 Alarms Selecting this button opens the “Alarms to Monitor...” dialog box. This scrolling list displays the alarms and events related to the device that can be configured to be monitored by S3. There are 27 alarms and events that relate to the status and diagnostics of the UVIR EQ2200. User Levels The “User Level Editor...
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12-58 EAGLE QUANTUM PREMIER DEVICES Point Display The UVIR EQ2200 has a custom “Point Display” that can be accessed from either the Point Display button on the Command Bar or from the Online Mode. The point display provides a single window view of all available real-time data for the device. Alarm Logs The top right quadrant of the display shows the last eight alarms with their date and time data.
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EAGLE QUANTUM PREMIER DEVICES 12-59 PIRECL Point IR Gas Detector The PIRECL is a diffusion based, point-type infrared gas detector that provides continuous monitoring of combustible hydrocarbon gas concentrations in the range of 0 to 100% LFL. The Point IR Gas Detector has integral communication hardware and resides on the EQP communication network without the need for external interface modules.
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12-60 EAGLE QUANTUM PREMIER DEVICES Gas Type After entering the desired tagname and miscellaneous information, select the gas type the detector is being installed to primarily monitor from the pull-down list. There are six common hydrocarbon gases that are available in the detectors memory. There are three “Reserved” fields for future standard characterizations and one selection called “Special” which if selected allows a unique hydrocarbon gas to be defined and downloaded to the detector.
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EAGLE QUANTUM PREMIER DEVICES 12-61 Calibration Gas: Type and Concentration PIRECL supports three selections for calibration gas type; Ethane, Methane and “same as measured”. Typically the calibration gas type is the same as the measured gas, however, in some installations it may be preferred to use a single type of calibration gas to calibrate a number of hydrocarbon detectors even though they are not all characterized to monitor the same gas in normal operation.
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12-62 EAGLE QUANTUM PREMIER DEVICES Alarm Setpoints The High and Low gas alarm setpoints can be changed by entering new values in the fields provided on the dialog box. The default values are 50% LFL for the High Alarm and 20% LFL for the Low Alarm. The High alarm can be adjusted within a range of 5% LFL and 60% LFL. The Low alarm can be adjusted within a range of 5% LFL and 40% LFL. NOTE The Low Alarm setpoint cannot be set to a higher value than the High Alarm setpoint.
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EAGLE QUANTUM PREMIER DEVICES 12-63 Alarms Selecting this button opens the “Alarms to Monitor...” dialog box. This scrolling list displays the alarms and events related to the device that can be configured to be monitored by S3. There are 25 alarms and events that relate to the status and diagnostics of the PIRECL. Completing Configuration When all parameters have been set, select the OK button to return to the LON configuration screen.
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12-64 EAGLE QUANTUM PREMIER DEVICES Point Display The Eclipse has a custom “Point Display” that can be accessed from either the Point Display button on the Command Bar or from the Online Mode. The point display provides a single window view of all available real-time data for the device. Input Tracking The upper left quadrant contains a 60 second analog track running from left to right, the newest data on the left margin.
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EAGLE QUANTUM PREMIER DEVICES 12-65 OPECL Open Path Eclipse Gas Detector Note Controller Firmware 7 is required in order for the OPECL to function with the EQP controller. The OPECL is an open path infrared gas detection system that provides continuous monitoring of combustible hydrocarbon gas concentrations in the range of 0 to 5 LFL-meters, over a distance of 5 to 120 meters.
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12-66 EAGLE QUANTUM PREMIER DEVICES Gas Type After entering the desired tagname and miscellaneous information, select the gas type the detector is being installed to primarily monitor from the pull-down list. There are 5 common hydrocarbon gases that are available in the detectors memory. There is one “Special” field which if selected allows a unique hydrocarbon gas to be defined and downloaded to the detector.
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EAGLE QUANTUM PREMIER DEVICES 12-67 Alarm Setpoints The High and Low gas alarm setpoints can be changed by entering new values in the fields provided on the dialog box. The default values are 2% LFLM for the High Alarm and 1% LFLM for the Low Alarm at a full scale of 5.00 LFLM. The High and Low alarms can be adjusted within a range of 0.25% LFL and 3% LFLM. NOTE The Low Alarm setpoint cannot be set to a higher value than the High Alarm setpoint.
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12-68 EAGLE QUANTUM PREMIER DEVICES Alarms Selecting this button opens the “Alarms to Monitor...” dialog box. This scrolling list displays the alarms and events related to the device that can be configured to be monitored by S3. Completing Configuration When all parameters have been set, select the OK button to return to the LON configuration screen. From the Command Bar Download the new configuration to the controller, or configure other devices. NOTE The Download command will send all configurations.
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EAGLE QUANTUM PREMIER DEVICES 12-69 Point Display The Open Path Eclipse has a custom “Point Display” that can be accessed from either the Point Display button on the Command Bar or from the Online Mode. The point display provides a single window view of all available real-time data for the device. Input Tracking The upper left quadrant contains a 60 second analog track running from left to right, the newest data on the left margin.
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EAGLE QUANTUM PREMIER DEVICES 12-71 Digital Communication Unit (DCU) For gas detectors and other analog inputs DCU’s are single channel analog input modules for the Eagle Quantum Premier LON. S3 provides four variations of software support for DCU’s, as follows: • Explosive For use with Det-Tronics catalytic bead combustible gas detectors. • Oxygen For use with Det-Tronics electrochemical oxygen depletion cells.
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12-72 EAGLE QUANTUM PREMIER DEVICES From a configuration standpoint, all DCU’s have the same basic adjustable parameters; Alarm 1, Alarm 2, and Calibration gas concentration (Cal Level). The DCU Universal also has a fields for entering the engineering units and unit range for the attached sensor.
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EAGLE QUANTUM PREMIER DEVICES 12-73 Alarms Selecting this button opens the “Alarms to Monitor...” dialog box. This scrolling list displays the alarms and events related to the device that can be configured to be monitored by S3. Completing Configuration When all parameters have been set, select the OK button to return to the LON configuration screen. From the Command Bar Download the new configuration to the controller, or configure other devices. NOTE The Download command will send all configurations.
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12-74 EAGLE QUANTUM PREMIER DEVICES Point Display The DCU has a custom “Point Display” that can be accessed from either the Point Display button on the Command Bar or from the Online Mode. The point display provides a single window view of all available real-time data for the device. NOTE The above point display is accessed from the configuration area. The point display in the online monitoring mode does not include the LON A & B Counters. Version 6.
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EAGLE QUANTUM PREMIER DEVICES 12-75 Discrete IO (DCIO)/ Enhanced Discrete IO SIL (EDIO) Flexible 8 channel input/output modules for 24 Vdc discrete field devices DCIO’s and the newer EDIO’s are flexible 8 channel discrete (ON/OFF) input/output modules for the Eagle Quantum Premier LON. From a configuration standpoint, each channel can be configured to be either an input or an output, supervised or unsupervised.
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12-76 EAGLE QUANTUM PREMIER DEVICES Tagname The tagname at the top of the dialog box refers to the entire module. Each of the eight channels also require a tagname and until one is entered, that channel is not available in the S3 database for programming, monitoring or dynamic graphic purposes. Type Using a pull down menu each channel can be configured to be either an input or an output. When configured as an input the channels will work with “dry” contact closure type devices.
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EAGLE QUANTUM PREMIER DEVICES 12-77 Static Logic Mode (Input) If the channel is configured as an input, a pull down menu will allow any of five different “static logic” functions to be assigned, or, to select “Other” which is the default and has no automatic function. The five static logic functions are: Fire Alarm Sets off the “Fire Alarm” LED and relay* on the EQP controller. Trouble Sets off the “Trouble” LED and relay* on the EQP controller.
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12-78 EAGLE QUANTUM PREMIER DEVICES The first 13 alarms pertain to the status and diagnostic for the overall module. After this come 5 alarms for each of the eight channels. This gives a total of 53 alarms and events that can be enabled and monitored by S3 for this module type. User Levels The “User Level Editor...” provides a means for limiting access to the “Acknowledge”, “Remove”, and “Inhibit” buttons for the module which are accessible from the devices point display.
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EAGLE QUANTUM PREMIER DEVICES 12-79 Point Display The DCIO has a custom “Point Display” that can be accessed from either the Point Display button on the Command Bar or from the Online Mode. The point display provides a single window view of all available real-time data for the device. The bottom half of the point display provides a data display area and annunciator for all 8 inputs. It also provides for “Inhibiting” the channels. DCIO/EDIO • POINT DISPLAY Version 6.
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EAGLE QUANTUM PREMIER DEVICES 12-81 Intelligent Protection Module (IPM) 8 channel input/output module for 24 Vdc discrete field devices The Intelligent Protection Module (IPM) is a part of the Det-Tronics Eagle Quantum Premier (EQP) System that is specially designed to monitor, supervise and control one fire suppression hazard.
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12-82 EAGLE QUANTUM PREMIER DEVICES Tagname The tagname at the top of the dialog box refers to the entire module. Each of the eight channels also require a tagname and until one is entered, that channel is not available in the S3 database for programming, monitoring or dynamic graphic purposes. Type The channel type on the IPM is preset and not user changeable. Supervision Via a pull down menu, the inputs and outputs may be software configured to supervise their attached device.
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EAGLE QUANTUM PREMIER DEVICES 12-83 Abort Mode The IPM abort input, Channel 1, is software configurable to use any one of three modes of operation. These three modes operate as follows: Mode 1 Upon activation, the delay timer will count down to and hold at 10 seconds; upon release, timer will continue to count down to zero. NOTE Only this mode complies with UL 864. Mode 2 Upon activation the delay timer will reset to its initial value and on release will continue counting down to zero.
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12-84 EAGLE QUANTUM PREMIER DEVICES Alarm Condition Single Zone Mode Upon receipt of an alarm from an activated detector on IPM channel 4 or 5 OR activation of the manual station, channel 2: Signal circuit devices are activated per the software selected signaling circuit configuration described earlier – Bell Circuit (SAM) Channel 6. Programmed release time delay activated. Release output(s) activated.
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EAGLE QUANTUM PREMIER DEVICES 12-85 Single Zone Mode The signaling circuit can be configured to any standard SAM selection. Signal Circuit in Cross Zoned Mode In this mode the user must make two selections. A standard SAM selection for when a single detection circuit is in alarm and another selection for when both detection circuits are in alarm. Control Mode The IPM has 3 operation modes, Controller Only, Back-up Mode, Embedded Only. IPM • SINGLE ZONE MODE Version 6.
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12-86 EAGLE QUANTUM PREMIER DEVICES Controller Only In this mode the I/O of the IPM will be controlled from the EQP Controller only and embedded logic is inactive. Back-up Mode The default selection) the IPM I/O is normally controlled by the EQP Controller but utilizes embedded logic in accordance with the “Control Transfer Sequence Description” to control its I/O under certain circumstances. Embedded Only In this mode the IPM continuously operates from its embedded logic.
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EAGLE QUANTUM PREMIER DEVICES 12-87 The first 14 alarms pertain to the status and diagnostic for the overall module. After this come 4 alarms for each of the eight channels. This gives a total of 46 alarms and events that can be enabled and monitored by S3 for this module type. User Levels The “User Level Editor...” provides a means for limiting access to the “Acknowledge”, “Remove”, Module and Channel “Reset” buttons for the module which are accessible from the devices point display.
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12-88 EAGLE QUANTUM PREMIER DEVICES Point Display The IPM has a custom “Point Display” that can be accessed from either the Point Display button on the Command Bar or from the Online Mode. The point display provides a single window view of all available real-time data for the device. The bottom half of the point display provides a data display area and annunciator for all 8 inputs and outputs. Reset Button The reset button on the IPM point display will reset the module.
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EAGLE QUANTUM PREMIER DEVICES 12-89 Analog Input Module (AIM) 8 channel input module for 0-24 ma signals AIM’s are multi-channel analog modules for the Eagle Quantum Premier LON. From a configuration standpoint, each channel can be configured to be either a gas detector or a generic analog input. The AIM is configured by double-clicking on its selection rectangle on the LON schematic. This opens the “8 Channel AIM Editor...” which provides fields for the entry of any user changeable parameters.
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12-90 EAGLE QUANTUM PREMIER DEVICES Channel Configuration Adjustable parameters include the engineering units and range, the analog signal (ma) range, alarm setpoints, deadband adjustments for both the module and the eight individual channels, and an alarm trigger direction selection per channel. Being a multi-channel device there are multiple tagnames. At the top of the dialog box there is a device tagname that refers to the module as a whole and is used with its global status and diagnostic events.
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EAGLE QUANTUM PREMIER DEVICES 12-91 Alarm Trigger Direction In addition, each alarm has a checkbox to choose a “Falling Trigger” alarm type. When selected, the alarm will activate when the analog value drops below the setpoint as its value is falling. In the default configuration, a rising value activates the alarm as it passes through the setpoint. Gas Mode Each channel can be configured to be used with a “Gas Detector” or “Other (Non Gas)” instrument.
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12-92 EAGLE QUANTUM PREMIER DEVICES The first 12 alarms pertain to the status and diagnostic for the overall module. After this come 6 alarms for each of the eight channels. This gives a total of 60 alarms and events that can be enabled and monitored by S3 for this module type. User Levels The “User Level Editor...” provides a means for limiting access to the “Acknowledge”, “Remove”, and “Inhibit” buttons for the module which are accessible from the devices point display.
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EAGLE QUANTUM PREMIER DEVICES 12-93 Completing Configuration When all parameters have been set, select the OK button to return to the LON configuration screen. From the Command Bar Download the new configuration to the controller, or configure other devices. Point Display The AIM has a custom “Point Display” that can be accessed from either the Point Display button on the Command Bar or from the Online Mode. The point display provides a single window view of all available real-time data for the device.
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EAGLE QUANTUM PREMIER DEVICES 12-95 Relay Module 8 channel relay module The 8 Channel Relay Module consists of eight individually configured output channels. Each output channel drives a Form-C relay. NOTE The relay module only supports equipment that operates on 24 Vdc/Vac (not to exceed 2amperes) at each output channel. The relay module has two LEDs for the device and two LEDs for each channel.
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12-96 EAGLE QUANTUM PREMIER DEVICES Description This field provides an area to describe the function of each relay. Adding this optional information can make troubleshooting and startup easier. Com Fail Mode Each of the 8 relays can be individually configured to respond in one of three ways in the unlikely event of a complete loss of communications with the EQP controller.
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EAGLE QUANTUM PREMIER DEVICES 12-97 The first 13 alarms pertain to the status and diagnostic for the overall module. After this come 3 alarms for each of the eight channels. This gives a total of 37 alarms and events that can be enabled and monitored by S3 for this module type. User Levels The “User Level Editor...” provides a means for limiting access to the “Acknowledge”, “Remove”, and “Inhibit” buttons for the module which are accessible from the devices point display.
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12-98 EAGLE QUANTUM PREMIER DEVICES Point Display The IPM has a custom “Point Display” that can be accessed from either the Point Display button on the Command Bar or from the Online Mode. The point display provides a single window view of all available real-time data for the device. The bottom half of the point display provides a data display area and annunciator for all 8 relay outputs.
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EAGLE QUANTUM PREMIER DEVICES 12-99 Agent Release Module (ARM) The EQ2500ARM Series Agent Release Module (ARM) is located on the LON/SLC and provides agent release capability for the Eagle Quantum Premier system. The device is controlled by programmable logic in the Controller and can be used for “Single,” “Cross” or “Counting” Zone Style initiation. Optional time delay, abort and manual release sequences allow the output to be programmed for use in unique applications.
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12-100 EAGLE QUANTUM PREMIER DEVICES Mode Control ARM outputs can be latching or non-latching. Non-latching follows the condition of the user programmed logic. Latching requires a reset of the controller. Alarms Selecting this button opens the “Alarms to Monitor...” dialog box. This scrolling list displays the alarms and events related to the device that can be configured to be monitored by S3. User Level Allows user levels to be set on a variety of device features for security.
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EAGLE QUANTUM PREMIER DEVICES 12-101 Point Display The ARM has a custom “Point Display” that can be accessed from either the Point Display button on the Command Bar or from the Online Mode. The point display provides a single window view of all available real-time data for the device. ARM • MODE CONTROL Version 6.
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EAGLE QUANTUM PREMIER DEVICES 12-103 IDC 2 channel Initiating Device Circuit (IDC) module The EQ22xxIDC Series Initiating Device Circuit (IDC) module is located on the LON/SLC and provides supervised input capability for the Eagle Quantum Premier system. There are three 2 Channel EQ22xxIDC Series Initiating Device Circuit (IDC) modules available: The EQ22xxIDC allows discrete inputs from smoke/heat detectors, manual call stations or other contact devices.
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12-104 EAGLE QUANTUM PREMIER DEVICES Tagname The tagname at the top of the dialog box refers to the entire module. Each of the two input channels also require a tagname and until one is entered, that channel is not available in the S3 database for programming, monitoring or dynamic graphic purposes. Configuration Enter the Tagname for the module, a miscellaneous description and then the tagnames and descriptions for the two input channels.
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EAGLE QUANTUM PREMIER DEVICES 12-105 If a static logic function has been selected for an input, when the input is active that action will occur automatically without the need for any user programmed logic. If the input is to be used with user programmed logic only, select “Other”. Alarms Selecting this button opens the “Alarms to Monitor...” dialog box. This scrolling list displays the alarms and events related to the device that can be configured to be monitored by S3.
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12-106 EAGLE QUANTUM PREMIER DEVICES User Levels The “User Level Editor...” provides a means for limiting access to the “Acknowledge”, “Remove”, and “Inhibit” buttons for the module which are accessible from the devices point display. The default value is “0” and provides access to all users. Change these values to match a user account configuration and security needs.
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EAGLE QUANTUM PREMIER DEVICES 12-107 Signal Audible Module (SAM) The EQ2500SAM Signal Audible Module is located on the LON/SLC and provides NFPA-72 compliant Notification Appliance Circuit (NAC) control capability to the Eagle Quantum Premier system. The Signal Audible Module provides two indicating circuits for controlling UL Listed 24 Vdc polarized audible/ visual indicating appliances. The device is located on the LON and is controlled by programmable logic in the Controller.
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12-108 EAGLE QUANTUM PREMIER DEVICES Tagname The tagname at the top of the dialog box refers to the module. Each of the two output channels also require a tagname. Until the tagnames are entered the module is not available in the S3 database for programming, monitoring or dynamic graphic purposes. Below the tagname is a “Misc” text field to enter descriptive information to better identify the location or purpose of the module. Data in this field is optional.
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EAGLE QUANTUM PREMIER DEVICES 12-109 User Levels The “User Level Editor...” provides a means for limiting access to the “Acknowledge”, “Remove” and “Inhibit” buttons for the module which are accessible from the devices point display. The default value is “0” and provides access to all users. Change these values to match a user account configuration and security needs.
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12-110 EAGLE QUANTUM PREMIER DEVICES Alarm Logs The upper right quadrant of the point display shows the last eight alarms that have occurred along with their date & time. This information is stored in the module and is retrieved over the LON for display in this area. Status & Diagnostics The middle area of the point display shows the discrete status of 13 pieces of tracked status and diagnostic data.
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EQP LOGIC EDITOR 13-1 Logic Editor The Eagle Quantum Premier controller is a programmable device that requires a “user program” to be written to customize the system for the hazard(s) being monitored. This “user program” is developed utilizing a “Logic Editor” within the S3 software environment that provides the following facilities: • • • • • An IEC-61131-3 style logic editor for developing logic. A logic simulator for testing and debugging the logic.
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13-2 EQP LOGIC EDITOR Once the “Logic” button is selected from the “Configure a controller ...” dialog box, the “Logic Editor” program is launched. The “Premier Logic Editor” is a full screen application, and when launched looks like the example above. The upper area of the screen contains the applicable menus at the top and a button bar below that provides access to a variety of editing and display tools.
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EQP LOGIC EDITOR 13-3 File Menu This menu contains the standard “Windows” routines for setting up to print to a network printer and then printing selected reports. Print Reports Calls up the “Select reports to print...” dialog box which presents ten check boxes to select what portions of the controllers configuration are to be assembled into a report for printing.
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13-4 EQP LOGIC EDITOR Edit Menu This menu contains the standard “Windows” routines for Cut, Copy and Paste that will be used throughout the program. In addition there is a “Find” command, “Select All” and “Preferences”. Find This command will open the “Find” dialog box which provides a Text entry field and a Find button.
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EQP LOGIC EDITOR 13-5 In this sample find, the listed Element is “Fire Logic” which is a program, the Sheet Name in the logic program is “Main Crude Oil Pump Room”, the Type is “Input” and finally the located “Text” is “TIR-024”. In the example to the right, the input block “TIR-024 Fire Alarm” is on the left side of the logic page partially behind the “Find...” dialog box. Preferences This selection opens the “Preferences...
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13-6 EQP LOGIC EDITOR Show Line Marks In the logic editor when a line is selected by clicking on it, or, when the “Connection Tool” has been selected, a small black rectangle marks the beginning and end of each line as shown in the first example below. Selecting “Show Line Marks” as in the example below, will display an additional three visual indicators spaced between the beginning and end of the line to provide better visual cues on lines that are long or close to many others.
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EQP LOGIC EDITOR 13-7 Minimize I/O windows on start This option is used to control the look and feel of the logic simulator on startup. The simulator has two I/O windows. One is inputs and the other is outputs. When the simulator starts these windows will normally open full size. If the checkbox is enabled they will open in the minimized state.
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13-8 EQP LOGIC EDITOR Compress and D/L project When enabled the complete project is compressed and downloaded to the controller whenever the download command is executed. This powerful feature backs up all aspects of the project including any non-Premier ports and custom graphics. It is very similar to the routine of the “Backup/Restore” utility described in section 8 except the compressed file is stored in non-volatile memory in the controller instead of on the OIS hard disk or network.
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EQP LOGIC EDITOR 13-9 Once created, this global memory point will be available in the logic editor for use as an input to or output from logic elements. Memory Allocation The amount of memory set aside for each of the five types is adjustable. Clicking the “Memory Allocation” button at the bottom of the local memory editor dialog box will open the Memory Allocation dialog box. This dialog box provides five “slider” type adjustments to change the memory allocation for each type.
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13-10 EQP LOGIC EDITOR Local Memory This menu item opens the “Local Memory Editor...” which allows for the creation of and displays information on the five types of local memory. It also allows for the adjustment of memory allocations. The dialog box is “tabbed” allowing for the selection of the memory type to be displayed/edited. In the example to the right, “Boolean” is selected and there are no points created yet.
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EQP LOGIC EDITOR 13-11 AB Monitor This dialog box is a tool for checking the value of data in any of the eight configurable data tables used for exchanging data between the Premier controller and Allen Bradley systems. The desired table is selected with a radio button in the top portion of the dialog box and a scrolling list displays the data. In the example above the viewer has just been activated and is attempting to establish communication with the Premier controller.
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13-12 EQP LOGIC EDITOR In the example below the AB address “B20/0” is configured to be moved to a Premier controller global variable “MCOP-FA001” and AB address “B20/1” in the process of being “dropped” onto a Premier controller global memory point “MCOP-FA002”. The radio buttons on the left hand side of the dialog box will determine which configured global variables are displayed.
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EQP LOGIC EDITOR 13-13 In the example to the right, the “LON” item has been expanded by clicking on the “+” sign and now shows ten subordinate items, each of which is a field device. As these additional items are revealed, the list extends beyond the bottom and becomes scrolling. The hierarchical arrangement of items provides an easy and logical method of accessing the thousands of potential items that could be configured as outputs on a large premier system.
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13-14 EQP LOGIC EDITOR AB Table Settings This menu selection opens a dialog box which allows up to eight communication interface “tables” to be configured to allow for data to be “moved” between the Eagle Quantum Premier controller and an Allen-Bradley PLC or other system utilizing Allen Bradley communication protocols. Clicking on any cell in the “File Type” column will activate a pop-up menu allowing the selection of the proper table type for the data to be exchanged.
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EQP LOGIC EDITOR 13-15 MODBUS Moves This dialog box allows for the configuration of data moving between a “Modbus RTU Master” system and the Eagle Quantum Premier controllers memory. The dialog box uses a tabbed interface with two tabs on the left side representing the two directions data can flow. • Data to be moved from the MB system into the Premier controllers memory is configured under the “MB to Globals” tab.
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13-16 EQP LOGIC EDITOR In the example below the MB address “00001” is configured to be moved to a Premier controller global variable “MCOP-FA001” and MB address “00002” in the process of being “dropped” onto a Premier controller global memory point “MCOP-FA002”. The radio buttons on the left hand side of the dialog box will determine which configured global variables are displayed.
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EQP LOGIC EDITOR 13-17 Tab 1 Is for “Coils” which typically represent “Outputs” in a Modbus PLC. Coil addresses start with “0”. Tab 2 Is for “Inputs” which typically represent discrete input cards in a Modbus PLC. Input addresses start with “1”. Tab 3 Is for registers (16 bit words) that occupy an address range beginning with 40,001. Registers can be used either as a whole “16 bit” word to move an integer value, or as sixteen individual “bits”, into which boolean “ON/OFF” data can be moved.
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13-18 EQP LOGIC EDITOR In the example to the right, the “LON” item has been expanded by clicking on the “+” sign and now shows ten subordinate items, each of which is a field device. As these additional items are revealed, the list extends beyond the bottom and becomes scrolling. The hierarchical arrangement of items provides an easy and logical method of accessing the thousands of potential items that could be configured as outputs on a large premier system.
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EQP LOGIC EDITOR 13-19 MODBUS Table Settings This menu selection opens a dialog box which shows the three communication interface “tables” to be configured to allow for data to be “moved” between the Eagle Quantum Premier controller and a Modbus based system utilizing the industry standard Modbus RTU communication protocol. There are three register types, Coil, Input and Holding each of which are for the exchange of a different type of data. The default “Count” for each register type is 0.
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13-20 EQP LOGIC EDITOR Move Up/Move Down The Premier Controller executes its logic programs in the order that they appear in the “Elements tab” of the “Project Directory...” dialog box. In the example below, the controller will execute the program “Fire Logic” first and then process the “Gas Logic” program. The “Move Up” and “Move Down” buttons located in the lower left of the “Project Directory...” dialog box are used to change the execution order of the programs.
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EQP LOGIC EDITOR 13-21 New This button opens the “Element type selection” dialog box used to configure a newly created element. Fields are provided for an element name and description along with radio buttons to select the “Type” of element to be created, “Program” or “Function block”. The default selection is for the creation of a new “Program”. The “Language” selection is fixed at “Function Block” as S3 does not currently support any other languages.
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13-22 EQP LOGIC EDITOR Select the “OK” button to return to the “Project Directory...” dialog box and the information on the newly created third element named “New Program” is now highlighted. Settings Select the “Settings” button to open the “Element settings...” dialog box which has two program control check boxes and some additional fields that pertain to “Functions” and will be covered later. The “Program” check boxes are “Enabled” and “First Scan Only”. Version 6.
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EQP LOGIC EDITOR 13-23 Enabled The enabled checkbox determines whether the program will be executed by the controller or not. When checked the program will run. First Scan Only When checked the program will run once when the controller executes its first logic scan and will not run again until the controller is stopped and restarted. This is typically used for a “setup” routine. Delete This button will remove the selected program or function block from the directory, project and hard drive.
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13-24 EQP LOGIC EDITOR Duplicate This button will make a copy of a selected element and add it to the project directory. When the Duplicate button is selected a dialog box will open allowing a new name to be entered for the duplicated element. Enter a name and then select “OK” to complete the duplication. Selecting “Cancel” will abort the duplication. Import The import function facilitates bringing certain elements created in another project into the current one.
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EQP LOGIC EDITOR 13-25 Export If a function block or function is highlighted in the project directory window, the “Export” button will become active allowing the element to be exported. The standard Windows “Save As” dialog box allows for naming the file and choosing a destination to save to. Build The build option “compiles” the project. The project is a program that must be compiled to download to the controller. LOGIC EDITOR • PROJECT MENU Version 6.
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13-26 EQP LOGIC EDITOR The build process allocates memory, validates tagnames, validates data types, etc. View the “Errors/Warnings” viewer if the build window indicates any errors or warnings. A preference selection will automatically open the “Errors/Warnings” viewer if selected. Compatibility Checks to see compatibility between S3 and controller firmware. Cross Reference A list is generated to show every instance of tags and where they are used.
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EQP LOGIC EDITOR 13-27 Show Errors/Warnings This menu selection opens the viewer and displays any problems found in the project during the last build (compile). When enabled, the logic editor will display the “ERROR / WARNINGS VIEWER” at the completion of a project build listing any problems. Selecting one of the errors will close the viewer and display the section of logic containing the problem. The list can be printed using the “Print” button in the lower left of the dialog box.
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13-28 EQP LOGIC EDITOR Check Function Block When a function block is open for editing, this menu item becomes available. When selected S3 will check the validity of the program and list any found errors or warnings. If a function block is not open for editing this feature is not available. Download Once the project has been “built” and no errors or warnings were discovered, selecting this menu item will transfer the project to the controller.
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EQP LOGIC EDITOR 13-29 Simulate If the project has been “built” and no errors were discovered then the program can be simulated within the S3 environment. Simulation allows for program testing and debugging without the need for an actual Eagle Quantum Premier controller being attached to the S3 workstation. Below is an example of a program in the “simulation” mode. When the simulator is running, the value for each logic element is displayed on the screen to the right of the element.
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13-30 EQP LOGIC EDITOR Sheets Menu The S3 logic editor utilizes a Computer Aided Design (CAD) style of program to create logic in much the same way that a draftsperson would have created drawings depicting logic in the past. Drawing “sheets” are used to create the logic and also serve as documentation of this logic. The “Sheets” menu provides access to features determining the layout of the logic pages along with the information in the title block.
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EQP LOGIC EDITOR 13-31 Settings This menu item opens a dialog box where logic pages are given a “title” that appears in the title bar of the window for the drawing sheet, and a size and orientation for the drawing sheet can be selected. The “Sheet Settings...” dialog box will list all existing sheets that have been created for an element (program or function block) along with seven buttons for “sheet management” purposes.
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13-32 EQP LOGIC EDITOR Duplicate This button will create a new sheet at the end of the list of existing sheets. This “duplicate” will have a copy of all logic and settings on the original sheet. A dialog box will open allowing the new sheet to be named upon creation. Move Up/Down These two buttons are used to change a sheets position within the elements execution list.
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EQP LOGIC EDITOR 13-33 Title Blocks In the lower right area of each drawing sheet is a “Title Block” area which contains fields typically used to describe the project and functionality of the logic on the sheet. Selecting this menu item opens the “Sheet Title Block Editor...” dialog box. This dialog box provides 18 fields for data entry to describe the project and logic functionality. The first field “Sheet” shows the current sheet number within the element (program or function block).
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13-34 EQP LOGIC EDITOR Next/Previous These menu items become active whenever an element has more than one logic sheet. They change the displayed logic sheet to the next or previous one as is appropriate. Local Variable Editor Variables are used to store intermediate values within a logic program or function block. “Local Variables” are only used within a function block and their values are not accessible outside of that specific function block.
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EQP LOGIC EDITOR 13-35 In the example below, a single variable is being created, the tagname “UV Counts” has been entered, the description has been entered, and the pull down menu is active in order to choose the appropriate “Data Type” for the variable. The default quantity of local variables allocated by S3 is “1” and must be changed to meet the needs of the function block being created. The “Allocation” button at the bottom center of the “Local Variable Editor...
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13-36 EQP LOGIC EDITOR In the example below the creation of local variable #1 “UV Counts” has been completed and there are now additional slots to create up to eight local variables. Note The number of local variables available (1-1024) is not dependent on the data type, i.e. more variables do not become available by simply choosing only boolean types instead of integer or floating point types. Toolbars Menu Toolbars provide “shortcuts” to many menu items described earlier.
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EQP LOGIC EDITOR 13-37 Project Toolbar This toolbar provides three shortcuts; Project Directory, Save Project and Build Project. Project Directory The project is divided into elements. These elements are made up of programs and function blocks. Selecting this icon provides access to the tools for the creation, opening, ordering, duplication, deleting and configuration of these project elements. It also allows for the importing and exporting of function blocks.
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13-38 EQP LOGIC EDITOR Pointer Tool This arrow shaped tool is used to select and manipulate the position and or size of any logic function on a sheet. Select Function Block This button opens the “Function Selection” window which contains a scrolling list of all standard and user created functions available for selection. Function Block Icon When the user selects a standard or a user created function block from the “Function Selection...” window, the selection is saved.
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EQP LOGIC EDITOR 13-39 Input Variable All input variables to a program or function are via this symbol. Once placed on a logic sheet, the input variable must be “linked” to a compatible parameter on the controller, a field device, or a location in controller memory. Output Variable All output variables from a program or function are via this symbol.
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EQP LOGIC EDITOR 13-40 Sheet Toolbar There are four icons which provide shortcuts to menu items having to do with logic sheets. These four icons from left to right are; Previous Sheet, Sheet Settings, Next Sheet and Fit to Window. Previous Sheet When a multi-sheet logic or function block element is open and a “previous sheet” exists, this button will highlight and its selection will open the previous sheet. Sheet Settings Sheets have a name, size and position. Via this icon the “Sheet Settings...
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EQP LOGIC EDITOR 13-41 Control Panel Toolbar There are three icons which provide shortcuts to menu items having to do with logic and the controller. These three icons from left to right are; Download, Monitor and Simulate. Download When this icon is selected and the project has been “built” and no errors were discovered then the program is transferred to the controller.
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13-42 EQP LOGIC EDITOR Help Menu The help menu provides access to the online help system and has two areas; “Standard Functions” and “Main Window”. Standard Functions This portion of the help system covers all of the available logic operators available for use in the logic editor. Selecting this menu item will open a hypertext linked help window featuring all available logical operators. To access detailed information on a subject, click on a library function and the information will be displayed.
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EQP LOGIC EDITOR 13-43 In the example below, the “Absolute” function was selected and the details of how to use this function are shown. Use the Contents, Index, Back and Print buttons below the help windows menu bar to navigate the help system and print hard copies as required. Main Window This portion of the help system covers the description and operation of the icons in the logic editors tool bar. Pictures of the tool bar icons are shown along with a description of their functions.
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13-44 EQP LOGIC EDITOR PAGE LEFT BLANK INTENTIONALLY
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EQP LOGIC EDITOR 13-45 Logic Creation The S3 Logic Editor provides a modern full featured IEC-61131-3 style environment to generate, test and document user programmable logic for Eagle Quantum Premier controller. S3 utilizes the “Function Block Diagram (FBD) Language”. FBD is a graphically oriented language that corresponds to block logic diagrams. The elements used in this language appear as blocks wired together to form logic circuits.
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13-46 EQP LOGIC EDITOR Definitions Programs Programs are the highest-level executable elements within an S3 project. Programs can invoke functions or function blocks, but cannot invoke other programs. Projects are typically partitioned into multiple programs based on the operational requirements of an installation. Function Blocks In S3 a function block is an executable element that yields one or more values and is generally used to perform repetitive operations.
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EQP LOGIC EDITOR 13-47 The “Gate Settings...” dialog box provides a scrolling pulldown menu from which the number of inputs can be adjusted anywhere between Two (2) and Thirty Two (32). In the examples above and to the left, eight inputs were selected and then inputs Two (2), Four (4) and Six (6) were inverted by clicking on the “NOT Enable” checkbox corresponding to those inputs. In addition, the output was inverted in the same manner.
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13-48 EQP LOGIC EDITOR Placing Logic Operators on a Sheet To develop a program the user must be able to use the Logic Editor to place functions, function blocks, variables, inputs and outputs on a sheet within an element and then connect them together into viable networks. Below is an example of one of the simplest networks possible, a non-extensible function with a single input and a single output.
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EQP LOGIC EDITOR 13-49 6. Select NOT and click “OK”. The cursor will change to a miniature function block symbol when positioned within the drawing area of the current sheet. 7. Place the “NOT” function on the sheet by positioning the mouse cursor over the sheet and clicking the left mouse button. The cursor will return to the “Arrow” symbol and this tool can be used to move the placed function to the desired location on the sheet. It may also be moved using the arrow keys. 8.
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13-50 EQP LOGIC EDITOR Once this connection is established, the input variable can be repositioned anywhere left of its connection point and the connection wire will change size and shape to keep the connection. Using Wires Click on the “Wire Tool” to activate it. The cursor changes to a miniature wire tool or pencil when it is positioned anywhere within the drawing area of the sheet. This means that wires can be drawn from one logic operator to another to connect them.
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EQP LOGIC EDITOR 13-51 The “Input Selection...” dialog box presents the database as a hierarchical list of sources. Any item on the list that has a “+” before it has subordinate items and clicking on the “+” will expand the list showing all items that make up that category. To the right of the list are two buttons that can “Collapse All” or “Expand All” subordinate items in the list for easy viewing.
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13-52 EQP LOGIC EDITOR The final step in completing the example network is to link the NOT gates output variable to an appropriate point. Double clicking on the “Output Variable” opens the “Output Selection...” dialog box. This dialog box presents the database in the same manner as described on the previous page for the input selection process.
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EQP LOGIC EDITOR 13-53 Wire-on-Wire This type of connection is used when a single signal needs to be routed to multiple destinations as in the example below. In this example the output “Q” of a “Reset-Set (RS)” block needs to be routed to the input of an “AND” gate, to the input of a timer (TON) and to two output locations on SAM-014. The first connection to SAM-014’s audible alarm is complete, the second connection to SAM-014’s visible alarm output needs to be created.
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13-54 EQP LOGIC EDITOR Click to and drag to make the connection and create a wire. Draw the wire from the initial wire-to-wire connection point to the input of the desired variable. The completed circuit will look like the example below. If the mouse button is released while “drawing” the wire, before completing the connection, an incomplete line segment will be created. To complete this segment, use the arrow tool to click and drag the incomplete end of the wire to its desired destination. Version 6.
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EQP LOGIC EDITOR 13-55 Combining the techniques described in the last few pages with the comprehensive standard set of S3 functions and function blocks, virtually any kind or complexity of logic can be created quickly and easily. The example above utilizes a binary OR, a One Shot Pulse (OSP), a binary AND, a Reset/Set (RS) and text comments to create a portion of the protection logic for a pump room.
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13-56 EQP LOGIC EDITOR In the example to the below, an Input Variable was placed and linked to a global memory point “MCOP-FA001”. The value for this point was generated on the preceding sheet where it was assigned to the global database. Once placed in the global database, the value of “MCOP-FA001” can be used as an “Input Variable” on any other sheet in the project. Data Types Functions and Function blocks typically require a specific data type to be attached to their input and output pins.
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EQP LOGIC EDITOR 13-57 Creating a SIL 2 project As specified by IEC 61508 there are 4 levels of safety performance necessary for a safe functioning system. Det-Tronics supports a SIL 2 program when using S3 6.x.x.x+ to build a project and downloading to controller version 6.xx+. Creating a SIL 2 project is similar to any other project in S3, with a few extra steps. Follow these steps to create a SIL 2 project. 1. From the “Configure a controller…” screen, check “SIL Controller” as seen below . 2.
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13-58 EQP LOGIC EDITOR 3. Once the controller is set as a “SIL Controller” and a SIL device is chosen, the screen should look similar to that of the figure below. If a devices’ name is not in red text, then the project is not SIL 2 compliant, this is also true for the controller. If there is difficulty reading red text on a black background, it is possible to change the background color by clicking the “Point Color” button as seen on the example screen above.
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EQP LOGIC EDITOR 13-59 Not SIL 2 compliant. There are non-red colored inputs and outputs. SIL 2 compliant, everything is red except comments. Not SIL 2 compliant, mixed usage of black logic gates with red logic gates. SIL 2 LOGIC Version 6.
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13-60 EQP LOGIC EDITOR Categories The categories have the following meanings: SIL This item is SIL by specific design. Always RED False This item is not SIL due to a known condition that makes it non-SIL. There is a SIL equivalent. Always BLACK No This item is not SIL. It may have characteristics that would require a specific design to be SIL, but it was not designed/built that way. There is no SIL equivalent. Always BLACK Yes This item is SIL by characteristics.
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EQP LOGIC EDITOR 13-61 Functions Gate/Function Name Logic Function Category ABS ABSOLUTE Mutable ACCLAIM ACCESS ALARM No ADD ADD Mutable ALMTGR ALARM TRIGGER No AND AND Yes ANDW AND WORD Yes AVE AVERAGE Mutable Mutable BTW BETWEEN BTWT BETWEEN TIME No BINT BOOLEAN TO INTEGER Yes CEIL DIV CEIL No COMMENT Not Applicable CONNECTION Not Applicable CONSTANT Mutable DIVIDE Mutable DBLFLT DOUBLE TO FLOAT No DBLINT DOUBLE TO INTEGER Yes DBLSTR DOUBLE STRING No
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13-62 EQP LOGIC EDITOR Gate/Function Name Logic Function Category NUMBER OF BITS Yes ODD ODD Yes TOF OFF TIMER False TON ON TIMER False TOF-SIL ON TIMER SIL SIL TON-SIL ON TIMER SIL SIL OSP ONE-SHOT No OSP-SIL ONE-SHOT SIL SIL OR OR Yes ORW OR WORD Yes OUT OUTPUT Mutable PACK16 PACK 16 Mutable PKDT PACK DATE/TIME No PULSER PULSER No False RS RESET/SET RS-SIL RESET/SET SIL SIL RTM RETENTIVE TIMER False RTM-SIL RETENTIVE TIMER SIL SIL RND ROUND No SCA
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EQP LOGIC EDITOR Logic Function Category ABSOLUTE Mutable ACCESS ALARM No ADD Mutable ALARM TRIGGER No AND Yes AND WORD Yes AVERAGE Mutable BETWEEN Mutable BETWEEN TIME No BOOLEAN TO INTEGER Yes CEIL No COMMENT Not Applicable CONNECTION Not Applicable CONSTANT Mutable DIVIDED Mutable DOUBLE TO FLOAT No DOUBLE TO INTEGER Yes DOUBLE TO STRING No DOWN COUNTER False DOWN COUNTER SIL SIL EQUAL TO Mutable EVENT TRIGGER No FLOAT TO STRING No FLOOR No FRAC No GREA
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EQP LOGIC EDITOR 13-64 Version 6.0 Logic Function Category MINIMUM Mutable MODBUS READ No Notes MODBUS WRITE No MODULO Yes M OF N Yes Why not? MOSP No Complies to multiple one-shots followed by a multiple-input OR. See div, not clear. MULTIPLY Mutable MULTIPLEX Mutable NOT Yes Why not? NUMBER OF BITS Yes Complies to a multiple-input boolean add.
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EQP LOGIC EDITOR 13-65 Device Items Reference As described earlier, inputs and outputs to the logic must be “linked” to variables in the S3 database for the controller in which the logic resides. When the database is “browsed” to locate the desired variable for a LON device, controller or memory location, a very large array of device “items” will be listed. These items are listed in alphabetic order under each tagname in the database.
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EQP LOGIC EDITOR 13-66 Item Descriptions Item 1 - Firmware ID String The controller automatically polls LON devices for an ID string. The ID string contains an abbreviated device name and firmware version. As an example, “DCU 3.01” is the ID string for a DCU. The first three characters hold the device ID and the last 5 characters hold the firmware version. In multi processor units like the Eclipse and X3301 this represents the version of the software running on the neuron chip.
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EQP LOGIC EDITOR 13-67 Item 7 - Device Code Each device type has a unique code associated with it. Controller to PC configuration software use “Device Codes” to identify device types. The Controller to field device interface uses “LON Type Code” for backward compatibility with older devices.
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EQP LOGIC EDITOR 13-68 Item 11 - Time and Date of Configuration The time and date of the configuration information is saved in this variable. Item 12 - Unique Configuration Number Each configuration will be assigned a unique number, which can be used to identify the configuration. Item 13 - Configuration Port Baud Rate Serial baud rate for the controller configuration port is set with this variable. A code is used to represent each rate. Baud Rate Codes Code Speed 1 2400 2 4800 3 9600* 4 19.
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EQP LOGIC EDITOR 13-69 Item 17 - Current Time and Date The controller real time clock can be set or read with this variable. Item 18 - User Name Name of the user that was logged into S3 when the project was built. Item 19 - ControlNet MAC Address The ControlNet MAC address is set with this variable. Allowable values range from 1 to 99. Item 20 - Serial Port 1 Protocol The second serial port protocol is set with this variable.
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EQP LOGIC EDITOR 13-70 Item 25 - Beeper Volume The volume level of the internal beeper can be adjusted with this variable. Values from 1 (lowest) to 4 (highest) are allowed. Beeper Volume Value Description 1 Off 2 Low 3 Medium 4 High Item 26 - Channel Type This variable is used to configure device channels. See Section EQ37EDIO-SIL for more details.
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EQP LOGIC EDITOR 13-71 Item 30 - Gas Mode Gas Mode is used to determine if static logic should activate high and low gas alarms. When mode 1 is selected static logic will activate the controller gas alarms. Mode 2 should be used for non-gas detector inputs. Gas Mode Value Definition 1 Gas Detector 2 Other (Non Gas) Item 31 - Engineering Zero Value Zero range corresponds to the 4 ma value on the sensor input. For example, if 4 ma equates to 10.
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EQP LOGIC EDITOR 13-72 Item 38 - Input Static Logic Mode Input mode is used to determine if static logic should activate controller alarms on input activation. For example, if mode 1 is selected, static logic will activate the controller fire alarm when the input is activated.
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EQP LOGIC EDITOR 13-73 Item 43 - Oi Mode Optical Integrity mode can be selected with this variable. Oi Mode Value Definition 0 Automatic 1 Manual Item 44 - Latching 0 = non-latching output. 1 = latching output. Item 45 - ARM Output Mode See the ARM section for a description of this variable. Item 46 - Activation Time The output hold on time can be set with this variable. Item 47 - IR Sensitivity The IR for UVIR flame detectors always uses 0.
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EQP LOGIC EDITOR 13-74 Item 49 - IR Oi Test Frequency Three consecutive failures are required to fault, and three consecutive good tests are required to return to normal. While an IR oi fault is active the test frequency is reduced to once per minute. IR Oi Test Frequency Value Definition 1 1 minute (Default) 2 1 Hour 3 2 Hours 4 4 Hours Item 50 - Full Scale Value The Engineering unit full scale value can be configured and must match the current rating of power supply monitor.
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EQP LOGIC EDITOR 13-75 Item 54 - Calibration Gas Type Calibration gas type is selected with this code. Description Mode Same as Measured (Default) 1 Methane 2 Propane 3 Item 55 - Calibration Method Description Code Standard (Default) 1 Cuvett 2 Item 56 - Cuvett Length 1.0 to 150.0 mm, default 150mm Item 57 - Calibration Gas Concentration The allowable range is from 20 to 100% with 50% as the default. Item 58 - Volume at LFL Used for programming a special gas type, the default value is 5%.
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13-76 EQP LOGIC EDITOR Item 66 - Alternate Function Each of the controller I/O points has a predefined alternate function. When the alternate function is enabled for a relay, it can not be used by user logic. Item 67 - Fire Alarm Fire alarm is indicated with this item. For the controller, this item represents the state of the fire alarm LED and relay. Item 68 - Trouble This item represents the state of the trouble LED and relay on the controller.
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EQP LOGIC EDITOR 13-77 Item 79 - CPU Fault The item indicates a problem with a processor or memory system, the cause of this fault is device dependent. Item 80 - Supervisory This item tracks the state of the controller Supervisory LED and relay, if programmed for the alternate function. Item 81 - Channel Active This item tracks the state of an I/O channel. Item 82 - Control Message Fault This item is set when a field device does not receive the output control message from the controller.
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EQP LOGIC EDITOR 13-78 Item 91 - Flame Detector Counts per Second This variable represents the counts per second from flame detectors. Item 92 - Supply Voltage Field device supply voltage as measured at the device can be read with this item. Item 93 - Wrong Device Type This item is reserved to signal that the controller has detected a wrong device type (Not supported in the first release).
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EQP LOGIC EDITOR 13-79 Item 102 - LON B Interface Fault The bit is set when a problem is detected with LON interface channel B. Item 103 - Inhibit Status This item is set when a device or channel has been inhibited. Item 104 - Zero Drift This item is set when a gas detector goes negative to point of a fault. Item 105 - Option Board Fault The controller sets this item true when a fault is detected in the controller option board.
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13-80 EQP LOGIC EDITOR Item 113 - Com 1 Fault Each field device contains two network relays used to isolate network wiring faults. A status item is provided for each relay and is set when the fault isolation circuitry has detected and isolated a wiring fault. Item 114 - Com 2 Fault See com 1 fault. Item 115 - Sensor Fault Field devices set this bit to indicate a sensor related fault. Older field devices may also set this fault to signal invalid configuration data.
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EQP LOGIC EDITOR 13-81 Item 128 - Sensor Initialization Fault The field device sets the item to indicate that the sensor was bad at start-up. If the detector is set for Manual Oi the Sensor Initialization Test is conducted on start-up by turning on the test lamp. If less then 2 counts are received the Sensor Initialization fault is set. The Sensor Initialization fault bit is cleared any time 2 counts per second are received.
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EQP LOGIC EDITOR 13-82 A device sets this item to indicate that the optics need to be cleaned. Item 142 - Internal Comm Fault A device sets this item to indicate that a fault has occurred in the communications between the LON and host processors. Item 143 - Warm-up A device sets this item during the warm-up period. Item 144 - Open Lamp A device sets this item to indicate an open lamp fault. Item 145 - Alarm Logs Up to 8 alarm logs are held in this item.
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EQP LOGIC EDITOR 13-83 Item 150 - Inhibit Control Setting this control item instructs the controller to inhibit the device or channel associated with this item. Clearing the item will remove the inhibit. Inhibit control and status resides in the controller, not the field devices. Only the primary alarm or input status is affected. Inhibits do not trigger a fault condition. When a device or a channel is inhibited, the controller will illuminate one of two LEDs.
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EQP LOGIC EDITOR 13-84 Item 152 - Activate Reset Setting this control item instructs the controller to send a reset command to the field device. Item 153 - Start Manual Oi Test Setting this control item instructs the controller to send a start manual Oi test command to the field device. Item 154 - Release Setting this control item instructs the controller to sendrelease command to the ARM module. This will cause the output to activate.
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EQP LOGIC EDITOR 13-85 Item 165 - Activate Low Gas Alarm Setting this control item in the controller activates the low gas alarm output. Item 166 - Activate High Gas Alarm Setting this control item in the controller activates the high gas alarm output. Item 167 - LON A Counter Within the controller object, this status variable holds the number of heartbeat messages received. Resetting the controller will also reset this counter.
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13-86 EQP LOGIC EDITOR Item 179 - Activate Supervisory Setting this control bit activates the controller supervisory output, status bit and LED. The output, LED and status bit will stay true until the controller is reset. The controller clears this control bit after the action is taken. Item 180 - Latching Fault Setting this configuration parameter causes the field device to latch the fault status until the device is reset.
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EQP LOGIC EDITOR 13-87 Item 195 - No Oi High Energy Fault A field device sets this status bit to indicate that the No Oi High Energy Fault is true. Item 196 - Flash Fire A field device sets this status bit to indicate that it has detected a flash type fire. Item 197 - Bin Fire A field device sets this status bit to indicate that it has detected a bin type fire. Item 198 - Low Level Fire A field device sets this status bit to indicate that it has detected a low level type fire.
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13-88 EQP LOGIC EDITOR Item 222 - Request Temperature Setting this control bit will cause the controller to retrieve the temperature from a device. Item 223 - Heater Enable Control This item is used to control the optics heater from user logic. This allows the user to disable the heater when AC power is lost. Item 224 to 239 - User Parameters 1-16 User parameters can be used as part of a self configuration process. The values are saved in flash memory when program mode is exited.
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EQP LOGIC EDITOR 13-89 Item 254 - Missed Messages The number of times that an incoming packet was discarded because there was no network buffer available. Item 255 - IR Processing Mode This item is used to select the processing mode for the IR detector. Value Description 1 TDSA 3 TDSA and Quick Item 256 - UV Auto Oi Test Frequency This item is used to select how often the automatic Oi test is conducted, see the device for the allowable range.
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EQP LOGIC EDITOR 13-90 Item 268 - UV Oi Calibration Fault This item comes true when an UV Oi calibration fault occurs. The UV Oi lamp is activated and allowed to stabilize for 2 seconds. An average counts per second is determined. The average counts must be within a targeted window (150 to 250). Otherwise, an Oi calibration fault will occur. Item 269 - IR Oi Calibration Fault This item comes true when an IR Oi calibration fault occurs. The IR Oi lamp is activated and allowed to stabilize for 1 second.
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EQP LOGIC EDITOR 13-91 Item 279 - mA Range Low This value defines the low/zero point for a 4 to 20 mA input channel expressed in mAs. Typical values would be 0.0 or 4.0. Item 280 - mA Range High This value defines the full scale point for a 4 to 20 mA input channel. A typical value would be 20.0. Item 281 - Out of Range Low Level (mA) This value defines the low level current threshold for the out of range low fault.
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EQP LOGIC EDITOR 13-92 Item 291 - Redundancy Fault Code This item can be used to determine the cause of a Redundancy fault.
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EQP LOGIC EDITOR 13-93 Item 295 - Smoke Detector Type This item selects a type of smoke detector. Value Detector Type 0 Invalid 1 Apollo 2 Fenwal Item 296 - Abort Mode This item selects the type of abort mode. Value Mode 0 Invalid 1 Mode 1 2 Mode 2 3 IRI Mode Mode 1: Upon activation, timer will count down to and hold at 10 seconds; upon release, timer will continue to count down to zero. Only this mode complies with UL 864.
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EQP LOGIC EDITOR 13-94 Item 298 - Control Mode This item selects the embedded logic control mode. Value Mode 0 Invalid 1 Embedded Logic Only 2 Controller Only 3 Back-up Mode Embedded Logic Only: In this mode the device will always use the embedded logic and ignore control messages from the controller. Controller Only: In this mode the device will accept control information from the controller and never use embedded logic.
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EQP LOGIC EDITOR 13-95 Item 309 - One Zone Bell Tone This item is used to select the bell tone when one zone of the IPM is in alarm and embedded logic mode is enabled. Value Tone 0 Off 1 Continuous 2 60 BPM 3 120 BPM 4 Temporal 5 Trouble 6 Supervisory Item 310 - Two Zone Bell Tone This item is used to select the bell tone when the second zone of the IPM is in alarm and embedded logic mode is enabled. See Item 309 for a list of available tones.
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EQP LOGIC EDITOR 13-96 Item 314 - Serial Port 2 Parity The parity setting for the second configurable serial port is set with this variable. The default parity is “None”. Refer to the data type section of this document for the parity data values. Item 315 - Serial Port 2 Address This address field is used for Modbus protocol, valid Modbus addresses are in the range from 1 to 247 with a default value of 1.
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EQP LOGIC EDITOR 13-97 Item 321 - Serial Port 4 Baud Rate Serial baud rate for serial port 3 is set with this variable. The allowed selections are listed below. Baud Rate Codes Code Speed 3 9600 4 19.2K 5 38.4K 6 57.6K 7 115.2K 8 230.4K Item 322 - Serial Port 4 Parity Serial port 3 parity is set with this variable. The default parity is “None”. Refer to the data type section of this document for the parity data values.
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EQP LOGIC EDITOR 13-98 Item 333 - Lon Overload Fault This item is used to indicate that user logic is attempting to write more data to LON output devices then the LON can accommodate. Item 334 - User String Display Enable When this configuration item is true the controller descriptor text (item 9) will be displayed on the controller faceplate while in normal mode (scrolling marque).
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EQP LOGIC EDITOR 13-99 Item 343 - Suppression Timer First used with the Automotive MIR Flame Detector (X3301). Refer to the AMIR X3301 specification for details on this parameter. Item 344 - LON Diagnostic Fault This is a new fault used by SIL field devices. The controller will issue this fault when the percent of missed status messages from a device is greater than 10% from both channels.
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EQP LOGIC EDITOR 13-100 Item 352 - Controller Inhibit Mode In Alarms only mode, the inhibit feature inhibits only the alarms. The Alarms and Fault Mode inhibits all faults that trigger the Controller fault relay as well as alarms. The Alarms and Fault Mode also complies with EN54. Control Inhibit Mode Value Mode 1 Alarms Only 2 Alarms & Faults (EN54) Item 353 - Controller Fault This fault LED is set when the Controller is reset due to a Watch Dog Reset. It may only be cleared by a power cycle.
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EQP LOGIC EDITOR 13-101 Item 361 - Beam Block Delay The beam block delay is used with Open Path. This is the amount of time that must go by before a blocked beam fault is declared. The delay is configurable from 1 minute to 60 minutes. Item 362 - Standby Power Fault 1 The standby controller sets this status variable when low voltage is detected on the power input #1. Item 363 - Standby Power Fault 2 The standby controller sets this status variable when low voltage is detected on the power input #2.
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Detector Electronics Corporation 6901 West 110th Street Minneapolis, MN 55438 USA X3301 Multispectrum IR Flame Detector PointWatch Eclipse® IR Combustible Gas Detector Eagle Quantum Premier® Safety System T: 952.941.5665 or 800.765.3473 F: 952.829.8750 W: http://www.det-tronics.com E: det-tronics@det-tronics.